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TRANSCRIPT
Thermal SprayCrossing Borders
Maastricht, The Netherlands
June 2 – 4, 2008
Organizers:
DVS - German Welding SocietyASM International - Thermal Spray Society (TSS)
IIW International Institute of Welding
NIL - Netherlands Institute of WeldingVTS - Vereniging voor Thermische Spuittechnieken
Final Program
ASM Thermal Spray SocietyAn Affiliate Society of ASM International
Sponsors:
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vs-e
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sc20
08
AutomotiveAutomotive
Application
Highlights:
Solid Oxide Fuel CellSolid Oxide Fuel Cell
GasturbinesGasturbines
Biomedical CoatingsBiomedical Coatings
Printing and PaperPrinting and Paper
Young ScientistsYoung Scientists
The
Lin
de
Gro
up
DVS – The German Welding Society is pleased to announce the following sponsors of ITSC 2008 conference:
Gold Sponsors:Sulzer Metco AG (Switzerland)
VTS – Vereniging voor Thermische Spuittechnieken
(The Netherlands)
Silver Sponsors:Durum Verschleiss-Schutz GmbH
(Germany)
The Linde Group (Germany)
Bronze Sponsors:Flame Spray Technolgies bv
(The Netherlands)
GTV Verschleiss-Schutz GmbH (Germany)
H.C. Starck (Germany)
Medicoat AG (Switzerland)
Are you interested? Further sponsors are welcome. Please contact: [email protected]
Sponsoring
Sulzer Metco
Welcoming Address from the Organizers
Welcome to the International Thermal Spray Conferenceand Exposition 2008!
DVS - German Welding Society, ASM Thermal SpraySociety and IIW International Institute of Welding proud-ly present the ITSC 2008 in Maastricht, The Netherlands.
As our local Dutch partner for this event, we introduceNIL - Netherlands Institute of Welding and VTS -Vereniging voor Thermische Spuittechnieken.
Over the past years, ITSC has become the most valuableworldwide exchange market for trends in thermal spraying.
At this year's event, we feature the latest developmentsin thermal spray applications, technology and science.We address key developments in several market focusedsymposia.
To strengthen the Thermal Spray Technology in its existing and future markets, ITSC 2008 broadens its use-oriented “Special Highlights” for growing andupcoming applications:
• Automotive• Biomedical Coatings• Gasturbines• Printing and Paper• Solid Oxide Fuel Cell
With the philosophy “one day one market” ITSC 2008offers application oriented information straight forwardtowards the practical needs with an optimum of timeinvest for different industries.
There are 41 sessions with over 220 oral- and 140 posterpresentations from 32 countries at ITSC 2008 that providethe most important source of thermal spray technical information available.
Additionally, more than 40 exhibitors will provide the con-ference attendees with optimum information about theircurrent and ongoing developments.
ITSC becomes more and more an important stage foremergining professionals in thermal spraying. In the“Junior Session” promising young talents, both fromindustry and universities, share their work. This session isaccompanied by a special poster exposition. All visitorsto this session can elect their favorite contribution, andthe winner will be announced on the awards banquet.
DVS - The German Welding Society – in cooperation withthe GTS – Association of Thermal Spraying – is suppor-ting thermal spraying constantly and substantially inGermany and worldwide. Support is given in the fields of
research, techniques, guidelines, papers, standards,regulation and certification, and in the field of personaltraining. Products and services are created and offered.It is our clear understanding – and we follow this strategystrictly – that all aspects of thermal spraying – research, techniques, training and certification – shouldbe strongly linked. Once again ITSC in Europe is one ofthe best opportunities to link people and to strengthenour techniques.
With ITSC a substantial worldwide personal and techni-cal network is created.
Whether you are an expert, an experienced engineer orscientist, or completely new to thermal spray, ITSC 2008promises you the latest state of the art in thermal spraytechnology, valuable resources, and networking opportu-nities. The knowledge and experiences shared betweenyou, the authors, instructors, students and exhibitors atthis outstanding three-day-event is why thermal spraywill continue to flourish in the next decades, with ever-increasing new market segments and new commercialopportunities.
ITSC 2008 is an opportunity not to be missed!
A very special thank you not only to the numerousauthors of lectures and poster contributions, but also tothe experts who are making themselves available for theProgram Committee, Session Chairs, and the employeesof all societies involved. It has been due to their work thata contribution has been made for the successful stagingof the conference. Thanks to them for this most impor-tant parts of the conference preparations.
DVS is proud to be an active member of the internationalfamily of Thermal Spraying and we wish all authors, allexhibitors and all visitors, all our partners and friends – agreat time here in Maastricht and a big success.
Last but not least, ITSC once again is stepping forwardto the North American region in 2009:
Bookmark your calendar now for ITSC in Las Vegas,Nevada, USA in May 2009.
1
Klaus MiddeldorfChief Executive OfficerDVS - German Welding Society
The worldwide leading Conference of Thermal Spray returns to Europe!
Time Schedule
2
Monday, June 2, 2008
Time Auditorium 2 Room 04 (Brussels) Room 05 (Paris) Room 08 (Rome)
10:00Opening
Plenary Lecture
11:10 Automotive Wear Protection 1 New Equipment 1 Powders, Wires, Gases 111:05 Break (for changing rooms)
12:30 Opening of Exposition and Poster Session13:00 Lunch Break
14:00 Solid Oxide Fuel Cell 1
15:20 Coffee Break
15:40 Solid Oxide Fuel Cell 2
17:20 Exhibitor Reception and Poster Session, Expo Foyer, Trajectum
Printing and Paper –Hard Chrome Replacement
Powders, Wires, Gases 2Plasma Spraying and
Plasma Transferred Arc 2
Wear Protection 2 New Equipment 2Plasma Spraying and
Plasma Transferred Arc 1
Tuesday, June 3, 2008
Time Auditorium 2 Room 04 (Brussels) Room 05 (Paris) Room 08 (Rome)
08:20 Plenary Lecture
09:10 Gasturbines 1 Corrosion Protection 1 Arc Spraying, Laser Fe-based Materials 1
09:05 Break (for changing rooms)
10:30 Coffee Break
10:50 Gasturbines 2
12:50 Lunch Break and Poster Session
Gasturbines 3 New Equipment 3Case Studies and
Further Applications 2Plasma Spraying and
Plasma Transferred Arc 313:40
15:20 Coffee Break
15:35 Junior Session
20:00 ITSC 2008 Awards Banquet, La Caverne de Geulhem
Corrosion Protection 2Case Studies and
Further Applications 1Nanomaterials 1
Wednesday, June 4, 2008
Time Auditorium 2 Room 04 (Brussels) Room 05 (Paris) Room 08 (Rome)
08:20 Cold Spraying 1 HVOF and Flame Spraying Characterization 1 Pre- and Post-Treatment
10:40 Cold Spraying 2 Gasturbines 4 Characterization 2 Diagnostics and Sensors 110:20 Coffee Break
12:40 Lunch Break13:40 Cold Spraying 315:20 Coffee Break
Cold Spraying 4 Nanomaterials 2Polymers, Environmental-
Friendly Coatings, Non Destructive Testing
Ceramics15:40
Gasturbines 5 Biomedical Coatings Diagnostics and Sensors 2
Thursday, June 5, 2008Excursions
Industrial Tour
Linde Golf Challenge ITSC 2008
Contents
3
Sponsoring ............ Inside Front Cover
Welcoming Address from the Organizers ............ 1
Time Schedule ............ 2
Contents ............ 3
Technical Program ............ 4
Poster Session ............ 26
Research / AIF Poster Session ............ 34
Exposition ............ 36
Industrial Forum ............ 38
Education Courses ............ 40
General InformationRegistration Information ............ 43Hotel Information ............ 44Tips for The Netherlands ............ 44
Social EventsSocial Events ............ 45Excursions ............ 45Industrial Tour ............ 45Linde Golf Challenge ITSC 2008 ............ 46
Conference Committees and Endorsing Sponsors ............ 47
List of Authors, Session Chairs, Co-Authors ............ 48
Reservation Form for Hotels ............ 67
Registration Form ............ Inside Back Cover
ImprintPhotos by courtesy of:Sulzer Metco AG (Switzerland) – Illustrations © Sulzer Metco / R. SegessemannThe Linde Group (Germany)Durum Verschleiss-Schutz GmbH (Germany)Administration Office Maastricht
Opening
Plenary Lecture:H. Flegel, President of DVS / Daimler AG, Stuttgart/Germany
Modern applications of thermal spray technology in automotive industry
AutomotiveCoatings on cylinderliners and piston fire faces, testingof coatings and means of surface preparation for inner diameter coatings
Session Chair: C. Coddet, J. Wesemann
Insulated piston fire face for diesel enginesA. Tricoire*, B. Kjellman, J. Wigren, M. Vanvolsem, L. Aixala
Plasma transferred wire arc spraying ofnovel wire feedstock onto cylinder borewalls of AlSi engine blocksT. Schläfer*, K. Bobzin, F. Ernst, J. Zwick, F. Schreiber, A. Schwenk, M. Hahn, C. Verpoort
Increase in graphite carbon in plasmasprayed cast iron coatings based on flyingdroplet diagnosticY. Tsunekawa*, T. Kozaki, K. Iwata, M. Okumiya
Characterization of nanocrystalline thermallysprayed coatings by means of 4-point bending fatigue testsA. Fischer, M. Hahn*
Wear Protection 1Special processes for coatings againstwear, improved surface roughness of assprayed coatings, improved sliding behavior
Session Chair: T.W. Clyne, S. Hartmann
Development of near net-shape coatings forwear and corrosion protectionT. Bause*, F. Bach, K. Möhwald, M. Erne
Erosion, abrasive and friction wear behaviorof iron aluminide coatings sprayed by HVOFS. Dosta, J. Guilemany, N. Cinca*, S. Sampath
Cavitation erosion for WC cermet coatingsprepared by HVOFH. Mizuno*, I. Aoki, S. Tawada, H. Ibe, K. Sato,J. Kitamura
A comparative study of cold sprayed andHVOF MCrAlY coatingsK. Triantou*, C. Sarafoglou, D. Pantelis, D. Christoulis, V. Guipont, M. Jeandin, A. Zaroulias, M. Vardavoulias
Monday, June 2, 2008Auditorium 2
(with simultaneous translation)
Auditorium 2(with simultaneous translation)
Room 04(Brussels)
10:00
11:05
11:10
11:30
11:50
12:10
Technical Program
4
Break (for changing rooms)
Highlight
Technical Program
Powders, Wires, Gases 1New powder mixtures and cored wires, sup-port and distribution of industrial gases forthermal spraying
Session Chair: M. Ducos, H. Burkard
The gas industry and its support in the fieldof thermal sprayingW. Krömmer*, P. Heinrich
Intelligent gas supply systems for thermalsprayingW. Krömmer, E. Brune*
Current situation and development tendencyof thermal spraying materials in ChinaY. Yu*
Effects of plasma spray distance on properties of Ni-Al intermetallic coating byutilizing of mechanically alloyed powdersM. Moshref Javadi*, H. Edris, M. Salehi
Room 08(Rome)
Room 05(Paris)
11:10
11:30
11:50
12:10
11:05
Monday, June 2, 2008
New Equipment 1Latest developments in thermal sprayequipment, modern multiple arc plasmaguns, optimized powder feeder, new vacu-um processes
Session Chair: P. Hanneforth, F.-W. Bach
Operational characteristics of locally fluidized powder feedersM. Spaulding*
New process to achieve high productionrates during thermal spraying of thick coatingsV. Uhlenwinkel*, L. Achellis
Development of WC-Co coatings depositedby warm spray processP. Chivavibul*, M. Watanabe, S. Kuroda, J. Kawakita, M. Komatsu, K. Sato, J. Kitamura
Coanda-assisted spray manipulationB. Smith*, D. Allen
5
Break (for changing rooms)
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Technical Program
Monday, June 2, 2008
6
Solid Oxide Fuel Cell 1
Coatings for SOFC compo-nents for mobile and stationary appli-cations, thermal and electrical insulation bythermal sprayed ceramic coatings
Session Chair: R. Schmid, D. Stöver
Insulation and sealing of metal supportedSOFC devices by plasma sprayed ceramiclayersJ. Arnold*, A. Ansar, U. Maier, R. Henne
APS-triplex and LPPS-thin film as advancedplasma spraying technologies for industria-lization of SOFC componentsM. Gindrat*, A. Refke, R. Damani
Development of a sealing technical layer forSOFCs applicationsN. Caron*, L. Bianchi, S. Méthout
High performance solid oxide fuel cells(SOFCs) made by atmospheric plasmaspraying (APS)R. Vaßen*, A. Hospach, D. Hathiramani, V. Haanappel, I. Vinke, J. Mertens, D. Stöver
Auditorium 2(with simultaneous translation)
Room 04(Brussels)
14:40
15:00
15:20
13:00
14:00
14:20
Lunch Break
Opening of Exposition and Poster Session
Wear Protection 2
Special processes for coatings againstwear, improved surface roughness of assprayed coatings, improved sliding behavior
Session Chair: J. Takeuchi, E. Vogli
Analytic hierarchy process (AHP) analysisfor experts' knowledge and experiencewhen obtaining high quality wear protectiveAPS-Al2O3 filmS. Hirose*, S. Kitahara, K. Sonoya, A. Ohmori,K. Mori
Tribological behavior comparison of aluminacoatings manufactured by APS with micro-metric powder and agglomerated nanome-tric powdersH. Ageorges*, J. Darut, A. Denoirjean, G. Montavon, P. Fauchais
Comparative analysis of tribological proper-ties of cermet detonation sprayed coatingsI. Smurov*, V. Ulianitsky, À. Shtertser, S. Zlobin
CFD optimized nozzles for increased parti-cle velocities and lowered gas consumptionin the HVOF spraying processC. Rupprecht, B. Wielage, G. Paczkowski*, R. Menzen, G. Weissenfels, H. Bernhardt, M. Runkel
Coffee Break
12:30
Highlight
Technical Program
7
Room 05(Paris)
Room 08(Rome)
Monday, June 2, 2008
New Equipment 2
Latest developments in thermal sprayequipment, modern multiple arc plasmaguns, optimized powder feeder, new vacuum processes
Session Chair: X. Huang, W. Herlaar
Processing of wear resistant ceramic coatings by HFPDM. Parco*, G. Barykin, I. Fagoaga, C. Vaquero
A new way in HVOF technology – CFD opti-mized topgun® airjet for powder and wireC. Rupprecht*, B. Wielage, G. Paczkowski, G. Weissenfels, R. Menzen, H. Bernhardt,M. Runkel
Homogenization of coating properties inatmospheric plasma spraying – technicalobjectives and first results of a DFG fundedresearch groupK. Hartz, F. Bach, K. Bobzin, J. Schein*, K. Möhwald, D. Parkot, I. Petkovic, G. Forster, S. Zimmermann
Gaseous pulse detonation spraying: currentstatus, challenges and future perspectiveY. Kharlamov*
Plasma Spraying andPlasma Transferred Arc 1New trends and modified plasma processesfor the application of ceramic-based coatings
Session Chair: Y. Borisov, J. Wilden
Atmospheric IC-plasma spraying of coa-tings – a too little attended alternative?B. Dzur*
VPS tungsten coatings sprayed by direct cur-rent (DC) and inductive coupled (IC) plasmaH. Gruner, J. Moens*, P. Gruner
Gas permeability of porous plasma sprayedcoatingsK. Wittmann-Ténèze*, J. Pereira, N. Caron
Co-deposited ceramic/polymer coatings fortailored insulationS. Gulizia*, D. Jahedi
15:20
Lunch Break
Opening of Exposition and Poster Session
Coffee Break
14:40
15:00
13:00
14:00
14:20
12:30
Technical Program
Solid Oxide Fuel Cell 2
Coatings for SOFC compo-nents for mobile and stationary appli-cations, thermal and electrical insulation bythermal sprayed ceramic coatings
Session Chair: Y. Tsunekawa, R. Vaßen
Suspension thermal spraying of reducedtemperature solid oxide fuel cell (SOFC)componentsJ. Oberste Berghaus*, J. Legoux, C. Moreau,R. Hui, R. Maric
Plasma sprayed deposits as oxygen elec-trode for solid oxide fuel cells and high temperature electrolyzersA. Ansar*, G. Schiller, O. Patz, J. Gregoire, Z. Ilhan
Thermal spray fabrication of cermet suppor-ted tubular solid oxide fuel cellsC. Li*, C. Li, G. Yang
Effect of substrate and cathode parameterson the properties of suspension plasmasprayed solid oxide fuel cell electrolytesD. Waldbillig*, O. Kesler, Z. Tang, A. Burgess
Very low pressure plasma spraying of yttriastabilized zirconia for solid oxide fuel cellelectrolytesN. Spinhirne*, D. Hirschfeld, R. Williamson, A. Hall
Monday, June 2, 2008Auditorium 2
(with simultaneous translation)Room 04(Brussels)
Exhibitor Reception and Poster Session, Expo Foyer, TrajectumThe following Awardings are planned:
René Wasserman Prize / GTS Ring of Honor / Hall of Fame
8
15:40
16:00
16:20
17:00
17:20
16:40
Printing and Paper - HardChrome ReplacementModern coating systems for longlasting printing performance,latest coating developments forrolls in paper machines; Optimized coatingsfor replacing galvanic hard chrome coatings
Session Chair: K. Tani, G. Langer
Thermal spray coatings in paper makingand printingH. Jungklaus*
Applications of thermal spraying for OEMsin the printing industryJ. Döring*, G. Langer
Applications of thermally sprayed coatingsin paper machinery with high surface rough-nessJ. Döring, F. Kremsner*, R. Polak
Automated substrate cooling system forHVOF coating operationsZ. Zurecki*, R. Ghosh, T. Mebrahtu, M. Thayer,S. Stringer
A life cycle comparison of hard chrome andthermal sprayed coatings: A case exampleof aircraft landing gearsN. Krishnan*, A. Vardelle, J. Legoux
Highlight
Highlight
Plasma Spraying andPlasma Transferred Arc 2New trends and modified plasma processesfor the application of ceramic-based coatings
Session Chair: M. Dorfman, F. Kremsner
Influence of the spray angle on characteri-stics for atmospheric plasma sprayed hardmaterial based coatingsB. Krebs*, W. Tillmann, E. Vogli
Plasma spraying of metal coatings usingCO2 based gas mixturesL. Pershin*, J. Mostaghimi, L. Chen
Effective parameters in axial injectionsuspension plasma spray process of alumina-zirconia ceramicsF. Tarasi*, M. Medraj, A. Dolatabadi, J. Oberste Berghaus, C. Moreau
Numerical and experimental study for thedevelopment of a hollow cathode plasmagunY. Shu*, J. Stanisic, J. Stanisic, P. Mohanty
Numerical investigation of the influence ofinjection modes in the solution precursorplasma sprayingY. Shan*
Technical Program
9
Room 05(Paris)
Room 08(Rome)
Monday, June 2, 2008
Exhibitor Reception and Poster Session, Expo Foyer, TrajectumThe following Awardings are planned:
René Wasserman Prize / GTS Ring of Honor / Hall of Fame
15:40
16:00
16:20
17:00
16:40
17:20
Powders, Wires, Gases 2
New powder mixtures and cored wires, sup-port and distribution of industrial gases forthermal spraying
Session Chair: L.-M. Berger, M. van Wonderen
The influence of milling parameters on theproperties of the milled powders and micro-plasma spraying coatingsD. He*, P. Hou, J. Jiang, Q. Zhao
Characteristics of high-SiC- / high-TiC-con-taining thermal spray coatings regardingoperating conditionsT. Grund*, B. Wielage, M. Nebelung, S. Thiele,A. Wank, A. Schwenk
Microstructure and properties of HVOFsprayed WC- (W, Cr) 2C-Ni coatingsL. Berger*, C. Jordan, T. Naumann, S. Saaro,M. Kašparova, F. Zahálka
Characterizations of cold sprayed Ni-Al2O3composite coating with relatively large Ni-coated alumina powderW. Li*, C. Zhang, H. Liao, J. Li, C. Coddet
Hollow droplets micro explosive thermalspraying: fundamentalsO. Solonenko*, I. Gulyaev, A. Smirnov
Break (for changing rooms)
Technical Program
Tuesday, June 3, 2008
Auditorium 2(with simultaneous translation)
Auditorium 2(with simultaneous translation)
Room 04(Brussels)
10
09:05
08:20
09:10
09:30
09:50
10:30
10:10
Coffee Break
Gasturbines 1Coatings for mobile and stationary turbines, protection againstwear, high temperature corrosion and thermal stresses, clearance control coatingsfor a better efficiency
Session Chair: M. Hertter, S. Wilson
Advanced knowledge system for coatingsand the gas turbine MRO industryP. Chandler*, W. Hall, N. Shadbolt, H. Alani, M. Szomszor
Development of new surface preparation ofturbine components for deposition ofMCrAlY coatings with zero pollution interfaceC. Giolli, D. Russo*, G. Rizzi, A. Scrivani
Development of oxide dispersion strengthened MCrAlY coatingsM. Brühl*, K. Bobzin, F. Ernst, K. Richardt
Deposition mechanism of cold sprayedMCrAlY coatings focused on nanostructureY. Ichikawa*, T. Miyazaki, K. Ogawa, M. Jeandin, T. Shoji
Corrosion Protection 1Corrosion protection through thermal sprayed coatings including cathodic andhigh temperature corrosion, coating of largeareas for offshore facilities and comparableapplications
Session Chair: M. Jeandin, A. Kirsten
Corrosion performance of arc sprayed Zn,Zn/Al 85/15 coatings on ductile iron pipeA. Turk, A. Gulec*, O. Cevher, F. Ustel, F. Yilmaz
Predicting quenching and cooling stresseswithin HVOF depositsJ. Stokes*
Mechanical properties of tungsten andtungsten alloys made by vacuum plasmasprayT. McKechnie*, S. O'Dell
Corrosion protection of municipal solidwaste incinerator superheaters by HVOFthermal spray coatingsS. Dosta, J. Guilemany, M. Torrell*, J. Miguel
Plenary Lecture:D. Stöver, Forschungszentrum Jülich GmbH, Jülich/Germany
Advanced thermal spray opportunities in energy systems
Highlight
Break (for changing rooms)
Technical Program
11
Room 05(Paris)
Room 08(Rome)
Tuesday, June 3, 2008
Arc Spraying, LaserOngoing developments in the field of arcspraying including possibilities for modelingthis widely known surface coating technology
Session Chair: R. Unger, F. Schreiber
Wire arc spraying technology for sprayingparticle reinforced coatingsF. van Rodijnen*, S. Knapp, J. Wilden, S. Jahn,S. Reich, G. Fischer
Microstructure and wear behavior of arcsprayed WC-12Co /FeCrB and WC-12Ni /FeCrB composite coatingsD. He*, B. Fu, J. Jiang, X. Li
Modeling of oxygen intake by particles atarc sprayingY. Korobov*, V. Boronenkov
Suspension plasma sprayed alumina coa-ting structures: operating parameters vs.coating architectureG. Montavon, O. Tingaud*, A. Grimaud, A. Denoirjean, V. Rat, J. Coudert, P. Fauchais,T. Chartier
Fe-based Materials 1Due to the worldwide rise of material costsFe-based materials are becoming more andmore a suitable alternative to establishedhard phase coatings
Session Chair: T. Warda, W. Tillmann
Influence of spray parameters and nozzlegeometry on microstructure and propertiesof HVOF sprayed FeCr-VC coatingsS. Schuberth*, B. Wielage, T. Grund, H. Pokhmurska
Thermally sprayed coatings with stochasticmicrostructures for thermomechanicallyhigh stressed surfacesB. Drößler*, F. Bach, K. Möhwald
Development of structurally amorphouscoatings using a high velocity oxygen fuelmethodO. Racek*, P. Michlik, B. Beardsley
Arc sprayed coatings obtained from ironbased cored wires under high temperatureabrasive wear conditionsH. Pokhmurska*, M. Student, Y. Sirak, B. Wielage, T. Grund
Coffee Break 10:30
Thermal Barrier Coatings
09:05
09:10
09:30
09:50
10:10
Sul
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Technical Program
Tuesday, June 3, 2008Auditorium 2
(with simultaneous translation)Room 04(Brussels)
12
10:50
11:10
11:30
11:50
12:10
12:30
12:50 Lunch Break and Poster Session
Gasturbines 2
Coatings for mobile and stationary turbines,protection against wear, high temperaturecorrosion and thermal stresses, clearancecontrol coatings for a better efficiency
Session Chair: E. Turunen, F. Ladru
Technology advances in compressor andturbine abradablesM. Dorfman*, S. Wilson, D. Sporer, P. Sheedy
Tailor-made coatings for turbine applica-tions using the triplex pro 200K. Richardt*, K. Bobzin, F. Ernst, J. Zwick, D. Sporer
Towards highly sintering resistant nano-structured ZrO2-7wt% Y2O3 coatings forTBC applications by employing differentialsinteringR. Lima*, B. Marple
Effect of water vapor on EBCs which havetop coat various bonded and free silicatesG. Erdogan*, F. Ustel, H. Toplan, T. Terzi
Newest light weight closed loop electric arcspray gunM. van Wonderen*, R. Luding, I. MacMillan
Metal foam sandwich structure as a hightemperature heat exchangerH. Salimijazi*, L. Pershin, J. Mostaghimi, T. Coyle, S. Chandra
Corrosion Protection 2
Corrosion protection through thermal spray-ed coatings including cathodic and hightemperature corrosion, coating of largeareas for offshore facilities and comparableapplications
Session Chair: A. Melzer, M. de Bonte
FeNiW-coatings for casting molds in thealuminium industryS. Jahn*, J. Wilden, V. Drescher, S. Reich
Corrosion of alumina-based coatingsC. Stahr*, L. Berger, M. Herrmann, D. Deska
Effect of Al on the performance of Ni-basedPTA coatingsA. d´Oliveira*, F. Cangue
Degradation behavior of HVOF sprayed Ni-based coatings on superalloy in40%Na2SO4-60%V2O5 environment at 900°CR. Mahesh*, S. Kamal, A. Modi, R. Jayaganthan, S. Prakash
Properties of 316L stainless steel coatingssprayed by HVAF processZ. Zeng*, N. Sakoda, T. Tajiri, S. Kuroda
Application of HVAF for thermal spraying ofZn-AlI. Gorlach*
Highlight
Technical Program
13
Room 05(Paris)
Room 08(Rome)
Tuesday, June 3, 2008
12:50Lunch Break and Poster Session
Case Studies and FurtherApplications 1Showing the broad variety of thermal spray-ing in different examples, special processesand also specialized materials apart fromstandard coatings offer new possibilitiesand also new markets
Session Chair: R. Knight, T. Schläfer
Airtight coatings produced by very low pres-sure plasma sprayingC. Verdy*, C. Zhang, D. Sokolov, H. Liao, D. Klein, C. Coddet
Innovation of ultra-fine structured alloy coa-ting having superior high temperature cor-rosion resistanceX. Ma*, J. Roth, D. Gandy, F. Frederick
Study on gas permeation behavior throughatmospheric plasma sprayed yttria stabili-zed zirconia coatingH. Liao*, C. Zhang, C. Coddet, C. Li, C. Li, G. Yang
Systematic approach to design new protec-tive coatings to a biofuel boiler plantE. Turunen, T. Varis*, S. Tuurna, K. Penttilä
Detonation flame sprayed diamond-bronzecoatings for grinding applicationsW. Tillmann*, E. Vogli, J. Nebel
High temperature oxidation performance ofWC-Co coatings by detonation gun spray ona boiler steelH. Saheet*, M. Kaur, S. Prakash
Nanomaterials 1
Most coating materials gain superior coa-ting performance when applied as nano-structured coating, new designed materialsand optimized processes show promisingresults for this
Session Chair: S. Siegmann, G. Reiners
Characterization and properties of ceramicnanostructured coatings elaborated by thermal spraying of suspensionsF. Toma*, L. Berger, T. Naumann, C. Stahr, S. Langner
Microstructural, tribological and corrosionaspects of thermally sprayed Ti-Cr-Si-Ocoatings showing icosahedral phasesS. Siegmann, P. Bandyopadhyay*, M. Hadad,C. Jaeggi
Friction and wear properties of plasmasprayed nanostructured chromium oxidecoatingsQ. Li*, S. Li, W. Yang
Fabrication of bulk nanocrystalline ceramicmaterialsT. Chraska*, K. Neufuss, J. Dubsky, P. Ctibor,M. Klementova
Improving the properties of HVOF sprayedCr2O3 by nanocomposite powdersT. Varis*, J. Knuuttila, T. Suhonen, U. Kanerva,J. Silvonen, J. Leivo, E. Turunen
Characterization of HVOF sprayed nano crystalline NiCrAlY coatingG. Rayudu*, A. Khanna, G. Kumar
10:50
11:10
11:30
11:50
12:10
12:30
Technical Program
Tuesday, June 3, 2008Auditorium 2
(with simultaneous translation)Room 04(Brussels)
14
13:40
14:00
14:20
14:40
15:00
15:20 Coffee Break
Gasturbines 3
Coatings for mobile and stationary turbines,protection against wear, high temperaturecorrosion and thermal stresses, clearancecontrol coatings for a better efficiency
Session Chair: E. Brenner, T. Duda
Self healing thermal barrier coatingsW. Sloof, V. Kochubey*
Failure mechanism for thermal fatigue ofthermal barrier coating systemsC. Giolli*, A. Scrivani, G. Rizzi, F. Borgioli, L. Lusvarghi, G. Bolelli
Effect of undercooling on solidification ofYSZ splatsH. Liu*, M. Bussmann, J. Mostaghimi
Damage development in an air plasmasprayed thick thermal barrier coatingsystemH. Brodin*, S. Johansson
A numerical assessment of the failure ofplasma sprayed thermal barrier coatingsS. Asghari, M. Salimi, M. Salehi*
New Equipment 3
Latest developments in thermal sprayequipment, modern multiple arc plasmaguns, optimized powder feeder, new vacu-um processes
Session Chair: C. Moreau, K. Bobzin
Comparison of coating stresses producedby high velocity liquid fuel and triplex pro200 plasma guns using in-situ coatingstress measurementR. Molz*, A. Valarezo, J. Colmen, S. Sampath
KINETIKS® 4000 – new perspective withcold sprayingH. Höll*, P. Richter
Large-A plasma torch for surface chemistryapplications and CVD processes – a statusreportS. Zimmermann*, E. Theophile, K. Landes, J. Schein
Standard HVOF process compared to theHVOF process for internal coating with finepowdersG. Matthäus*, W. Brandl, G. Marginean, D. Ackermann
Detailed analysis of the plasma jet of F4 anddelta torches by means of tomographyF. Dschung*, G. Forster, J. Schein
Aerospace Solutions
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15
Room 05(Paris)
Room 08(Rome)
Tuesday, June 3, 2008
14:00
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13:40
Case Studies and Further Applications 2Showing the broad variety of thermal spray-ing in different examples, special processesand also specialised materials apart fromstandard coatings offer new possibilitiesand also new markets
Session Chair: M. Nestler, C. Hofmann
Molten zinc corrosion of WC-Co coatings inAl-added zinc bathT. Huang*
Electrically conductive flame sprayed alumi-nium coatings on textile substratesJ. Voyer*, P. Schulz, M. Schreiber
Effects of SO2 on decay durability of the 8YZcoating having metal or cermet under coatK. Hamashima*, Y. Ishikawa
Thermoelectric properties of plasma spray-ed (Sr, Y) TiOx thick filmS. Sodeoka*, M. Suzuki, T. Inoue, H. Obara
Plasma sprayed coatings of high purityceramics for semiconductor and flat paneldisplay production equipmentsJ. Kitamura*, H. Ibe, H. Mizuno, I. Aoki
Plasma Spraying andPlasma Transferred Arc 3New trends and modified plasma processesfor the application of ceramic-based coa-tings
Session Chair: P. Chraska, K. Möhwald
Parameters controlling properties of coatingssprayed by suspension plasma sprayingV. Rat, R. Etchart-Salas, J. Coudert, P. Fauchais*
Liquid precursor plasma spraying: modelingof the droplet breakupA. Vardelle*, C. Marchand, C. Chazelas, G. Mariaux
Optimization of solution precursor plasmaspray process by statistical design of expe-rimentY. Wang*, T. Coyle
New approach to the problem of cathodewear in DC arc plasma torchesT. Kavka*, J. Arnold, A. Syed, G. Roth, T. Kupke, G. Schneider
Microplasma spraying of ZrO2 coatingsY. Borisov*, S. Vojnarovitch, A. Kislitsa, A. Borisova, M. Karpets, A. Tunik
Coffee Break
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Tuesday, June 3, 2008Auditorium 2
(with simultaneous translation)
16
15:40
15:35
15:45
15:50
15:55
16:00
16:05
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Junior SessionThis session will deal with different topics, most promising youngtalents, both from industry and universities will report shortly abouttheir work. This session is accompanied by a special poster exposition. Allvisitors of this session are allowed to elect their favorite contribution, the winner will beanounced on the awards banquet
Session Chair: K. Nassenstein, C.C. Berndt
Thin and dense yittria partially stabilzed zirconia electrolytes for IT-SOFC manufactured bysuspension plasma sprayingG. Montavon, E. Brousse*, P. Fauchais, A. Denoirjean, H. Ageorges, V. Rat, J. Coudert, K. Wittmann-Ténèze
Plasma spray of free-standing components for bone tissue engineeringD. García-Alonso*, J. Stokes, L. Looney
Tribological study of thermosprayed specimens using wear resistance equipmentsW. Tillmann, E. Vogli, A. da Cunha*
A numerical model for combustion and expansion in HVOF and suspension flame sprayingE. Dongmo*, M. Wenzelburger, R. Gadow
Process maps for thermal spray: tailoring physical properties of TiO2 through understanding of particle state indicatorsJ. Colmenares-Angulo*, V. Cannillo, S. Sampath, A. Sharma, A. Gouldstone
Free- and constrained sintering model for plasma sprayed zirconia thermal barrier coatingsA. Cipitria*, T. Clyne, I. Golosnoy
Simulation of PYSZ-particles impact and solidification in atmospheric plasma spraying coating processI. Petkovic*, K. Bobzin, N. Bagcivan, D. Parkot
A comparative microstructural investigation of nanostructured and conventional Al2O3coatings deposited by plasma sprayingD. Zois*, M. Vardavoulias, A. Lekatou, I. Panagiotopoulos, A. Vazdirvanidis
How long is the way to manufacture solid oxide fuel cells with suspension plasma spraying (SPS)?O. Marchand*, G. Bertrand
Highlight
Technical Program
17
Auditorium 2(with simultaneous translation)
Tuesday, June 3, 2008
16:25
16:30
16:35
16:40
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Numerical simulation of an electromagnetically controlled plasma jet during atmosphericplasma sprayingE. Brußies*, J. Stiller, R. Grundmann
HVOF sprayed TiC-strengthened Fe-coatings as alternative for conventional carbide materialsT. Warda*, K. Bobzin, F. Ernst, K. Richardt, G. Reisel
Influence of microstructure on thermal and optical properties of suspension plasma sprayed (SPS) and atmospheric plasma sprayed (APS) coatingsA. Stuke, H. Kassner*, R. Carius, D. Pitzer, R. Vaßen, D. Stöver
Understanding coating formation in real time via monitoring of residual stress developmentA. Valarezo*, E. Mari, S. Sampath
Utilization of instrumented indentation on thermal sprayed coating mechanical propertycharacterizationT. Suhonen*
Advanced production of thermally sprayed prepregs for UD fiber reinforced light metalMMCsM. Silber*, R. Gadow
Peculiarities of abrasive wear of PEO layers obtained on arc sprayed aluminium coatingsT. Grund, D. Meyer*
Development of cost-efficient thermally sprayed wear resistant coatingsS. Schuberth*
Characterization of thermally sprayed near net shape oxide ceramic and cermet coatings byacoustic emission analysisM. Erne*, F. Bach, K. Möhwald, T. Bause, C. Scheer
Influencing parameters on the turning process of Fe-based thermal sprayed coatingsG. Fischer*, J. Wilden, S. Jahn, S. Wang
Three-dimensional analysis of cold sprayed coatings using microtomographyG. Rolland*, F. Borit, V. Guipont, M. Jeandin, D. Jeulin, L. Bara, C. Bourda
16:20
ITSC 2008 Awards Banquet, La Caverne de Geulhem
Auditorium 2(with simultaneous translation)
Room 04(Brussels)
Technical Program
Wednesday, June 4, 2008
18
Coffee Break
08:20
08:40
09:00
09:20
09:40
10:00
10:20
Cold Spraying 1Everything around this young thermal spraying technique, possible applicationsand latest developments for equipment ofhigh pressure and low pressure cold spraying, models and simulations for a deeper process knowledge
Session Chair: W. Krömmer, S. Kuroda
Cold spraying: recent developments andapplication potentialT. Klassen*, T. Schmidt, F. Gärtner, H. Kreye
Investigation of composite: metal-ceramicsand metal-metal coatings produced withcold spray processA. Papyrin*, V. Kosarev, S. Klinkov, A. Sova, I. Smurov, P. Bertrand
Preparation and mechanical properties ofcold sprayed nanocrystalline aluminumA. Hall*, L. Brewer, B. Boyce, T. Roemer
Cold spray produced bulk formsJ. Karthikeyan*, C. Kay
How cold is cold spray? An experimentalstudy of the heat transfer to the substrate incold gas dynamic sprayingE. Irissou*, J. Legoux, A. Ryabinin, C. Moreau
Particle image velocimetry of cold spray CPtitaniumS. Zahiri*, W. Yang, M. Jahedi
HVOF and Flame SprayingNew very hard coatings and modern powderfeeding for economic dense coatingsagainst wear and corrosion
Session Chair: B. Wielage, G. Barbezat
HVOF sprayed nylon-11 + nanodiamondcomposite coatings: production and characterizationR. Knight*, V. Mochalin, A. Stravato, S. Picardi
Introduction to high velocity suspensionflame spraying (HVSFS)A. Killinger*, J. Rauch, R. Gadow
Numerical modeling of warm spray (two-stage HVOF) processH. Katanoda*, J. Kawakita, S. Kuroda
Microstructural and tribological investiga-tion of high velocity suspension flamesprayed (HVSFS) Al2O3 coatingsG. Bolelli*, J. Rauch, V. Cannillo, A. Killinger, L. Lusvarghi, R. Gadow
Designing of an integrated semi automatedpowder feed device to produce functionallygraded materials (FGM) using the HVOFthermal spray processJ. Stokes*, K. Al Mamun, M. Hasan, L. Looney,S. Hashmi
HVOF coatings by customized cermet materials for various applicationsJ. Kitamura*, H. Mizuno, S. Tawada, I. Aoki
Room 05(Paris)
Room 08(Rome)
Technical Program
19
Wednesday, June 4, 2008
Coffee Break
08:20
08:40
09:00
09:20
09:40
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10:20
Characterization 1Modern characterization offers a good pos-sibility for proofing the reliability and theperformance of thermal sprayed coatings
Session Chair: M. Boulos, G. Montavon
Residual stress calculation in thick plasmasprayed coatingsH. Samadi*, T. Coyle
Plasma spraying of tungsten carbide cobaltcoatings by the water-stabilized systemWSP®
P. Ctibor, P. Ctibor*, M. Kašparová, J. Bellin, E. Le Guen
Evaluation of shear test results for determi-nation of shear load resistance of thermallysprayed coatingsS. Hartmann*, F. Deuerler, R. Winkler
Standardization of thermal spray coatingquality evaluationT. Shmyreva*
Thermal expansion response of thermallysprayed coatingM. Bejarano*, A. Valarezo, A. Gouldstone, S. Sampath
Microstructure and oxidation behavior ofCr39Ni7C cermet coatings deposited by diamond jet spray processF. Ye*, S. Wu, A. Ohmori
Pre- and Post-TreatmentThermal sprayed coatings must be regardedas part of a production process, in order toproduce superior quality and performancenew possibilities in pre- and post-treatmenthave to be discussed
Session Chair: R. Eijkenboom, C. Li
Effect of the blasting time on the amount ofthe residual grit on a blasted steel substrateT. Maruyama*, T. Miyazaki, T. Kobayashi
Effect of diffusion treatment on interfacemicrostructure between thermally sprayedCo-based self-fluxing alloy coating andsteel substrateK. Sakata*, S. Fujita, H. Miyahara, K. Ogi
Effects of surface chemistry on splat forma-tion during plasma sprayingA. Tran*, M. Hyland, T. Qiu, B. Withy, B. James
New LN2 cryogenic process to strip partsthermal spray coatedM. Ducos*, F. Richard, O. Matile, R. Warnecke,H. Hume, T. Debionne
Fast regime – fluidized bed machining (FR-FBM) of thermally sprayed coatingsM. Barletta*, G. Rubino, L. Lusvarghi, G. Bolelli,A. Bassani
Improving wear and corrosion of magne-sium alloys through a combination of thermal spraying and laser claddingT. Biermann*, D. Weisheit, K. Bobzin, J. Zwick,F. Ernst, K. Richardt
Technical Program
Wednesday, June 4, 2008Auditorium 2
(with simultaneous translation)Room 04(Brussels)
20
10:40
11:00
11:20
11:40
12:00
12:20
12:40 Lunch Break and Poster Session
Cold Spraying 2Everything around this young thermal spray-ing technique, possible applications andlatest developments for equipment of highpressure and low pressure cold spraying,models and simulations for a deeper pro-cess knowledge
Session Chair: A. Kay, P. Heinrich
Correlation of particle impact conditionsand coating properties in cold sprayingT. Schmidt*, F. Gärtner, H. Kreye, T. Klassen
Copper particle impact onto aluminium bycold sprayP. King*, S. Zahiri, M. Jahedi
Influence of particle velocity on adhesion ofcold sprayed splatsS. Guetta*, F. Borit, V. Guipont, M. Jeandin, M. Boustie
Influence of substrate hardness on deposi-tion behavior of individual porous WC-12Coparticles in cold sprayingC. Li*, P. Gao, Y. Li, G. Yang, C. Li
Fabrication of porous Al alloy coatings bycold gas dynamic spray processH. Lee*, K. Ko
Improvement in deposition efficiency ofcopper particle onto metallic substrate incold spray processM. Fukumoto*, H. Terada, K. Satoh, M. Mashiko, M. Yamada
Gasturbines 4Coatings for mobile and stationa-ry turbines, protection against wear, hightemperature corrosion and thermal stres-ses, clearance control coatings for a betterefficiency
Session Chair: C.C. Berndt, K. Richardt
Influence of post-spraying heat treatmenton the oxidation behavior of a thermal bar-rier coatingW. Chen*, R. Archer, X. Huang, B. Marple
Development and investigation on newcomposite and ceramic coatings as possi-ble abradable sealsC. Giolli*, U. Bardi, A. Scrivani, G. Rizzi, A. Fossati, F. Borgioli
PTA processing of ceramic coatingsA. d´Oliveira*, F. Drozda, E. Takano
Development of HVOF sprayed nanostructu-red TiO2 coatings for high temperatureapplicationsR. Lima*, E. Garcia, P. Miranzo, M. Osendi, C. Moreau
A comparison of sintering behavior andphase transformation characteristics bet-ween plasma sprayed comercial CSZ andconventional YSZ based TBCsE. Altuncu*, F. Ustel
Influence of thermal cycling on residualstresses in a thermal barrier coating with akinetic metallization sprayed bond coatingT. Niki*, K. Ogawa, T. Shoji
Highlight
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21
Room 05(Paris)
Room 08(Rome)
Wednesday, June 4, 2008
12:40Lunch Break and Poster Session
Characterization 2Modern characterization offers a good pos-sibility for proofing the reliability and theperformance of thermal sprayed coatings
Session Chair: P. Fauchais, M. Knepper
Residual stress in HVOF thermally sprayedIN718 coatingsC. Lyphout*, P. Nýlen, A. Manescu
Characterization of nanostructured andconventional alumina–13wt.% titania coatingsA. Ibrahim*, H. Salem, C. Berndt
Studies on bending strength of plasmasprayed ceramic coatingsS. Tao*, Z. Yin, X. Zhou, C. Ding
The metallographic characterization of ther-mal spray coating microstructuresD. Puerta*, F. Anderson, A. Geary
Numerical investigation on the heat insula-tion behavior of thermal spray coating byunit cell modelF. Liu*, K. Zeng, X. Zhao, H. Wang, Y. Zhao, X. Ren, Y. Yu, K. Chan
Residual interfacial strength in an APSedTBC after the thermal cycle fatigueY. Yamazaki*, T. Yoshida
Diagnostics and Sensors 1Modern process diagnostics offer a lot ofpossibilities for gaining data for both qualitycontrol and process knowledge. The recor-ded data is the base for process modelsand enhances the process knowledge
Session Chair: A. Vardelle, J. Schein
Innovative high speed camera system dia-gnostics of plasma torch fluctuationsJ. Schein*, G. Forster, J. Zierhut
Effect of spray torch nozzle design modifi-cations on arc and plasma jet characteri-stics and coating propertiesJ. Heberlein*, D. Outcalt, S. Suzuki, L. Vincenzi
In situ visualization of impacting phenome-na of plasma sprayed zirconia: from singlesplat to coating formationK. Shinoda*, H. Murakami, S. Kuroda, S. Oki,K. Takehara
Study on the detection of melting tempera-tures and sources of errors using two-colorpyrometry for in-flight measurements ofplasma sprayed particlesG. Mauer*, R. Vaßen, D. Stöver
Analysis of plasma spray particle statedistribution for deposition rate controlM. Gevelber*, D. Wroblewski, O. Ghosh, M. VanHout, A. Lum, S. Basu
Influence of parameters on volt-amperecharacteristic of plasma arc in high velocityplasma sprayingH. Yang*, L. Wang
10:40
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Technical Program
Gasturbines 5Coatings for mobile and stationaryturbines, protection against wear, high tem-perature corrosion and thermal stresses,clearance control coatings for a better effi-ciency
Session Chair: M. Khor, U. Erning
New generation perovskite thermal barriercoating materialsW. Ma, M. Jarligo*, D. Mack, R. Vaßen, D. Stöver
Comparison of a new high-purity HOSP™PYSZ powder with standard HOSP: pow-der/coating characterization and thermalshock testingK. Lawson, S. Gray*, M. Dorfman
Creep behavior modeling of plasma sprayedyttria stabilized zirconia thermal barrier coa-tingsR. Soltani*, T. Coyle, J. Mostaghimi
Role of high temperature creep stress inthermally grown oxide growth of thermalbarrier coatingsD. Seo*, K. Ogawa, Y. Nakao, D. Seo, H. Miura,T. Shoji
Microstructure and thermophysical proper-ties of plasma sprayed YSZ coatings deri-ved from La2O3 modified YSZ feedstockparticlesS. Tao*, Y. Liu, X. Zhou, H. Luo, C. Ding
Wednesday, June 4, 2008
22
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Cold Spraying 3Everything around this young thermal spraying technique, possible applicationsand latest developments for equipment ofhigh pressure and low pressure cold spray-ing, models and simulations for a deeperprocess knowledge
Session Chair: D. Grasme, F. Ernst
Cavitation resistance of cold sprayed andthermally sprayed copper coatingsF. Gärtner*, T. Schmidt, T. Klassen, H. Kreye
Evidence of the 2-stage build-up process incold spray from the study of influence ofpowder characteristics on Ti-6Al-4V coatingD. Christoulis*, F. Borit, V. Guipont, M. Jeandin
Characterization of cold sprayed Ni, Ti andCu coating properties for their optimizationsA. Rezaeian*, E. Irissou, J. Legoux, R. Chromik,S. Yue
Effect of Ni coating around diamond particlefor size protection in kinetic sprayingH. Na*, S. Kumar, C. Bae, H. Kim, C. Lee
A combined numerical and experimentalanalysis of the cold spray processA. Dolatabadi*, B. Samareh, V. Luethen, O. Stier
Auditorium 2(with simultaneous translation)
Room 04(Brussels)
Coffee Break
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Wednesday, June 4, 2008
13:40
14:00
14:20
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15:00
15:20
Biomedical CoatingsCoated implants offer a better life quality due totheir superior osseointegrationand longer life cycle
Session Chair: C. Wasserman, H. Gruner
Ti-coating by VPS for carbon fibre PEEKimplantsH. Gruner*, G. Richards, R. Wieling
Low pressure gas dynamic spray of hydro-xyapatite composite coatingsV. Leshchynsky*, E. Maeva, H. Weinert, R. Maev
Design of experiment of synhesis and plas-ma spraying of hydroxyapatite suspensionL. Pawlowski*, R. Jaworski, C. Pierlot, M. Bigan, C. Pierre
In vitro studies of microplasma sprayedhydroxapatite coatings in hanks balancedsalt solution (HBSS)Q. Zhao*, D. He, X. Li, Z. Li, J. Jiang
Production of hydroxyapatite powders forthermal spraying from green lipped musselshellS. Bliss*, B. James, C. Doyle
Diagnostics and Sensors 2Modern process diagnostics offer a lot ofpossibilities for gaining data for both qualitycontrol and process knowledge. The recor-ded data is the base for process modelsand enhances the process knowledge
Session Chair: J. Heberlein, K. Landes
Thermal spraying as a manufacturing tech-nology for light metal MMC; experimentaland numerical process analysisM. Silber*, E. Dongmo, M. Wenzelburger, R. Gadow
Sensor issues for real time control of coa-ting thickness in plasma sprayD. Wroblewski, B. Vattiat, O. Ghosh, M. VanHout, S. Basu, M. Gevelber*
Estimation of molten content of the spraystream from analysis of experimental parti-cle diagnosticsV. Srinivasan*
Spreading of plasma sprayed molybdenumon grit-blasted glassA. McDonald*, C. Moreau, S. Chandra
Particle temperature fluctuations in plasmasprayingS. Goutier*, E. Nogues, M. Vardelle, P. Fauchais
Room 05(Paris)
Room 08(Rome)
Medical Implant Coatings
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Auditorium 2(with simultaneous translation)
Room 04(Brussels)
Technical Program
Nanomaterials 2
Most coating materials gain superior coa-ting performance when applied as nano-structured coating, new designed materialsand optimized processes show promisingresults for this
Session Chair: M. Brühl, C. Verpoort
Superfine structured and nanostructuredhard material coatings produced by meansof HVOF flame sprayingW. Tillmann*, E. Vogli, I. Baumann, G. Matthäus, T. Ostrowski
Axial injection plasma spraying using micro- and nanopowder slurriesZ. Tang*, Z. Tang, A. Burgess
Plasma spray processing of nanostructuredpartially stabilized zirconia for a strainaccommodating inter layer – splat and coating characteristicsD. Guru, J. Heberlein*
Influence of mechanical pre-activation ofpowders and their modification with refrac-tory nanoparticles on the cold spraying processO. Solonenko, V. Kosarev*, S. Klinkov, V. Poluboyarov, V. Poluboyarov, V. Neronov, M. Korchaging
Research of properties of nanostructuredCr2O35SiO23TiO2 coatings by plasma spray-edZ. Li*, Y. Yu, K. Zeng, C. Wu
Wednesday, June 4, 2008
24
15:40
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16:20
16:40
17:00
Cold Spraying 4
Everything around this young thermal spray-ing technique, possible applications andlatest developments for equipment of highpressure and low pressure cold spraying,models and simulations for a deeper pro-cess knowledge
Session Chair: P. Richter, T. Klassen
Substrate properties influence on the coating deposition by DYMET technologyA. Shkodkin*, A. Kashirin, O. Klyuev
Characterization of mesoporous nanocry-stalline TiO2 deposited by vacuum coldspraying using ceramic-polymer compositepowderG. Yang*, S. Fan, J. Gao, Y. Xi, Y. Wang, C. Li,C. Li
Low pressure cold gas dynamic spray andpost-spray heat treatment of compositecoatingsR. Maev*, M. Beneteau, W. Birtch, V. Leshchynsky
Microstructure and mechanical propertiesof low-pressure cold sprayed (LPCS) coa-tingsH. Koivuluoto*, J. Lagerbom, M. Kylmälahti, P. Vuoristo
Influence of laser irradiation on formation oflow-pressure cold sprayed coatingsM. Kulmala*, H. Koivuluoto, P. Vuoristo
Room 05(Paris)
Room 08(Rome)
Technical Program
25
Wednesday, June 4, 2008
Polymers, Environmental-Friendly Coatings, Non Destructive TestingTesting coatings directly on coated partswithout destroying any additionally coatedsamples, polymer-based coatings and envi-romental-friendly coatings
Session Chair: I. Petkovic, S. Oki
New health and environmental-friendly ironbased materials employed as binders forcarbide powders used in thermal sprayingS. Zimmermann*, B. Gries, J. Fischer
The effect of surface chemistry and morphology on the properties of HVAFPEEK single splatsB. Withy, M. Hyland, B. James*
Plastics metallization by detonation sprayingI. Smurov*, V. Ulianitsky, A. Shtertser, S. Zlobin
Residual stress measurement in HVOFsprayed ceramic coatingsG. Bolelli*, L. Lusvarghi, E. Turunen, T. Varis, C. Azanza-Ricardo, M. Leoni, P. Scardi
Evaluation of residual stress for plasmasprayed member using inherent strainmethodY. Itoh*, S. Suyama
Ceramics
Coatings for wear resistance and high tem-perature applications
Session Chair: G. Schürholt, P. Vouristo
Three-dimensional simulation of porosity inplasma sprayed alumina using microtomo-graphy and electrochemical impedancespectrometry for finite element modeling ofpropertiesM. Jeandin*, O. Amsellem, K. Madi, F. Borit, D. Jeulin, V. Guipont, E. Boller, F. Pouchet
Ceramics as wear and corrosion protectionon hydraulic piston rodsT. Kraak*, G. Coolegem, W. Herlaar
Mullite-zirconia ceramics production byplasma spray coating processN. Toplan, G. Erdogan*, H. Toplan, F. Ustel
Thermal behavior of thermally sprayedCaZrO3 coatingsE. Garcia*, C. Cano, T. Coyle, M. Osendi, P. Miranzo
New structure of APS sprayed Al2O3 coa-tings investigated by Cu-electroplatingM. Adachi, T. Takabatake, A. Ohmori, M. Kremer*
15:40
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Applications –Biomedical CoatingsBioactivity of microplasma sprayed yttriastabilized zirconia coatingY. Wu*, Z. Li, D. He, Q. Zhao, H. Li
Development of a low energy plasmadeposition device for biomedical applica-tionsM. Parco*, G. Barykin, I. Fagoaga, C. Vaquero
Nanomechanical assessment of commer-cially produced plasma sprayed hydroxy-apatite coatingsK. Gross*, S. Saber-Samandari, K. Heemann
Nanoindentation on solidified dropletsprovides a new tool for assessing themicromechanical propertiesK. Gross*, S. Saber-Samandari
Applications – Case Studies, furtherApplicationsOver ten years of quality assurance, edu-cation and training in thermal spraying –state of the art and trendsA. Ohliger-Volmer*, R. Huber
Slight change in directionL. Grimenstein*
Effects of silver addition on mechanicaland electrical properties of plasma sprayed SOFC interconnect layerS. Park*, S. Kumar, S. Lee, C. Lee
Thermal spraying of precipitation harde-ning copper alloysT. Grund*, B. Wielage, S. Ahrens, O. Brandt,G. Reisel
Preparation of nano-structured SOFCelectrolyte coating by radio frequencysuspension plasma sprayingL. Jia*
Applications –Gasturbines (Energy and Aircraft)A new definition and realization of abra-dable factor for estimation of high tempe-rature abradable sealing coatingsJ. Liu*, F. Lin, Z. Yang, S. Yan, J. Zhang, L. Wang, J. Li
Numerical simulation of the thermome-chanical behavior of thermally sprayedabradable coatingsJ. Seichepine*, H. Faraoun, F. Peyraut, C. Coddet, P. Chandler, D. Sporer, M. Hertter, C. Sellars
Mechanical modeling of two-phase ther-mally sprayed abradable coatingsJ. Seichepine*, D. Sporer, D. Lourtie, C. Coddet
Processing and properties of hybrid YSZcoating deposited by thermal plasmadirected vapor depositionT. Lavaud*, M. Vardelle, P. Fauchais, J. Menuey
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Poster Session
During the conference a Poster Session will be held in the Trajectum of the MECC. The poster presenters will be available for discussion scheduled as follows:
Monday, June 2, 2008, 12:30 – 13:30 Monday, June 2, 2008, 17:20 – 18:20Tuesday, June 3, 2008, 13:00 – 13:30Wednesday, June 4, 2008, 13:00 – 13:30
In addition further contacts with the authors can be arranged.
Poster Session
10.
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Poster Session
Thermal failure of plasma sprayed nano-structured YSZ with cold sprayed nano-structured NiCrAlY bond coatC. Li*, Q. Zhang, Y. Li, S. Zhang, G. Yang, C. Li
Influence of heat treatment on thermalfailure of plasma sprayed TBCs with coldsprayed NiCoCrAlYTa bond coatC. Li*, Q. Zhang, Y. Li, G. Yang, C. Li
Effect of oxygen nonstoichiometry offlame sprayed Sm0.7Sr0.3CoO3-δ coatingon its electrical conductivityC. Li*, M. Gao, C. Li, G. Yang, H. Wang, M. Wang
Development of MCrAlY coatings by HFPDM. Parco*, I. Fagoaga, G. Barykin, C. Vaquero
Microstructural and mechanical charact-erization of plasma sprayed YSZ/Al2O3thermal barrier coatings depending onAl2O3 contaminationN. Toplan*, U. Saral
Tools for online monitoring of failure evo-lution of thermal barrier coatings in gasburner thermal cycling rig environmentD. Mack*, R. Vaßen, D. Stöver
Thermal conductivity of AlSi/polyesterabradable coatingsR. Bolot*, J. Seichepine, F. Vucko, D. Sporer,P. Fiala, B. Bartlett, C. Coddet
Single impact erosion studies of Cr3C2-NiCr coating: the role of microstructurevariationS. Matthews*, M. Hyland, B. James
Characterization – Non Destructive TestingAcoustic emission source analysis ofthermal fatigued thermal barrier coatingsL. Koo Hyun*, K. Lee, J. Park, J. Kim, Y. Song, D. Lee
Characterization –Thermal, Chemical,MechanicalCharacterization
Valence band XPS and FT-IR evaluation ofthermal degradation of HVAF thermallysprayed PEEK coatingsB. James*, K. Patel, M. Hyland
Modeling of plasma sprayed thermal bar-rier coatings for prediction of residualstressM. Arai*
Evaluation of intermetallic coatings pro-cessed by PTAA. d´Oliveira*, D. Vaz, A. Christo
Adhesion evaluation via residual stressdevelopmentA. Valarezo*, A. Gouldstone, S. Sampath
Spraying process, microstructure andrelaxation stress behavior of cylindricalstand alone YSZ coatings with andwithout segmentation cracksM. Karger*, C. Petorak, R. Trice, R. Vaßen, D. Stöver
Interfacial indentation to determine theadhesion of WC-Co-NiCr thermal spraycoatingsM. Rodriguez*, A. Pertuz, U. Bisi, P. Costa
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Poster Session
Materials – CeramicsDevelopment of nanostructured lantha-num zirconate coating and its thermalstability propertiesX. Zhao*, Z. Ke-Li, Z. Xiao-Dong, X. Jian-Gang, R. Xian-Jing, Y. Yueguang
Phase stability and structure of conducti-ve perovskite ceramic coatings by ther-mal sprayingJ. Lagerbom*, U. Kanerva, A. Nikkilä, T. Varis, M. Kylmälahti, P. Vuoristo
Solid oxide fuel cells produced withsuspensions and conventional plasmaspray processesO. Marchand*, R. Rampon, G. Bertrand
The use of PVD intermediate layers forthe improvement of thermal barrier coa-tings performanceS. Dosta*, C. Lima, N. Cinca, J. Guilemany
Microstructure and properties of coatingsfrom the TiO2-Cr2O3 systemL. Berger*, C. Stahr, S. Thiele
Analysis of the deposition mechanism inthe solution precursor plasma sprayingusing numerically predicted particle conditionsY. Shan*
Microstructural features and plasma indu-ced damage of Al2O3-Y2O3 compositecoatingsK. Baik*, J. Moon
Materials – Fe-basedMaterialsNanocrystalline segregations causing byhybrid twin wire arc thermal spray processS. Kollinger*, K. Holdik, U. Heiz, A. Fischer,M. Hahn
Materials –NanomaterialsCold spraying technique to process nano-magnetic coatingsN. Fenineche*, M. Cherigui, W. Li, V. Ji, C. Coddet
Ceramic metastable bulks through plas-ma sprayingS. Dosta*, I. Cano, J. Miguel, J. Guilemany
Development of ceramic composite coa-tings with titania nano fibersM. Watanabe*, P. Chivavibul, M. Komatsu, S. Kuroda
Materials – PolymersImpermeable and undeteriorated plasticscoating fabricated by warm sprayJ. Kawakita*, M. Komatsu, H. Katanoda, S. Kuroda
Materials – Powders,Wires, Rods and NewCoating Materials
Preparation and characterization of nickelclad h-BN composite powders for abrada-ble sealing coatingJ. Liu*, Z. Yang, L. Wang, J. Zhang, S. Yan,F. Lin, J. Li
Mechanically activated synthesis of com-posite powders for thermal sprayingA. Beliayev*, A. Ilyuschenko, T. Talaka, A. Letsko, T. Hasak
Influence of plasma spraying parameterson the microstructure of TBCs depositedby a novel YSZ powder feedstockF. Lin*, Z. Yang, X. Li, S. Yan, J. Liu, J. Zhang, L. Wang, X. Jiang
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Poster Session
Structure and properties of powders ofquasicrystalline alloys AlCuFe alloyed byCr and ScY. Borisov*, A. Borisova, L. Adeeva, A. Tunik,M. Karpets, L. Doroshenko
High temperature functionality of surfa-ces: drag reduction and self-cleaningS. Jahn*, J. Wilden, V. Drescher, M. Dolles
Processes – Arc Spraying, LaserSprayingStrong wear resistant WC layers appliedby cladding process using high powerdiode laser: new developments and industrial applicationsD. Dezert*
Particle trajectories by arc spraying withcored wiresW. Tillmann*, E. Vogli, M. Abdulgader, M. Gurris, D. Kuzmin, S. Turek
The preparation of zinc-aluminum composite wire and corrosion behavior ofits arc spray coatingsY. Tao*, H. DingYong, J. JianMin
Study on corrosion resistance behaviorsof Zn, Al, Zn/Al 85/15 coatings that produced by twin wire arc spray technique on steelA. Turk*, O. Cevher, A. Gulec, F. Ustel, F. Yilmaz
The effect of process parameters on themicrostructure and mechanical propertiesof arc sprayed Zn, Al, Zn/Al 85/15 coatingsA. Turk*, E. Yusek, F. Ustel, F. Yilmaz
Cavitation resistance and mass lossmechanism in coatings deposited by thermal sprayingA. Pukasiewicz*, A. Capra, R. Paredes
Influence of air pressure and plasmaremelting in the microstructure and cavi-tation resistance of the arc thermallysprayed cobalt stainless steelA. Pukasiewicz*, A. Capra, R. Paredes
Influence of process parameters in themicrostructure and cavitation resistanceof the Fe-Mn-Cr-Si steel developed for arcthermal sprayingA. Pukasiewicz*, A. Capra, R. Paredes
Industrial technology of laser assisteddirect metal depositionI. Smurov*, L. Thivillon, P. Bertrand
Processes – Cold andKinetics SprayingSealing up the holes by gas dynamicsprayingA. Shkodkin*, T. Buzdygar, A. Kashirin, O. Klyuev
Substrate and powder preheat effects onthe kinetic spray of hard metal and com-posite coatings on cast ironN. Powell, N. Patel, A. Elmoursi*, Z. Zhao, B. Gillispie, B. Fuller
Effect of heat treatment on the coatingcharacteristics of cold sprayed Al-Snbinary alloyH. Kim*, D. Jung, X. Ning, C. Lee
Copper based composite coatings produced by cold spray depositionS. Rech*, S. Vezzù, V. Stoyanova
Preparation of multimodal structured WC-12Co coatings by cold sprayingG. Yang*, P. Gao, C. Li, C. Li
Formation of NiAl intermetallic compoundby cold spraying of ball-milled Ni-Al alloypowder through post annealing treatmentG. Yang*, Q. Zhang, Z. Ren, C. Li, X. Wang,C. Li
Fabrication of NiCrAl-cBN cermet coatings by cold sprayingG. Yang*, X. Luo, C. Li, Y. Li
Deposition characteristics of Fe/Al composite coating by cold sprayingG. Yang*, H. Wang, C. Li, C. Li
Fabrication of TiO2 coating by cold spraying and evaluation of its propertyM. Yamada*, H. Wada, K. Sato, M. Fukumoto
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Low pressure gas dynamic spray of polymer doped nanoparticle containedfeedstocksR. Maev*, M. Beneteau, E. Leshchinsky, E. Maeva
Effect of the increase in the entrance convergent section length and geometryof the gun nozzle on properties of coldsprayed copper and titanium coatingsK. Sakaki*, M. Takahata, K. Takeda, S. Shinkai, T. Hosono, Y. Shimizu
Mechanical properties of WC/Co coatingsprepared by cold sprayingJ. Kitamura*, K. Sato, I. Aoki, K. Sakaki, M. Takahata, Y. Shimizu
Influence of powder porous structure onthe deposition behavior of cold sprayedWC-12Co coatingsC. Li*, Y. Li, P. Gao, G. Yang, C. Li
Microstructure and microhardness of NiTicoating prepared by post heat treatmentof cold sprayed Ni/Ti alloy depositsC. Li*, H. Wang, G. Yang, C. Li
Microstructures and tribological performances of cold sprayed tin bronzebased composite coatingsH. Liao*, X. Guo, Y. Gao, C. Coddet
Effect of substrate roughness on thedeposition behavior of kinetic sprayedcopper particles on copper substrateS. Kumar*, G. Bae, S. Yoon, C. Lee
A modified impact energy model basedon interface temperature and strain gradient in kinetic spraying processY. Ji*, Y. Xiong, S. Yoon, K. Kang, F. Khan, C. Lee
Interfacial microstructural evolution andbonding state of kinetic sprayed alu-minum particle onto aluminum substrateK. Kang*, S. Yoon, Y. Ham, C. Lee
Estimation of critical velocity throughimpact behavior of engineering metals inkinetic sprayingG. Bae*, K. S, S. Yoon, K. Kang, C. Lee
Cold spray of Al-12Si cold sprayed coatings with a controlled porosityD. Christoulis*, F. Borit, V. Guipont, M. Jeandin
Microstructure observation on the interface between warm spray depositedtitanium powder and steel substrateK. Kim*, M. Watanabe, J. Kawakita, K. Mitsuishi, T. Wu, S. Kuroda
Characterization of low pressure typecold sprayed aluminum coatingsK. Ogawa*, K. Ito, K. Ichimura, Y. Ichikawa,T. Shoji
Comparison of Cu coating properties produced by three commercial cold spraysystemsJ. Legoux*, E. Irissou, C. Moreau
A combined process: cold spraying ofheterogeneous coatings followed withtheir high energy treatmentO. Solonenko*, V. Kosarev, A. Golovin, V. Neronov, M. Korchagin, V. Poluboyarov
Microstructural features of cold sprayedWC-Co nanocomposite coatingsK. Baik*, S. Kim, G. Lee, B. Seong
Development of an economical system forthe cold spray process with heliumC. Verdy*, H. Liao, C. Coddet
Processes –Diagnostics, Sensorsand ControlA side-by-side comparison of particletemperature (Tp), particle velocity (Vp)data collected using the accura G3 andthe DPV-2000A. Hall*, R. Williamson, D. Urrea, J. McCloskey, D. Hirschfeld
Influence of oxy-fuel ratio on particlebehavior of HVOF sprayed NiCrAlY coa-ting using LPG as fuelG. Rayudu*, A. Khanna, S. Modi, K. Nune
Asymmetric melting behavior in twin wirearc spraying with cored wiresW. Tillmann*, E. Vogli, M. Abdulgader
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Poster Session
Gas flow drift velocity measurement onplasma spray torchesS. Lange*, G. Forster, J. Schein
PSI: An innovative method to determineand to classify particles during the thermal spray processS. Zimmermann*, G. Forster, K. Landes, J. Schein
Processes – HVOF Spraying, FlameSpraying
Flame spray parameter optimization tomanufacture glaze coatings onto thermally sensitive substratesG. Montavon*, A. Arcondeguy, G. Gasgnier,B. Pateyron, A. Grimaud, A. Denoirjean, C. Huguet
Wear behaviors of high velocity air fuelsprayed nanosized WC coatings againstAl-Ni-bronze alloyC. Deng*, K. Zhou, M. Liu, R. Hong, C. Deng
Flame sprayed Al-12Si coatings for theimprovement of the adhesion of composite casting profilesJ. Voyer*, C. Peterlechner, U. Noster
High velocity oxy-fuel (HVOF) suspensionspraying of mullite (3Al2O3 •2SiO2) coatingsJ. Oberste Berghaus*, B. Marple
Role of HVOF spray NiCr coatings to control high temperature oxidation of boiler steelsH. Saheet*, G. Kaushal, S. Prakash
HVAF coating application in steel makingprocessY. Korobov*, M. Filippov
Metastable phases in thermally flame andplasma sprayed mullite/ZrO2 coatingsS. Dosta*, C. Cano, E. García, M. Osendi, P. Miranzo, I. Cano, J. Guilemany
Modeling a HVOF coating process byusing fluid structure interactions (FSI)approachE. Dongmo*
Gas flow simulation of free fall atomizingnozzlesZ. Li*, G. Zhang, Z. Li, Y. Zhang, W. Xu, H. Yuan, N. Liu
Gas flow field simulation of confinednozzles used in powder metallurgy andspray forming technologyZ. Li*, G. Zhang, Z. Li, Y. Zhang, W. Xu, H. Yuan, N. Liu
The application of Cr3C2NiCr coatings toimprove the corrosion and wear properties of an AA7050 alloyS. Dosta*, M. Magnani, P. Suegama, N. Espallargas, J. Guilemany, A. Benedetti
Effect of thermal history on properties ofWC-10Co4Cr HVOF coatingsT. Varis*, T. Suhonen, K. Ruusuvuori, E. Turunen
Thermal fluxes transferred during HVOFthermal sprayR. Bolot*, O. Landemarre, C. Coddet
Processes – New Equipment,TechnologiesNumerical simulations and characterization of a new oxy-fuel ionization processA. Vardelle*, B. Martinez, G. Mariaux, G. Barykin , M. Parco
HVSFS deposition of functional glass coatingsG. Bolelli*, J. Rauch, V. Cannillo, A. Killinger,L. Lusvarghi, R. Gadow, J. Colmenares-Angulo, S. Sampath
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Poster Session
Influence of particle velocity on splat formation during thermal sprayingY. Kharlamov*
Processes – PlasmaSpraying and PTWAInvestigation of a novel plasma sprayedYSZ ceramic coating deposited by amorphous YSZ ceramic powder feedstockF. Lin*, Z. Yang, J. Liu, S. Yan, X. Li, J. Zhang, L. Wang, J. Zhang
Microstructure and wear resistance ofplasma sprayed carbides and ceramiccoatings deposited on an Invar® alloysurfaceC. Giolli*, M. Turbil, M. Rosso, G. Rizzi, A. Scrivani
The jet characteristics of supersonic plasma jet spraying systemH. Yang*, L. Wang
Properties of long persistent SrAl2O4ceramics coating deposited by low power plasma sprayingF. Zhou*, Y. Fu, Y. Gao
Research of the cladded composite powders for forming wear resistant plasma sprayed coatingsA. Ilyuschenko*, A. Shevtsov, V. Okovity, V. Mikutsky, K. Buikus, A. Kozorez, T. Ilyuschenko
Comparative study between Ar-H2 andN2-H2 plasma gas mixtures: applicationto ZrO2-Y2O3 coatingsE. Nogues-Delbos*, S. Goutier, M. Vardelle,P. Fauchais, P. Granger
Fluctuations in one-cathode plasma torches: characterization and modelingJ. Marques*, M. Fuchs, S. Lange, J. Schein
Rapidly solidified thick stainless cast irondepositY. Hoshiyama*, K. Hirano, H. Matsumoto, H. Miyake
Processing and properties of plasma sprayed W+Cu compositesJ. Matìjíèek*, R. Musalek
Influence of microstructural variation onionic conductivity of plasma sprayedyttria stabilized zirconia coatingsC. Li*, Y. Xing, Y. Li, C. Li, G. Yang
Experimental simulation study of inter-splat bonding formation by deposition of YSZ-splats on preheated YSZ substrateC. Li*, Y. Xing, Y. Li, G. Yang, C. Li
Atmospheric plasma spray process controlA. Kanta*, G. Montavon, M. Planche, C. Coddet
To increase the service lives of the spareparts by the means of plasma spray inthe textile industryN. Toplan*, Y. Sert
Mechanical and thermo mechanical characterization of plasma sprayedYSZ/Al2O3 thermal barrier coatingsG. Erdogan*, U. Aral, F. Ustel, N. Toplan, E. Karaali
Plasma spray synthesis of La10(SiO4)6O3as a new electrolyte for intermediate temperature solid oxide fuel cellsH. Liao*, W. Gao, C. Coddet
Modeling of the in-flight synthesis of TaCnanoparticles from liquid precursor in thermal plasma jetA. Vorobev*, O. Zikanov, P. Mohanty
Mechanisms of residual stress generationin plasma sprayed hydroxyapatite coatingsY. Yang*
Influence of plasma generation conditions in gas water torch on spraying processT. Kavka*, O. Chumak, M. Hrabovsky, A. Maslani
Fundamental understanding of the liquidprecursor plasma spray process throughmodeling and experimentsE. Jordan*, B. Cetegen, M. Gell, D. Chen, S. Basu, M. Teicholz, X. Ma
Development of a dynamic maskingsystem for Improving the quality of plasma sprayed coatingsL. Jia*, F. Gitzhofer
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Poster Session
Processes – Pre-/Post-TreatmentEffects of heat treatment on properties ofplasma spray NiAl coatingsM. Moshref Javadi*, H. Edris, M. Salehi
Mathematical model of plasma surface hardening process of steel partsD. Markovnik*, S. Kundas, D. Ivanov
New developments in the PROTAL®
process for the coating of cylinder boresS. Costil*, H. Liao, Y. Danlos, C. Coddet
Synthesis and microstructural features oftungsten based preforms by plasmaspray forming routeK. Baik*, C. Lee
Properties – CorrosionProtectionAn effect of low pressure gas dynamicspray on microcorrosion behavior of AlalloysV. Leshchynsky*, E. Maeva, M. Schlesinger, R. Maev
Effect of zinc and aluminum thermalspray coatings on hydrogen embrittlement in marine industryM. Moshref Javadi*, J. Mazrooei Sebdani
The effect of process conditions on themicrostructure and corrosion resistanceof cold sprayed Ti coatingsH. Wang*, B. Hou, J. Wang
Corrosion behavior of in-situ Al2O3 for-med composite coatings by DC plasmasprayingB. Dikici*, C. Tekmen, M. Gavgali, Y. Tsunekawa, M. Okumiya
Effect of the chemical composition and thepost heat treatment on the corrosion resistance of cermet coatings deposited by HVOFL. Gil*, M. Prato, M. Staia, S. Liscano, R. Noriega
Influence of plasma parameters on the corrosion resistance and microstructureof WC-10%Co coatingsL. Gil*, M. Prato, M. Staia, L. Jimenez, R. Noriega, E. Puchi
Studies on the corrosion resistance of plasma and HVOF sprayed NiCrBSi coatingsS. Kozerski*, W. �órawski
Corrosion resistant ceramic coatings against high temperature LiCl-LiO2molten saltsK. Baik*, H. Lee, J. Lee, E. Kim
Properties – WearProtectionTribological behavior of HVOF cermet coatings at elevated temperaturesS. Houdkova*, F. Zahálka, M. Kašparová, L. Berger
Microstructure and tribological properties of HVOF sprayed carbide coatingsW. �órawski*
Comparing study of high temperature erosion of HVOF sprayed Cr3C2-NiCr coating and mild steel for boiler tubeG. Yang*, S. Zhang, C. Li, Y. Wang, C. Li
Comparisons of microstructure and properties of three cobalt based cermetsdeposited by high velocity oxy-fuel spraying using clad powdersG. Yang*, Y. Wang, C. Li, C. Li
Wear characteristics of Fe-based amorphous alloys coatings fabricated by HVOF spray processJ. Ahn*, B. Seong, S. Yi, S. Yi
Abrasion wear stability of VPS sprayed Ti-coatingsH. Gruner*, F. Deuerler, P. Gruner
Wear resistance of heat treated HVOF cermet coatings deposited by HVOFM. Rodriguez*, L. Gil, M. Staia, C. Bilbao, I. Moreno
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Cooperative Applied Research in Joining, Cutting and Surfacing (JCS) Technology
Results and Applications
The objective of the cooperative applied research in JCS technology conducted by the ResearchAssociation for Welding and Allied Processes of DVS is to elaborate directly usable research resultsfor small and medium sized enterprises (SME). In this respect, cooperative applied research offersthe participation of SMEs and research institutes from all fields of JCS technology. In this case,SMEs can define a common need for research and can determine research directions and main focalpoints. This approach taken by the cooperative applied research in JCS technology guarantees notonly the greatest possible proximity to the application of the research subjects but also optimum andrapid utilisation of the research results.The participation of industrial representatives in all the process steps allows the know-how to betransferred to the SMEs at an early stage. Research projects can be promoted viaArbeitsgemeinschaft industrieller Forschungsvereinigungen "Otto-von-Guericke e.V." (AiF - the"Study Group of Industrial Research Associations") from funds provided by BMWI (Federal Ministryof Economics and Technology).
Research / AiF Poster Session
Research / AiF Poster Session
Development of near net-shape coatingsfor wear and corrosion protectionF. Bach, K. Möhwald, T. Bause
Improvement of the corrosion resistanceof magnesium alloys by means of coatingand remeltingB. Wielage, T. Grund, H. Pokhmurska
Corrosion of alumina-based coatingsC. Stahr, L. Berger, H. Herrmann, D. Deska
Cladding of aluminum substrates withnanocrystalline solidifying wear resistantiron-based materialsJ. Wilden, S. Jahn
Production of high quality anti-corrosionand wear-resistant wire arc coatingsJ. Wilden, S. Jahn
FeNiW-coatings for casting molds in thealuminum industryJ. Wilden, S. Jahn
Diffusion barrier coatings for CFC-components by plasma spraying – someresearch results of the projectK. Bobzin, F. Ernst, K. Richardt, L. Zhao
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HVOF-sprayed TiC-strengthened Fe-coa-tings as alternative for conventional car-bide materials K. Bobzin, F. Ernst, K. Richardt, T. Warda
Improving the reproducibility and thecomparability of bond strength values K. Bobzin, F. Ernst, K. Richardt, T. Schläfer
Influence of the spray angle on characte-ristics for atmospheric plasma sprayedhard material based coatingsW. Tillmann, E. Vogli, B. Krebs
Asymmetric melting behavior in twinewire arc spraying with cored wiresW. Tillmann, E. Vogli, M. Abdulgader
Superfine structured and nanostructuredhard material coatings produced bymeans of HVOF flame sprayingW. Tillmann, E. Vogli, I. Baumann, G. Matthäus, T. Ostrowski
Tribological study of thermo sprayed spe-cimens using wear resistance equipmentsW. Tillmann, E. Vogli, A. da Cunha
Detonation flame sprayed diamond-bronze coatings for grindingW. Tillmann, E. Vogli, J. Nebel
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AiF Poster Session
Cooperative Applied Research in the field of Thermal Spraying
Greater significance has recently been attached to cooperative applied research work relating tothe manufacture and safeguarding of the characteristics of thermally sprayed coatings. There are aseries of interesting usable research results on this subject. Within the framework of ITSC, selectedresearch projects will be presented with their results and application possibilities within this AiFPoster Session.
The AiF Poster Session will be held during the conference. The poster presenters will be availablefor discussion scheduled as follows:
Monday, June 2, 2008, 12:30 – 13:30Monday, June 2, 2008, 17:20 – 18:20Tuesday, June 3, 2008, 13:00 – 13:30Wednesday, June 4, 2008, 13:00 – 13:30
In addition, further contacts with the authors can be arranged.
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ExpositionConcurrent with the conference, the ITSC 2008 exposition, organized by Messe Essen GmbH, will beheld in the MECC, Expo Foyer.Exposition hours are from:
Monday, June 2, 2008 12:30 – 17:30Tuesday, June 3, 2008 09:00 – 17:00Wednesday, June 4, 2008 09:00 – 17:00
Exhibitor Reception, Monday, June 2, 2008, 17:20MECC, Expo FoyerAll registrants are invited by the ITSC 2008 exhibitors fora snack and drinks.
Company Booth no.Advanced Coatings SA, Belgium 116Air Products PLC, United Kingdom 514Beijing Advanced Metal Materials Co. Ltd., P.R. China 516Bodycote, France 115/117Carpenter Powder Products GmbH, Germany 215CGT Cold Gas Technology GmbH, Germany 412Deloro Stellite GmbH, Germany 416DeWal Industries, Inc., USA 112Durum Verschleiss-Schutz GmbH, Germany 113ECKA Granulate GmbH & Co. KG, Germany 418Flame Spray Technologies bv, The Netherlands 208Green Belting Industries Inc., USA 108Grillo-Werke AG, Germany 515GTV Verschleiss-Schutz GmbH, Germany 110H.C. Starck GmbH & Co. KG, Germany 208HÖGANÄS AB, Sweden 506Ibeda Sicherheitsgeräte und Gastechnik GmbH & Co. KG, Germany 401LESCAV, Belgium 118LWK Plasma Ceramic GmbH, Germany 502Medicoat AG, Switzerland 302Metatherm Flammspritztechnik GmbH, Germany 318MilliDyne Oy, Finland 415Northwest Mettech Corporation, Canada 213MOGUL Metallizing GmbH, Germany 504Oseir Ltd., Finland 209Polymet Corporation, USA 317Praxair Surface Technologies, USA 402Progressive Technologies, Inc., USA 406Saint-Gobain Ceramic Materials, Germany 408Sandvik Osprey Ltd., United Kingdom 217Sulzer Metco AG, Switzerland 102Tecnar Automation Ltd., Canada 306TeroLab Surface Group SA, Switzerland 101The Linde Group, Germany 308THERMICO GmbH & Co. KG, Germany 218Solid Spray LLC, USA 114
Exhibitor List (January 28, 2008)
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Exposition
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Industrial Forum
Erfahrungen beim Öko-Audit ISO 14001 im SpritzbetriebJ. Putzier, Putzier Oberflächentechnik, Leichlingen/Germany
Delta – a new multiple electrode plasma gun based on hydrogenA. Schwenk, GTV Verschleiss-Schutz GmbH, Luckenbach/Germany
Praktische Erfahrungen mit dem neuen Schertest gem. DIN EN ISO 15340 unter Bezug zumHaftzugtest DIN ISO 582S. Siegmann, Nova-Werke AG, Effretikon/Switzerland
Normen in der SpritztechnikH. Zernitz, DIN e.V., Berlin/Germany
Erfahrungen mit Ausbildung und Zertifizierung beim Thermischen SpritzenR. Huber, A. Ohliger-Volmer, SLV München NL der GSI mbH, München/Germany
HP/HVOF qualification of a critical aerospace componentH. Ulrich, DutchAero bv, Eindhoven/The Nertherlands
Laser-BeschichtenS. Kalawrytinos, Pallas GmbH, Würselen/Germany
Mechanische Bearbeitung von thermisch gespritzten SchichtenH. Ruff, Rybak + Höschele rhv-Technik GmbH + Co. KG, Waiblingen/Germany
The Industrial Forum will take part during ITSC 2008 exposition. Invited companies have the possibility ofpresenting industry related topics and their products during conference and exposition hours.The lectures are given in English or German language without simultaneous translation and are limited to30 min. including discussion. Location is the so called “Industrial Forum” in the Expo Foyer.
The following table is showing the individual topics and presenting authors.
June 2 – 4, 2008
Monday, June 2, 2008, 13:00 – 17:00
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Safety package – LiprotectW. Unterstenwesten, The Linde Group / Linde Gas, Düsseldorf/Germany
Alternative binder alloys / the end of cobalt in thermal spray applicationsB. Gries, H.C. Starck GmbH, Goslar/Germany
Gassicherheitsgeräte und Gasversorgung für Azetylen bis 2,5 barU. Bernhardt, Ibeda Sicherheitsgeräte und Gastechnik GmbH & Co. KG, Neustadt/Germany
Measuring powders for thermal sprayingF. Campana, Advanced Coatings SA, Liège/Belgium
Handling industrial gasesW. Strich, The Linde Group / Linde Gas, Hamburg/Germany
Recycling von OversprayJ. Fischer, H.C. Starck GmbH, Goslar/Germany
Streuung von Spritzzusatzeigenschaften – Auswirkungen und abzuleitende MaßnahmenM. Hochkeppel, TeroLab Surface GmbH, Langenfeld/Germany
Tuesday, June 3, 2008, 10:00 – 15:30
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14:30
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15:30
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12:40 -13:40
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Lunch Break
Der Einsatz des True-Voltage-Sensors beim PlasmaspritzenR. Kuhn, Medicoat AG, Mägenwil/Switzerland
Projektierung moderner SpritzsystemeW. Daniels, M. Zwetsloot, Flame Spray Technologies bv, Duiven/The Netherlands
Erfahrungen mit dem 3-Kathoden-PlasmabrennerE. Schopp, OBZ Dresel & Grasme GmbH, Bad Krozingen/Germany
Interessante Anwendungsbeispiele aus der SpritztechnikK. Kreisel, Sulzer Metco Component GmbH, Salzgitter/Germany
Hydraulik components and thermal sprayingT. G. Kraak, Aludra bv, Vlaardingen/The Netherlands
Hardchrom and HVOF coatings in corrosive environmentR. Eijkenboom, Oak-Advanced Coating Solutions bv, Heerlen/The Netherlands
HVOF sprayed applicationsR. Didden, CZL Tilburg bv, Tilburg/The Netherlands
Arc sprayed TSA application on a steel bridge, a "state of the art technology"R. Eijkenboom, Oak-Advanced Coating Solutions bv, Heerlen/The Netherlands
Wednesday, June 4, 2008, 10:00 – 16:00
Lunch Break
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Education Courses
May 29 – 31, 2008, 8:00 – 17:00Location MECC, Room 2.4, Thames Maastricht, The Netherlands
Instructors:Dr. C.C. Berndt, FASMProfessor, Swinburne University of TechnologyHawthorn, Victoria, Australia
Dr. R. Knight, FASMAuxiliary Professor, Drexel UniversityPhiladelphia, Pennsylvania, USA
Course Overview:Thermal spray technology and coatings solve critical pro-blems in demanding environments. They provide “solu-tions” to problems involving repair, wear, high tempera-ture and aqueous corrosion, and thermal protection.Thermal spray can also be used to manufacture net-shapes, advanced sensors and materials for the biome-dical and energy/environmental sectors. These and otheremerging applications take advantage of the rapid andcost-effective capabilities of thermal spray technology inthe OEM and repair industries.Thermal spray processes - (twin wire-arc, combustion,high velocity oxy-fuel (HVOF), cold spray and plasmaspray, and associated technologies) can deposit virtuallyany material as a surface coating onto a wide range ofother materials. Coating reliability and effectivenessrequires that these overlay coatings be selected, engi-neered and applied correctly.This course provides (i) a thorough grounding and under-standing of thermal spray processes, (ii) presents thecomplex scientific concepts in terms of simple physicalmodels, and (iii) integrates this knowledge to practicalapplications and accepted thermal spray practices. NO mathematics is used to explain the processes ormaterials/mechanical engineering.
Participants are encouraged to contact the instructor(s)prior to the course so that any particular application orproblem can be discussed as a case history.
Learning Objectives:Upon completion of this course, participants should beable to:
• Describe the historical basis for thermal spray techno-logy and the development of equipment and materialsas it relates to present-day technology.
• Recognize the terminology, principles and underlyingtheory of thermal spray technology.
• Compare and contrast thermal spray technologies withrespect to competing coating technologies - PVD,CVD, hardfacing, electroplating, etc.
• Explain how feedstocks are designed and manufacturedand how to select them for different spray processes.
• Identify applicable testing methods and currentlyaccepted industrial practices used for quality control ofcoatings.
Who Should Enroll:• Technologists• Engineers• Technicians• Technical marketing personnel• Graduate students and other professionals entering
the thermal spray field or who wish to update theirknowledge
Course Outline:1. Surface Science2. Equipment & Theory3. Processing & Design4. Materials5. Applications6. Testing & Characterization
Instruction Language: All instruction from this courseand all course materials will be in English.
Registration Fees: Before May 14 After May 14Member Fee: 995 US Dollars 1.055 US Dollars(TSS/DVS/IIW)
ASM Member Fee: 1.055 US Dollars 1.105 US Dollars
Non-Member Fee: 1.195 US Dollars 1.245 US Dollars
Student Fee: 295 US Dollars 345 US Dollars
Multiple registrants from the same company will receivethe following discount:
• 3rd registrant from the same company = 25% discount• 4th registrant from the same company = 40% discount• 5th registrant from the same company = 55% discount
Participants receive the Handbook of Thermal SprayTechnology and hardcopy of the instructor’s presentationmaterials.
To register for the courses or for any questions, please contact customer service at [email protected](Product code 253081508)
Thermal Spray Technology
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Education Courses
Understanding and Improving Your Thermal Spray Processes
May 30 – 31, 2008, 8:00 – 18:30Location MECC, Room 2.5, Seine Maastricht, The Netherlands
Instructors:Dr. M. Boulos, TS-HoFProfessor, University of SherbrookeSherbrooke, Quebec, Canada
Dr. P. Fauchais, FASM, TS-HoFProfessor, Université de LimogesLimoges, France
Dr. J. Heberlein, FASM, TS-HoFUniversity of MinnesotaMinneapolis, Minnesota, USA
Course Overview:Thermal spray coatings are receiving increased attentionas solutions to corrosion, wear and materials compatibi-lity problems. Thermal spray processes using electricarcs, combustion and plasma spray can apply almostany material to the surface of another. These coatingsmust be correctly engineered and applied to operate asan overlay surface. Education is vital to understandingcoating systems and improving thermal spray coatingreliability. This 2-day course will review the processingscience of a wide range of thermal spray coating proces-ses. The theory of operation and practice of the coatingswill be presented, including thermal spray process con-trol, coating application, characterization and testing.Practical coating systems for electric arc, combustionand plasma spray will be reviewed using case studies.
Learning Objectives:Upon completion of this course, participants should beable to:
• Summarize thermal spray processing science, applica-tions and practice.
• Describe how thermal spray processing interacts withthe materials it is designed to protect.
• Perform a techno-economic comparison of differenttechnologies.
Who Should Enroll:This course is designed for process, application, development and design engineers, researchers andquality-control personnel. It will also be helpful for anyone involved in specifying materials, materials sup-pliers, sales representatives and technical management.
Course Outline: 1. Introduction and Course Objectives2. Overview of Thermal Spray Techniques3. Flame Spraying Systems4. Cold Spray5. Characteristics of the Plasma State 6. Plasma Spraying I - D.C. Plasma Spraying7. Plasma Spraying II - R.F. Induction Plasma
Spraying8. Wire-Arc Spraying9. Plasma Transferred Arc10. Plasma/Particle Interactions11. Process Diagnostics12. Powder Production for Thermal Spraying13. Surface Preparation14. Deposit Formation and Coating Properties15. Thermal Spray Process Controls16. Industrial Applications of Plasma Spray17. Summary, Conclusions and Discussion
Instruction Language: All instruction from this course and all course materials will be in English.
Registration Fees: Before May 14 After May 14Member Fee: 795 US Dollars 845 US Dollars(TSS/DVS/IIW)
ASM Member Fee: 835 US Dollars 885 US Dollars
Non-Member Fee: 975 US Dollars 1.025 US Dollars
Student Fee: 255 US Dollars 305 US Dollars
Multiple registrants from the same company receive thefollowing discount:
• 3rd registrant from the same company = 25% discount• 4th registrant from the same company = 40% discount• 5th registrant from the same company = 55% discount
To register for the courses or for any questions, please contact customer service at [email protected](Product code 259381508)
Education Courses
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May 31, 2008, 8:00 – 17:00Location MECC, Room 2.6, Danube Maastricht, The Netherlands
Instructors:D. G. PuertaDirector of Metallurgical EngineeringIMR Test LabsLansing, New York, USA
Course Overview:Sound metallographic practices are a prerequisite for theaccurate evaluation of gas turbine coatings. Poor prepa-ration can lead to false conclusions about coating inte-grity and spray booth parameters. This course covers awide range of topics relating to the metallographic pre-paration and evaluation of gas turbine coatings.Emphasis is placed on equipment and consumablesselection, and how these choices influence the observedstructure of a given coating.In addition to an overview of metallographic preparation,we also discuss common issues encountered withvarious coating families (e.g. hardcoats, ceramic (TBCs),etc.). Methods are covered which can help to ensure thatthe true coating microstructure has been revealed.
Learning Objectives:Upon completion of this course, participants should beable to:• Describe the basic elements of metallographic prepa-
ration (sectioning, mounting, grinding, and polishing).• Discuss the relationship between consumables, pre-
paration recipes, and coating structure.• Determine if features observed within a given coating
are inherent or have been induced during metallogra-phic preparation.
Who Should Enroll:This course is designed for anyone involved in either theprocessing or evaluation of thermal spray coatings
Course Outline:1. The Use of Coatings Within a Turbine2. Metallography Overview3. Sectioning4. Hot and Cold Mounting5. Grinding6. Polishing I – Selection of fine grinding and
polishing consumables7. Polishing II – Recipes and coating families8. Metallographic Standards9. Evaluation of Coatings I – Image analysis10. Evaluation of Coatings II – Electron microscopy11. Evaluation of Coatings III – Issues specific to the
different coating families
Registration Fees: Before May 14 After May 14Member Fee: 475 US Dollars 525 US Dollars(TSS/DVS/IIW)
ASM Member Fee: 525 US Dollars 575 US Dollars
Non-Member Fee: 645 US Dollars 695 US Dollars
Student Fee: 195 US Dollars 245 US Dollars
Multiple registrants from the same company will receivethe following discount:
• 3rd registrant from the same company = 25% discount• 4th registrant from the same company = 40% discount• 5th registrant from the same company = 55% discount
To register for the courses or for any questions, please contact customer service [email protected](Product code: 251281508)
The Metallographic of Gas Turbine Coatings
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Conference LocationMaastricht Exhibition & Congress Centre (MECC), Forum100, 6229 GV Maastricht, The Netherlands
Advance Registration/Payment – Deadline May 14, 2008Mail/fax your complete registration form with payment toDVS – German Welding Society, P.O. Box 10 19 65, 40010Düsseldorf, Germany (phone: +49 (0) 211/1591-302/-303,fax: +49 (0) 211/1591-300). Registration received withoutpayment will not be processed. If your registration formand payment have not been received by DVS by May 14,2008 you have to pay a late registration fee of EUR 60.This applies also to on-site registration. There is norestriction on the number of attendees.
Payment by credit card:• American Express – MasterCard – Visa (accepted)
Payment by credit transfer:• Dresdner Bank AG, Düsseldorf,
account no. 212 60 11 00, bank sorting code 300 800 00IBAN-code: DE82 3008 0000 0212 6011 00BIC-code: DRESDEFF300
Any banking charges which may be incurred will beborne by the attendees.Keyword for credit transfer (please do not forget): ITSC 2008, name of registrant
A confirmation will be faxed to you within 10 businessdays of receiving your registration and payment.You can also find all information and details on the ITSC2008 website: http://www.dvs-ev.de/itsc2008.
On-Site Registration and Check In at the ConferenceDeskIf your registration form and payment have not beenreceived by DVS by May 14, 2008 you will be required tofill out a registration form and pay on-site by credit card(American Express, Mastercard, Visa). An additional EUR 60 will be added to each registration category foron-site registrations (except: one-day-tickets).Registered attendees should check in and pick up theirconference tickets and (if ordered) the conference CD assoon as possible at the Conference Desk.The Conference Desk is located in the Trajectum (Level 1),Maastricht Exhibition & Congress Centre (MECC), Forum100, 6229 GV Maastricht, The Netherlands.
The Conference Desk is open from:
Sunday, June 1, 2008 15:00 – 18:00Monday, June 2, 2008 08:00 – 17:00Tuesday, June 3, 2008 07:30 – 17:00Wednesday, June 4, 2008 07:30 – 17:00
Registration Information – What’s included:Complete Registration includes:Plenary Program3-Day Technical Conference3-Day Exposition and Exhibitor ReceptionCoffee BreaksOne Conference CDOne Awards Banquet Ticket
Minimum Registration includes:Plenary Program3-Day Technical Conference3-Day Exposition and Exhibitor ReceptionCoffee Breaks
Cancellation FeeCancellations must be in writing to the DVS. In case ofcancellation after May 14, 2008 DVS will take a proces-sing fee of EUR 60.
Conference InformationThe conference will take place as a discussion event. Thenames of the lecturers are followed by an asterisk. Thelanguage of the conference is English. Simultaneoustranslation will be offered in the Auditorium 2.Headphones will be distributed at the conference deskupon presentation of the conference ticket (businesscard).
Conference CDThe conference CD will be produced in advance with allillustrations and tables. A conference CD is included withthe complete registration. You will receive it at your checkin. Additional CDs can be bought at the DVS-PublishingHouse booth. Sales of the CD in the name and to theaccount of the DVS-Publishing House.
Coffee Breaks, Expo FoyerDuring the coffee breaks (not during lunch break) coffeeand tea will be served free of charge.
Restaurant FacilitiesMecc@Table (Restaurant next to the Expo Foyer).
General Information
Registration Information
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General Information
ParkingThe MECC has a car park with room for 915 automobiles.ITSC registrants can use P4, P5 or P6. (Price per day: EUR 9)
TransportationBy PlaneMaastricht-Aachen Airport is located 10 kilometers fromMECC Maastricht and only 15 minutes away by car, taxior bus. DVS is pleased to announce that KLM RoyalDutch Airlines has been designated as the Official Carrierfor the International Thermal Spray Conference 2008(see: http://www.dvs-ev.de/itsc2008)
By CarYou will begin to see signs for MECC Maastricht as soonas you reach the outskirts of Maastricht. Follow thesesigns until you reach the MECC car park. If you are
traveling south on the A2/E25 motorway (fromAmsterdam-Eindhoven), take exit 55 signed for“Randwyck-MECC”. If you are travelling north on theA2/E25 motorway (from Paris-Liège) take exit 56 signedfor “Gronsveld-MECC”.
By TrainMaastricht-Randwyck station is located 250 meters fromMECC Maastricht and is part of the national and interna-tional railway network. There are frequent trains toMaastricht Central Station, which is also linked to thenational and international railway network.
By BusMaastricht's metropolitan bus company runs a regularservice between the city centre, Maastricht CentralStation and MECC Maastricht. There is a bus about everyfive minutes (Forum bus stop).
Hotel InformationHotel ReservationThe following hotels are reserved for the registrants ofITSC 2008:
• NH Maastricht (situated next door to MECC)• Hotel de l’Empereur• Novotel Maastricht• Bastion Hotel Maastricht• Hotel Randwyk
Hotel reservations can be made by filling in the enclosedhotel registration form and faxing it directly to MaastrichtBooking Service or by online-registration. There are seve-ral bus connections from the various hotels to MECC (seehttp://www.dvs-ev.de/itsc2008). Registrants are allowedto use the city-buses free of charge by showing their con-ference badge during ITSC 2008. For the first drive theycan show their confirmation-/registration-letter.
Tips for The NetherlandsPassports and VisasAll foreign visitors entering The Netherlands must have avalid passport. For detailed information about visas, ple-ase contact your nearest Dutch Embassy or Consulate.Foreigners with a visa requirement for Germany musthave a “Multiple Entry Schengen Visa”.
CurrencyEURO (EUR) is the currency of The Netherlands. Foreigncurrencies can be exchanged at the banks and in themajor hotels.
ElectricityThe voltage in The Netherlands is 230 volts. Hotels mayhave a 110-volt or 120-volt outlet for shavers, but trave-
lers are advised to bring a power converter and an adap-ter for two-prong, round-prong plugs with side groundingcontacts.
TimeCET (Central European Time)
Maastricht InformationIf you want more information about Maastricht you cancontact: http://www.vvvmaastricht.nl
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Social Events
Exhibitor Reception, Monday, June 2, 2008, 17:20MECC, Expo FoyerAll registrants are invited by the ITSC 2008 exhibitors fora snack and drinks.
ITSC 2008 Awards Banquet, Tuesday, June 3, 2008, 20:00La Caverne de Geulhem, Wolfsdriesweg 8a, 6325 PM Berg en Terblijt, The NetherlandsJoin us Tuesday at the ITSC 2008 Awards Banquet torecognize the recipients of the ITSC 2008 awards. The ban-quet is included with a Complete Registration. Additionaltickets can be ordered with the registration form. Bus trans-fer is included.
Departure: 19:00 MECCReturn: 22:30 to the main hotels of Maastricht
Excursions, Thursday, June 5, 2008Limited number of registrants (first come-basis). Pleaseindicate on the registration form. Registrants should be
presented 10 minutes before at the meeting point. Do notforget the voucher for the tour! The tours include transpor-tation, English-speaking guide, coffee break (with cake)and lunch (lunch only for the Full-Day Tour). Closing datefor booking of both tours is May 14, 2008. If a minimumnumber of registrants for the tours is not reached, the tourscan be cancelled.
• Visit A – South Limburg, The Netherlands / Aachen,Germany (Full-Day Tour)
Limburg is the most southerly of the Dutch provinces. InSouth Limburg (Zuid-Limburg), at Vaals, is theDrielandenpunt (“Three Countries Point”) where the fron-tiers of the Netherlands, Belgium and Germany meet.Registrants will see nice villages with timbered framedhouses as well as numerous castles.
Aachen's historical old town invites visitors to a stroll. Letyourself be guided through narrow alleys and over histo-rical places through a nearly 2000 years old Aachenhistory. Get to know all of Aachen's facets: as moderntown with lovely old town houses, many old and newfountains and many stories around the cathedral andtown hall.Please remember that this tour will be also inGermany. Foreigners with a visa requirement forGermany must have a “Multiple Entry Schengen Visa”.
Departure: 10:00 MECCArrival: 18:00 MECC
• Visit B – City Tour Maastricht (Half-Day Tour)Maastricht's vibrant history and its situation at a cross-roads of European cultures, languages and trade routeslend it a unique charm and international flavor. Dutch visi-tors to this most ancient, most European and most sou-therly city of the Netherlands find Maastricht so “un-Dutch” that they feel as if they are abroad, while foreignvisitors tend to feel perfectly at home in its internationalatmosphere.• Historical City Walk Maastricht• Visit of the Basilica of St. Servaas and Treasury Room,
the restored Stokstraat quarter, the old ramparts, the famous Vrijthof square.
The tour ends in the city centre of Maastricht.
Departure: 10:00 MECC (by bus)
Industrial Tour, Thursday, June 5, 2008Limited number of registrants (first come-basis).Participation is only valid with a registration for the con-ference. Please indicate on the registration form.Registrants should be presented 10 minutes before
Social Events / Excursions / Industrial Tour / Linde Golf Challenge ITSC 2008
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Social Events
departure of the buses. Do not forget the voucher for thetour. The tour includes transportation, English-speakingguide at the institute. Closing date for booking of theindustrial tour is May 14, 2008. If a minimum number ofregistrants for the tour is not reached, the tour can becancelled.Please remember that the tour will be in Germany.Foreigners with a visa requirement for Germany musthave a “Multiple Entry Schengen Visa”.
Visit – Research Centre Jülich, GermanyAt the Research Centre Jülich, one of the 15 HelmholtzResearch Centres in the Federal Republic of Germany,4,400 members of staff dedicate themselves to exploringtopics that are of current relevance to society in one ofthe largest research institutions in Europe. During the firstpart of the visit an overview on the activities in the diffe-rent fields will be given. In the second part, a lab tour inthe Institute of Energy Research – Materials Synthesisand Processing (IEF-1) will be made. The activities in themajor research topics solid oxide fuel cells and coatingsystems for power plants (especially TBCs) will be pres-ented. The tour will include the demonstration of differentkinds of powder technological processing methods likeshaping and coating technology including thermal sprayprocesses.Lunch.
Departure: 09:00 MECCArrival: approx. 14:00 MECC
“Linde Golf Challenge ITSC 2008”Maastricht, The NetherlandsThursday, June 5, 2008
In conjunction with the ITSC 2008, the golf tournament“Linde Golf Challenge ITSC 2008” will be taking place onThursday, June 5, 2008.The venue is the Golf Club “Het Rijk van Margraten”www.golfenophetrijk.nl/margraten.The organizer is Will Herlaar of VTS, the Dutch ThermalSpray Society.
The registration deadline is May 1, 2008 by post, fax or(preferably) E-Mail to:
Will Herlaar, President [email protected]: +31 26 3190141c/o FlameSpray Technologies bvDijkgraaf 406921 RL DuivenThe Netherlands
Greenfee of EUR 115 includes coffee or tea at arrival, lun-cheon box, refreshments as well as diner during which theprice-giving event will be held.Registration is limited to 30 persons and will be on a firstcome-basis. Hire of a golfcart is limited and should be indi-cated in your registration. Prices will be donated by TheLinde Group, but other sponsors are welcome.
B. Felixberger
Conference Committees and Endorsing Sponsors
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DVS RepresentativesF.-W. Bach, Leibniz University (D)J. Beczkowiak, H.C. Starck GmbH (D)K. Bobzin, RWTH Aachen University (D)D. Böhme, SLV München, NL der GSI mbH (D)E. Brenner, Sulzer Metco AG (Switzerland) (CH)B. Brommer, DVS - German Welding Society (D)M. Dorfman, Sulzer Metco (US) Inc. (USA)F. Ernst, RWTH Aachen University (D)D. Grasme, OBZ Dresel & Grasme GmbH (D)H. Gruner, Medicoat AG (CH)P. Hanneforth, SpaCom LCC (USA)S. Hartmann, Rybak + Höschele
rhv-Technik GmbH + Co. KG (D)P. Heinrich, The Linde Group (D)W. Herlaar, Flame Spray Technologies bv (NL)X. Huang, TSCC Thermal Spray Committee of
Chinese Surface Engineering Association (PRC)J. Jerzembeck, DVS - German Welding Society (D)T. Klassen, Helmut Schmidt University (D)E. Lugscheider, RWTH Aachen University (D)S. Mahlstedt, DVS - German Welding Society (D)K. Nassenstein, GTV Verschleiss-Schutz GmbH (D)F. Schreiber, Durum Verschleiss-Schutz GmbHD. Stöver, Forschungszentrum Jülich GmbH (D)W. Tillmann, Dortmund University (D)C. Wasserman, TeroLab Surface Group SA (CH)B. Wielage, Chemnitz University (D) J. Wilden, Ilmenau University (D)
ASM-TSS RepresentativesC.C. Berndt, Swinburne University of Technology (AUS)T.W. Clyne, University of Cambridge (GB)T. Coyle, University of Toronto (CDN)M. Dorfman, Sulzer Metco (US) Inc. (USA)M. Fukumoto, Toyohashi University of Technology (J)M. Gevelber, Boston University (USA)P. Hanneforth, SpaCom LLC (USA)J. Heberlein, University of Minnesota (USA)P. Heinrich, The Linde Group (D)K. Hollis, Los Alamos National Laboratory (USA)X. Huang, TSCC Thermal Spray Committee of
Chinese Surface Engineering Association (PRC)J. Jerzembeck, DVS - German Welding Society (D)J. Karthikeyan, ASB Industries, Inc. (USA)A. Kay, ASB Industries, Inc. (USA)C. Kay, ASB Industries, Inc. (USA)K. Khor, Nanyang Technological University (SGP)R. Knight, Drexel University (USA)S. Kuroda, National Institute for Materials Science (J)C. Lee, Hanyang University (ROC)C. Li, Xi’an Jiaotong University (PRC)B. Marple, National Research Council Canada (CDN)C. Moureau, National Research Council Canada (CDN)K. Tani, Tocalo Co. Ltd. (J)Y. Tsunekawa, Toyota Tech Institute (J)R. C. Tucker, The Tucker Group, LCC (USA)P. Vuoristo, Tampere University of Technology (FI)G. Wuest, Sulzer Metco (US) Inc. (USA)T. Yoshida, The University of Tokyo (J)
General ChairmenP. Heinrich, The Linde Group (D)
P. Hanneforth, SpaCom LCC (USA)
Technical ChairmenE. Lugscheider, RWTH Aachen University (D)
M. Dorfman, Sulzer Metco (US) Inc. (USA)
Endorsing Sponsors• Asian Surface Technologies, PTE. Ltd (SGP) • BIL Belgisch Instituut voor Lastechniek (B) • CEREM/CEA (F) • Commission of the European Community (B) • DGO - Deutsche Gesellschaft für Galvano- und Oberflächentech-nik e. V. (D) • DGM - Deutsche Gesellschaft für Materialkunde e. V. (D) • DKG - Deutsche Keramische Gesellschafte. V. (D) • DVS - Research Association (D) • GTS - Gemeinschaft Thermisches Spritzen e.V. (D) • HTS - High Tem-perature Society of Japan (J) • International Thermal Spray Association (USA) • Japan Thermal Sprayers Associa-tion (J) • JTSS - Japanese Thermal Spray Society (J) • TSCC Thermal Spray Committee of Chinese SurfaceEngineering Association (PRC) • TSSEA -Thermal Spraying & Surface Engineering Association (GB) • TWI The Wel-ding Institute (GB) • VDI Verein Deutscher Ingenieure (D) • Werkstoff-Forum RWTH Aachen (D)
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Authors, Session Chairs, Co-Authors
AAbdulgader, M. University of Dortmund, Dortmund/GermanyAchellis, L. University of Bremen, Bremen/GermanyAckermann, D. University of Applied Sciences Gelsenkirchen, Gelsenkirchen/GermanyAdachi, M. Tocalo Co. Ltd., Akashi/JapanAdeeva, L. E.O. Paton Electric Welding Institute, Kiev/UkraineAgeorges, H. University of Limoges, Limoges/FranceAhn, J. Research Institue of Industrial Science and Technology, Pohang/South KoreaAhrens, S. Chemnitz University of Technology, Chemnitz/GermanyAixala, L. Volvo Powetrain, St. Priest/FranceAl Mamun, K. School of Mechanical & Manufacturing Engineering, Dublin/IrelandAlani, H. University of Southampton, Southampton/United KingdomAllen, D. Utah State University, Logan/USAAltuncu, E. Kocaeli University, Kocaeli/TurkeyAmsellem, O. Ecole des Mines de Paris, Evry/FranceAnderson, F. IMR Test Labs, Lansing/USAAnsar, A. German Aerospace Center, Stuttgart/GermanyAoki, I. Fujimi Incorporated, Gifu/JapanArai, M. Central Research Institute of Electric Power Ind., Tokyo/JapanAral, U. Sakarya University, Sakarya/TurkeyArcher, R. Carleton University, Ottawa/CanadaArcondeguy, A. University of Limoges, Limoges/FranceArnold, J. German Aerospace Center, Stuttgart/GermanyAsghari, S. Isfahan University of Technology, Isfahan/IranAzanza-Ricardo, C. Università di Trento, Trento/Italy
BBach, F. Leibniz University, Garbsen/GermanyBae, C. Welding Research Center, Pohang/South KoreaBae, G. Kinetic Spray Coating Laboratory, Seoul/South KoreaBagcivan, N. RWTH Aachen University, Aachen/GermanyBaik, K. Chungnam National University, Daejeon/South KoreaBandyopadhyay, P. IIT Kharagpu, West Bengal/IndiaBarbezat, G. Barbezat-Consulting, Winterthur/SwitzerlandBara, L. Centre de Ressources Techniques, Morlaix/FranceBardi, U. University of Firenze, Sesto Fiorentino/ItalyBarletta, M. Università di Roma Tor Vergata, Roma/ItalyBartlett, B. Sulzer Metco (Canada) Inc., Fort Saskatchewan/CanadaBarykin, G. Inasmet Tecnalia, San Sebastian/SpainBassani, A. Università di Modena e Reggio Emilia, Modena/ItalyBasu, S. Boston University, Boston/USABasu, S. University of Connecticut, Storrs/USABaumann, I. University of Dortmund, Dortmund/GermanyBause, T. Leibniz University, Garbsen/GermanyBeardsley, B. Caterpillar Inc., Peoria/USABejarano, M. Center for Thermal Spray Research / SUNY Stony Brook, Stony Brook/USABeliayev, A. SSI Powder Metallurgy Institute, Minsk/BelarusBellin, J. Engineering National School of Limousin, Limoges/FranceBenedetti, A. São Paulo State University, Araraquara/BrazilBeneteau, M. Centerline Windsor Ltd., Windsor/CanadaBerger, L. Fraunhofer Institute for Material and Beam Technology, Dresden/GermanyBerndt, C. Swinburne University of Technology, Hawthorn/AustraliaBernhardt, H. Ibeda Sicherheitsgeräte und Gastechnik GmbH & Co. KG, Neustadt/GermanyBertrand, G. LERMPS, University of Technology of Belfort-Montbé, Belfort/France
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Authors, Session Chairs, Co-Authors
Bertrand, P. Ecole Nationale d'Ingénieurs de Saint-Etienne, Saint-Etienne/FranceBianchi, L. Commissariat à l'Energie Atomique, Monts/FranceBiermann, T. RWTH Aachen University, Aachen/GermanyBigan, M. University Lille 1, Villeneuve d'Ascq/FranceBilbao, C. Central University of Venezuela, Caracas/VenezuelaBirtch, W. Centerline Windsor Ltd., Windsor/CanadaBisi, U. Central University of Venezuela, Caracas/VenezuelaBliss, S. University of Auckland, Auckland/New ZealandBobzin, K. RWTH Aachen University, Aachen/GermanyBolelli, G. Università di Modena e Reggio Emilia, Modena/ItalyBoller, E. European Synchrotron Facility, Grenoble/FranceBolot, R. LERMPS, University of Technology of Belfort-Montbé, Belfort/FranceBonte, M. de Sirris-MTM Kuleuven, Leuven/BelgiumBorgioli, F. University of Firenze, Sesto Fiorentino/ItalyBorisov, Y. E.O. Paton Electric Welding Institute, Kiev/UkraineBorisova, A. E.O. Paton Electric Welding Institute, Kiev/UkraineBorit, F. Ecole des Mines de Paris, Evry/FranceBoronenkov, V. Ural State Technical University, Ekaterinburg/RussiaBoulos, M. University of Sherbrooke, Sherbrooke/CanadaBourda, C. Metalor, Courville sur Eure/FranceBoustie, M. Ecole Nationale Supérieure de Mécanique et d'Aérot, Poitiers/FranceBoyce, B. Sandia National Laboratories, Albuquerque/USABrandl, W. University of Applied Sciences Gelsenkirchen, Gelsenkirchen/GermanyBrandt, O. Becon Technologies GmbH, Thun/SwitzerlandBrenner, E. Sulzer Metco AG (Switzerland), Wohlen/SwitzerlandBrewer, L. Sandia National Laboratories, Albuquerque/USABrodin, H. Siemens Industrial Turbomachinery, Finspång/SwedenBrousse, E. University of Limoges, Limoges/FranceBrühl, M. RWTH Aachen University, Aachen/GermanyBrune, E. PanGas, Dagmersellen/SwitzerlandBrußies, E. Technische Universität Dresden, Dresden/GermanyBuikus, K. Institute of Powder Metallurgy, Minsk/BelarusBurgess, A. Northwest Mettech Corp., North Vancouver/CanadaBurkard, H. Metallpulververtrieb GmbH, DüsseldorfBussmann, M. University of Toronto, Toronto/CanadaBuzdygar, T. Obninsk Center for Powder Spraying, Obninsk/Russia
CCampana, F. Advanced Coatings SA, Liège/BelgiumCangue, F. UFPR - Federal University of Paraná, Curitiba/BrazilCannillo, V. Università di Modena e Reggio Emilia, Modena/ItalyCano, C. Instituto de Ceramica y Vidrio (CSIC), Madrid/SpainCano, I. Thermal Spray Centre (CPT), Barcelona/SpainCapra, A. UFPR - Federal University of Paraná, Curitiba/BrazilCarius, R. Forschungszentrum Jülich GmbH, Jülich/GermanyCaron, N. CEA Le Ripault, Monts/FranceCetegen, B. University of Connecticut, Storrs/USACevher, O. Sakarya University, Sakarya/TurkeyChagnon, P. Rhodia Recherches & Technologies, Saint Fons/FranceChan, K. The Hongkong Polytechnic University, Hong Kong/Hong KongChandler, P. LERMPS, University of Technology of Belfort-Montbé, Belfort/FranceChandler, P. CA Technology Ltd., West Wellow/United KingdomChandra, S. University of Toronto, Toronto/CanadaChartier, T. University of Limoges, Limoges/FranceChazelas, C. University of Limoges, Limoges/France
50
Authors, Session Chairs, Co-Authors
Chen, D. University of Connecticut, Storrs/USAChen, L. University of Toronto, Toronto/CanadaChen, W. National Research Council of Canada, Ottawa/CanadaCherigui, M. LERMPS, University of Technology of Belfort-Montbé, Belfort/FranceChivavibul, P. National Institute for Materials Science, Ibaraki/JapanChraska, T. Institute of Plasma Physics, Praha/Czech RepublicChristo, A. UFPR - Federal University of Paraná, Curitiba/BrazilChristoulis, D. Ecole des Mines de Paris, Evry/FranceChromik, R. McGill University, Montreal/CanadaChumak, O. Institute of Plasma Physics, Praha/Czech RepublicCinca, N. Thermal Spray Centre (CPT), Barcelona/SpainCipitria, A. University of Cambridge, Cambridge/United KingdomClyne, T. University of Cambridge, Cambridge/United KingdomCoddet, C. LERMPS, University of Technology of Belfort-Montbé, Belfort/FranceColmen, J. Center for Thermal Spray Research / SUNY Stony Brook, Stony Brook/USAColmenares-Angulo, J. Center for Thermal Spray Research / SUNY Stony Brook, Stony Brook/USACoolegem, G. C-Cube Corrosion & Coating Control, Delft/The NetherlandsCosta, P. Central University of Venezuela, Caracas/VenezuelaCostil, S. LERMPS, University of Technology of Belfort-Montbé, Belfort/FranceCoudert, J. University of Limoges, Limoges/FranceCoyle, T. University of Toronto, Toronto/CanadaCtibor, P. Institute of Plasma Physics, Praha/Czech RepublicCunha, A. da University of Dortmund, Dortmund/Germany
DDamani, R. Sulzer Innotec, Winterthur/SwitzerlandDaniels, W. Flame Spray Technologies bv, Duiven/The NetherlandsDanlos, Y. LERMPS, University of Technology of Belfort-Montbé, Belfort/FranceDarut, J. University of Limoges, Limoges/FranceDebionne, T. Nitrocision Europe SA, Luxembourg/LuxembourgDeng, C. Guangzhou Research Institute of Non-Ferrous Metals, Guangzhou/P.R. ChinaDeng, C. Guangzhou Research Institute of Non-Ferrous Metals, Guangzhou/P.R. ChinaDenoirjean, A. University of Limoges, Limoges/FranceDeska, D. Fraunhofer Institute for Ceramic Technologies and Systems, Dresden/GermanyDeuerler, F. University of Wuppertal, Wuppertal/GermanyDezert, D. Technogenia SA, Saint-Jorioz/FranceDidden, R. CZL Tilburg bv, Tilburg/The NetherlandsDikici, B. Yuzuncu Yil University, Ercis-Van/TurkeyDing, C. Shanghai Institute of Ceramics, Chinese Academy of Science, Shanghai/P.R. ChinaDingyong, H. College of Materials Science and Engineering, Beijing/P.R. ChinaDolatabadi, A. Concordia University, Montreal/CanadaDolles, M. Technical University of Ilmenau, Ilmenau/GermanyDongmo, E. University of Stuttgart, Stuttgart/GermanyDorfman, M. Sulzer Metco (US) Inc., Westbury/USADöring, J. TeroLab Surface GmbH, Langenfeld/DDoroshenko, L. E.O. Paton Electric Welding Institute, Kiev/UkraineDosta, S. Thermal Spray Center (CPT), Barcelona /SpainDoyle, C. University of Auckland, Auckland/New ZealandDrescher, V. Technical University of Ilmenau, Ilmenau/GermanyDrößler, B. Leibniz University, Garbsen/GermanyDrozda, F. Multibras, Joinville/BrazilDschung, F. Universität der Bundeswehr, Neubiberg/GermanyDubsky, J. Institute of Plasma Physics, Praha/Czech RepublicDucos, M. Consultant, Mornas/FranceDuda, T. ALSTOM (Switzerland) Ltd., Baden/Switzerland Dzur, B. Technical University of Ilmenau, Ilmenau/Germany
Authors, Session Chairs, Co-Authors
EEdris, H. Isfahan University of Technology, Isfahan/IranEijckenboom, R. Oak-Advanced Coating Solutions bv, Heerlen/The NetherlandsElmoursi, A. Delphi Research Labs, Midland/USAErdogan, G. Sakarya University, Sakarya/TurkeyErne, M. Leibniz University, Garbsen/GermanyErning, U. Sulzer Metco Europe GmbH, Hattersheim/GermanyErnst, F. RWTH Aachen University, Aachen/GermanyEspallargas, N. Thermal Spray Center (CPT), Barcelona /SpainEtchart-Salas, R. University of Limoges, Limoges/France
FFagoaga, I. Inasmet Tecnalia, San Sebastian/SpainFan, S. Xi’an Jiaotong University, Xi’an/P.R. ChinaFaraoun, H. LERMPS, University of Technology of Belfort-Montbé, Belfort/FranceFauchais, P. University of Limoges, Limoges/FranceFenineche, N. LERMPS, University of Technology of Belfort-Montbé, Belfort/FranceFiala, P. Sulzer Metco (Canada) Inc., Fort Saskatchewan/CanadaFilippov, M. Ural State Technical University, Ekaterinburg/RussiaFischer, A. University Duisburg-Essen, Duisburg/GermanyFischer, G. Technical University of Berlin, Berlin/GermanyFlegel, H. Daimler AG, Stuttgart/GermanyForster, G. Universität der Bundeswehr, Neubiberg/GermanyFischer, J. H.C. Starck GmbH, Goslar/GermanyFossati, A. University of Firenze, Sesto Fiorentino/ItalyFrederick, F. Electric Power Research Institute, Charlotte/USAFu, B. College of Materials Science and Engineering, Beijing/P.R. ChinaFu, Y. Dalian Maritime University, Dalian/P.R. ChinaFuchs, M. Universität der Bundeswehr, Neubiberg/GermanyFujita, S. Kyushu University, Fukuoka/JapanFukumoto, M. Toyohashi University of Technology, Toyohashi/JapanFuller, B. Delphi Research Labs, Midland/USA
GGadow, R. University of Stuttgart, Stuttgart/GermanyGandy, D. Electric Power Research Institute, Charlotte/USAGao, J. Xi’an Jiaotong University, Xi’an/P.R. ChinaGao, M. Xi’an Jiaotong University, Xi’an/P.R. ChinaGao, P. Xi’an Jiaotong University, Xi’an/P.R. ChinaGao, W. LERMPS, University of Technology of Belfort-Montbé, Belfort/FranceGao, Y. Dalian Maritime University, Dalian/P.R.ChinaGarcía, E. Instituto de Ceramica y Vidrio (CSIC), Madrid/SpainGarcía-Alonso, D. School of Mechanical & Manufacturing Engineering, Dublin/IrelandGärtner, F. Helmut Schmidt University, Hamburg/GermanyGasgnier, G. IMERYS Tableware France, Aixe-sur-Vienne/FranceGavgali, M. Ataturk University, Erzurum/TurkeyGeary, A. Metallography Consulting Services, Meriden/USAGell, M. University of Connecticut, Storrs/USAGevelber, M. Boston University, Boston/USAGhosh, O. Boston University, Boston/USAGhosh, R. Air Products & Chemicals, Inc., Allentown/USAGil, L. Universidad Nacional Experimental Politecnica, Puerto Ordaz/VenezuelaGillispie, B. Delphi Research Labs, Midland/USA
51
Authors, Session Chairs, Co-Authors
Gindrat, M. Sulzer Metco AG (Switzerland), Wohlen/SwitzerlandGiolli, C. Turbocoating SpA, Rubbiano di Solignano/ItalyGitzhofer, F. University of Sherbrooke, Sherbrooke/CanadaGolosnoy, I. University of Cambridge, Cambridge/United KingdomGolovin, A. Khristianovich Institute of Theoretical and Applied Mechanics, Novosibirsk/RussiaGorlach, I. Nelson Mandela Metropolitan University, Port Elizabeth /South AfricaGouldstone, A. Center for Thermal Spray Research / SUNY Stony Brook, Stony Brook/USAGoutier, S. University of Limoges, Limoges/FranceGranger, P. Edwards, Corbeil-Essonnes/FranceGrasme, D. OBZ Dresel & Grasme GmbH, Bad Krozingen/Germany Gray, S. Cranfield University, Cranfield/United KingdomGregoire, J. German Aerospace Center, Stuttgart/GermanyGries, B. H.C. Starck GmbH, Goslar/GermanyGrimaud, A. University of Limoges, Limoges/FranceGrimenstein, L. Nation Coating Systems, Inc., Franklin/USAGross, K. University of Melbourne, Melbourne/AustraliaGrund, T. Chemnitz University of Technology, Chemnitz/GermanyGrundmann, R. Technische Universität Dresden, Dresden/GermanyGruner, H. Medicoat AG, Mägenwil/SwitzerlandGruner, P. Medicoat AG, Mägenwil/SwitzerlandGuetta, S. Ecole des Mines de Paris, Evry/FranceGuilemany, J. Thermal Spray Center (CPT), Barcelona /SpainGuipont, V. Ecole des Mines de Paris, Evry/FranceGulec, A. Sakarya University, Sakarya/TurkeyGulizia, S. CSIRO Materials Science & Engineering, Melbourne/AustraliaGulyaev, I. Khristianovich Institute of Theoretical and Applied Mechanics, Novosibirsk/RussiaGuo, X. LERMPS, University of Technology of Belfort-Montbé, Belfort/FranceGurris, M. Institute of Applied Mathematics, Dortmund/GermanyGuru, D. University of Minnesota, Minneapolis/USA
HHaanappel, V. Forschungszentrum Jülich GmbH, Jülich/GermanyHadad, M. EMPA - Materials Science and Technology,Thun/CHHahn, M. University Duisburg-Essen, Duisburg/GermanyHall, A. Sandia National Laboratories, Albuquerque/USAHall, W. University of Southampton, Southampton/United KingdomHam, Y. Kinetic Spray Coating Laboratory, Seoul/South KoreaHamashima, K. Asahi Glass Co. Ltd., Research Center, Yokohama/JapanHanneforth, P. SpaCom LCC, Huntington/USA Hartmann, S. Rybak + Höschele rhv-Technik GmbH + Co. KG, Waiblingen/GermanyHartz, K. Leibniz University, Garbsen/GermanyHasak, T. SSI Powder Metallurgy Institute, Minsk/BelarusHasan, M. School of Mechanical & Manufacturing Engineering, Dublin/IrelandHashmi, S. School of Mechanical & Manufacturing Engineering, Dublin/IrelandHathiramani, D. MPI für Plasmaphysik, Greifswald/GermanyHe, D. Beijing University of Technology, Beijing/P. R. ChinaHeberlein, J. University of Minnesota, Minneapolis/USAHeemann, K. Department of Mechanical and Manufacturing Engineering, Melbourne/AustraliaHeinrich, P. The Linde Group, Unterschleissheim/GermanyHeiz, U. Technical University Munich, Munich/GermanyHenne, R. Böblingen/GermanyHerlaar, W. Flame Spray Technologies bv, Duiven/The NetherlandsHerrmann, M. Fraunhofer Institute for Ceramic Technologies and Systems, Dresden/GermanyHertter, M. MTU Aero Engines, München/GermanyHirano, K. Asahi-Seiren Co. Ltd, Yao, Osaka/Japan
52
Authors, Session Chairs, Co-Authors
Hirose, S. AIST, Tsukuba/JapanHirschfeld, D. New Mexico Institute of Mining and Technology, Socorro/USAHochkeppel, M. TeroLab Surface GmbH, Langenfeld/DHofmann, C. Rybak + Höschele rhv-Technik GmbH + Co. KG, Waiblingen/GermanyHöll, H. Cold Gas Technology GmbH, Ampfing/GermanyHoldik, K. Daimler AG, Ulm/GermanyHong, R. Guangzhou Research Institute of Non-Ferrous Metals, Guangzhou/P.R. ChinaHoshiyama, Y. Materials and Bioengineering, Osaka/JapanHosono, T. Shinshu University, Nagano/JapanHospach, A. Forschungszentrum Jülich GmbH, Jülich/GermanyHou, B. Chinese Academy of Science, Qingdao/P.R. ChinaHou, P. College of Materials Science and Engineering, Beijing/P.R. ChinaHoudkova, S. Skoda Research, Plzen/Czech RepublicHrabovsky, M. Institute of Plasma Physics, Praha/Czech RepublicHuang, T. China Steel Corporation, Kaohsiung/TaiwanHuang, X. TSCC Thermal Spray Committee of Chinese Surface Engineering Association,
Beijing/P.R. ChinaHuang, X. Carleton University, Ottawa/Canada Huber, R. SLV München, NL der GSI mbH, München/GermanyHuguet, C. IMERYS Tableware France, Aixe-sur-Vienne/FranceHui, R. Institute for Fuel Cell Innovation, Vancouver/CanadaHume, H. Nitrocision LLC, Idaho Falls/USAHyland, M. University of Auckland, Auckland/New Zealand
IIbe, H. Fujimi Incorporated, Gifu/JapanIbrahim, A. Farmingdale State University, Farmingdale/USAIchikawa, Y. Fracture and Reliability Research Institute, Tohok, Sendai/JapanIchimura, K. Fracture and Reliability Research Institute, Tohok, Sendai/JapanIlhan, Z. German Aerospace Center, Stuttgart/GermanyIlyuschenko, A. Institute of Powder Metallurgy, Minsk/BelarusIlyuschenko, T. Institute of Powder Metallurgy, Minsk/BelarusInoue, T. AIST, Tsukuba/JapanIrissou, E. National Research Council of Canada, Boucherville/CanadaIshikawa, Y. Asahi Glass Co. Ltd., Research Center, Yokohama/JapanIto, K. Fracture and Reliability Research Institute, Tohok, Sendai/JapanItoh, Y. Toshiba Corporation, Yokoahama/JapanIvanov, D. Belarusian State University of Informatics and Rad, Minsk/BelarusIwata, K. Toyota Technological Institute, Nagoya/Japan
JJaeggi, C. EMPA - Materials Science and Technology,Thun/CHJahedi, M. CSIRO Materials Science and Engineering, Melbourne/AustraliaJahn, S. Technical University of Berlin, Berlin/GermanyJames, B. University of Auckland, Auckland/New ZealandJarligo, M. Forschungszentrum Jülich GmbH, Jülich/GermanyJaworski, R. ENSCL, Villeneuve d'Ascq/FranceJayaganthan, R. Indian Institute of Technology Bombay, Mumbai/IndiaJeandin, M. Ecole des Mines de Paris, Evry/FranceJimenez, L. Universidad Nacional Experimental Politecnica, Puerto Ordaz/VenezuelaJeulin, D. Ecole des Mines de Paris, Evry/FranceJi, V. ICMMO, Paris/FranceJi, Y. Kinetic Spray Coating Laboratory, Seoul/South Korea
53
Authors, Session Chairs, Co-Authors
Jia, L. University of Sherbrooke, Sherbrooke/CanadaJian-Gang, X. Beijing General Research Institute of Mining & Metallurgy, Beijing/P.R. ChinaJiang, J. Beijing University of Technology, Beijing/P.R. ChinaJiang, X. Central South University, Changsha/P.R. ChinaJianmin, J. College of Materials Science and Engineering, Beijing/P.R. ChinaJohansson, S. Linköping University, Linköping/SwedenJordan, C. Fraunhofer Institute for Material and Beam Technology, Dresden/GermanyJordan, E. University of Conneticut, Storrs/USAJung, D. Research Institue of Industrial Science and Technology, Pohang/South KoreaJungklaus, H. Voith Paper Rolls, Laakirchen/Austria
KKalawrytinos, S. Pallas GmbH, Würselen/GermanyKamal, S. Indian Institute of Technology Roorkee, Roorkee/IndiaKanerva, U. VTT Technical Research Centre of Finland, Espoo/FinlandKang, K. Kinetic Spray Coating Laboratory, Seoul/South KoreaKanta, A. LERMPS, University of Technology of Belfort-Montbé, Belfort/FranceKaraali, E. Sakarya University, Sakarya/TurkeyKarger, M. Forschungszentrum Jülich GmbH, Jülich/GermanyKarpets, M. E.O. Paton Electric Welding Institute, Kiev/UkraineKarthikeyan, J. ASB Industries, Barberton/USAKashirin, A. Obninsk Center for Powder Spraying, Obninsk/RussiaKašparová, M. Skoda Research, Plzen/Czech RepublicKassner, H. Forschungszentrum Jülich GmbH, Jülich/GermanyKatanoda, H. Kagoshima University, Kagoshima/JapanKaur, M. BBSB Engineering College, Fatehgarh Sahib/IindiaKaushal, G. RIMT-Institute of Engineering and Technology, Mandi Gobind Garh/IndiaKavka, T. Institute of Plasma Physics, Praha/Czech RepublicKawakita, J. National Institute for Materials Science, Ibaraki/JapanKay, A. ASB Industries, Barberton/USAKay, C. ASB Industries, Barberton/USAKe-Li, Z. Beijing General Research Institute of Mining & Metallurgy, Beijing/P.R. ChinaKesler, O. University of Toronto, Toronto/CanadaKhan, F. Kinetic Spray Coating Laboratory, Seoul/South KoreaKhanna, A. Indian Institute of Technology, Bombay, Mumbai/IndiaKharlamov, Y. Ghulam Ishag Khan Institute of Engineering Science, Topi/PakistanKhor, M. Nanyang Technical University, Singapore/SingaporeKillinger, A. University of Stuttgart, Stuttgart/GermanyKim, E. Korea Atomic Energy Research Institute, Daejeon/South KoreaKim, H. Research Institue of Industrial Science and Technology, Pohang/South KoreaKim, J. Pusan University, Pusan/South KoreaKim, K. National Institute for Materials Science, Ibaraki/JapanKim, S. Chungnam National University, Daejeon/South KoreaKing, P. CSIRO Materials Science & Engineering, Melbourne/AustraliaKirsten, A. Carbide and Metal, C+M Warken GmbH, Immelborn/GermanyKislitsa, A. E.O. Paton Electric Welding Institute, Kiev/UkraineKitahara, S. AIST, Tsukuba/JapanKitamura, J. Fujimi Incorporated, Gifu/JapanKjellman, B. Volvo Aero Corporation, Trollhättan/SwedenKlassen, T. Helmut Schmidt University, Hamburg/GermanyKlein, D. LERMPS, University of Technology of Belfort-Montbé, Belfort/FranceKlementova, M. Institute of Inorganic Chemistry, ASCR, Rez/Czech RepublicKlinkov, S. Khristianovich Institute of Theoretical and Applied Mechanics, Novosibirsk/RussiaKlyuev, O. Obninsk Center for Powder Spraying, Obninsk/RussiaKnapp, S. Sulzer Metco OSU GmbH, Duisburg/Germany
54
Authors, Session Chairs, Co-Authors
Knepper, M. Rheinzink GmbH & Co. KG, Datteln/GermanyKnight, R. Drexel University, Philadelphia/USAKnuuttila, J. Millidyne Oy, Tampere/FinlandKo, K. Ajou University, Suwon/South KoreaKobayashi, T. Kansai University, Osaka/JapanKochubey, V. Delft University of Technology, Delft/The NetherlandsKoivuluoto, H. Tampere University of Technology, Tampere/FinlandKollinger, S. Daimler AG, Ulm/GermanyKomatsu, M. National Institute for Materials Science, Ibaraki/JapanKoo Hyun, L. Korea Institute of Materials Science, Gyeongnam/South KoreaKorchaging, M. Institute of Solid State Chemistry and Mechanochem, Novosibirsk/RussiaKorobov, Y. Ural State Technical University, Ekaterinburg/RussiaKosarev, V. Khristianovich Institute of Theoretical and Applied Mechanics, Novosibirsk/RussiaKozaki, T. Toyota Technological Institute, Nagoya/JapanKozerski, S. Wroclaw University of Technology, Wroclaw/PolandKozorez, A. Institute of Powder Metallurgy, Minsk/BelarusKraak, T. Aludra bv, Vlaardingen/The NetherlandsKrebs, B. University of Dortmund, Dortmund/GermanyKreisel, K. Sulzer Metco Component GmbH, Salzgitter/GermanyKremer, M. Helmut Schmidt University, Hamburg/GermanyKremsner, F. TeroLab Surface GmbH, Wien/AustriaKreye, H. Helmut Schmidt University, Hamburg/GermanyKrishnan, N. Columbia University, New York/USAKrömmer, W. The Linde Group, Unterschleissheim/GermanyKuhn, R. Medicoat AG, Mägenwil/SwitzerlandKulmala, M. Tampere University of Technology, Tampere/FinlandKumar, G. Sharvan Coating Services, Hyderabad/IndiaKumar, S. Kinetic Spray Coating Laboratory, Seoul/South KoreaKundas, S. International Sakharov Environmental University, Minsk/BelarusKupke, T. German Aerospace Center, Stuttgart/GermanyKuroda, S. National Institute for Materials Science, Ibaraki/JapanKuzmin, D. Institute of Applied Mathematics, Dortmund/GermanyKylmälahti, M. Tampere University of Technology, Tampere/Finland
LLadru, F. Siemens AG, Berlin/GermanyLagerbom, J. Tampere University of Technology, Tampere/FinlandLandemarre, O. LERMPS, University of Technology of Belfort-Montbé, Belfort/FranceLandes, K. Universität der Bundeswehr, Neubiberg/GermanyLange, S. Universität der Bundeswehr, Neubiberg/GermanyLanger, G. TeroLab Surface GmbH, Langenfeld/DLangner, S. Fraunhofer Institute for Material and Beam Technology, Dresden/GermanyLavaud, T. University of Limoges, Limoges/FranceLawson, K. Cranfield University, Cranfield/United KingdomLe Guen, E. Engineering National School of Limousin, Limoges/FranceLee, C. Chungnam National University, Daejeon/South KoreaLee, C. Kinetic Spray Coating Laboratory, Seoul/South KoreaLee, D. Daelim College of Technology, Anyang/South KoreaLee, G. Chungnam National University, Daejeon/South KoreaLee, H. Ajou University, Suwon/South KoreaLee, H. Chungnam National University, Daejeon/South KoreaLee, J. Korea Atomic Energy Research Institute, Daejeon/South KoreaLee, K. Korea Institute of Machinery and Materials, Changwon/SouthKoreaLee, S. Kinetic Spray Coating Laboratory, Seoul/South KoreaLegoux, J. Industrial Materials Institute, CNRC, Boucherville/Canada
55
Authors, Session Chairs, Co-Authors
Leivo, J. Millidyne Oy, Tampere/FinlandLekatou, A. University of Ioannina, Ioannina/GreeceLeoni, M. Università di Trento, Trento/ItalyLeshchinsky, E. University of Windsor, Windsor/CanadaLeshchinsky, V. University of Windsor, Windsor/CanadaLetsko, A. SSI Powder Metallurgy Institute, Minsk/BelarusLi, C. Xi’an Jiaotong University, Xi’an/P.R. ChinaLi, C. Xi’an Jiaotong University, Xi’an/P.R. ChinaLi, H. Beijing University of Technology, Beijing/P. R. ChinaLi, J. Shaanxi Key Laboratory of Friction Welding Technology, Xi'an/P.R. ChinaLi, J. Guizhou Liyang Aero-Engine Corporation, Guiyang/P.R. ChinaLi, Q. Beijing General Research Institute of Mining & Metallurgy, Beijing/P.R. ChinaLi, S. Beijing General Research Institute of Mining & Metallurgy, Beijing/P.R. ChinaLi, W. LERMPS, University of Technology of Belfort-Montbé, Belfort/FranceLi, W. Shaanxi Key Laboratory of Friction Welding Technology, Xi'an/P.R. ChinaLi, X. Beijing University of Technology, Beijing/P. R. ChinaLi, X. GRIPM Advanced Materials Co., Ltd., General Research, Beijing/P.R. ChinaLi, Y. Xi’an Jiaotong University, Xi’an/P.R. ChinaLi, Y. Xi’an Jiaotong University, Xi’an/P.R. ChinaLi, Z. Beijing Institute of Aeronautical Materials, Beijing/P.R. ChinaLi, Z. Beijing Institute of Aeronautical Materials, Beijing/P.R. ChinaLi, Z. Beijing University of Technology, Beijing/P. R. ChinaLiao, H. LERMPS, University of Technology of Belfort-Montbé, Belfort/FranceLima, C. UNIMEP - Methodist University of Piracicaba, St. Bárbara d'Oeste/BrazilLima, R. National Research Council of Canada, Boucherville/CanadaLin, F. GRIPM Advanced Materials Co. Ltd., General Research, Beijing/P.R. ChinaLiscano, S. Universidad Nacional Experimental Politecnica, Puerto Ordaz/VenezuelaLiu, F. Beijing General Research Institute of Mining & Metallurgy, Beijing/P.R. ChinaLiu, H. University of Toronto, Toronto/CanadaLiu, J. GRIPM Advanced Materials Co. Ltd., General Research, Beijing/P.R. ChinaLiu, M. Guangzhou Research Institute of Non-Ferrous Metals, Guangzhou/P.R. ChinaLiu, N. Beijing Institute of Aeronautical Materials, Beijing/P.R. ChinaLiu, Y. Shanghai Institute of Ceramics, Chinese Academy of Science, Shanghai/P.R. ChinaLooney, L. School of Mechanical & Manufacturing Engineering, Dublin/IrelandLourtie, D. Techspace Aero, Milmort/BelgiumLuding, R. Praxair-Tafa, Concord/USALuethen, V. Siemens AG, Berlin/GermanyLum, A. Boston University, Boston/USALuo, H. Shanghai Institute of Ceramics, Chinese Academy of Science, Shanghai/P.R. ChinaLuo, X. Xi’an Jiaotong University, Xi’an/P.R. ChinaLusvarghi, L. Università di Modena e Reggio Emilia, Modena/ItalyLyphout, C. University West, Trollhättan/Sweden
MMa, W. Forschungszentrum Jülich GmbH, Jülich/GermanyMa, X. Inframat Corporation, Farmington/USAMack, D. Forschungszentrum Jülich GmbH, Jülich/GermanyMacmillan, I. Praxair-Tafa, Diest/BelgiumMadi, K. Ecole des Mines de Paris, Evry/FranceMaev, R. University of Windsor, Windsor/CanadaMaeva, E. University of Windsor, Windsor/CanadaMagnani, M. São Paulo State University, Araraquara/BrazilMahesh, R. Indian Institute of Technology Roorkee, Roorkee/IndiaMaier, U. Elring Klinger AG, Dettingen/GermanyManescu, A. Polytechnic University of Marche, Ancona/ItalyMarchand, C. University of Limoges, Limoges/France
56
Authors, Session Chairs, Co-Authors
Marchand, O. LERMPS, University of Technology of Belfort-Montbé, Belfort/FranceMarginean, G. University of Applied Sciences Gelsenkirchen, Gelsenkirchen/GermanyMari, E. Center for Thermal Spray Research / SUNY Stony Brook, Stony Brook/USAMariaux, G. University of Limoges, Limoges/FranceMaric, R. Institute for Fuel Cell Innovation, Vancouver/CanadaMarkovnik, D. Belarusian State University of Informatics and Rad, Minsk/BelarusMarple, B. National Research Council of Canada, Boucherville/CanadaMarques, J. Universität der Bundeswehr, Neubiberg/GermanyMartinez, B. University of Limoges, Limoges/FranceMaruyama, T. Kansai University, Osaka/JapanMashiko, M. Toyohashi University of Technology, Toyohashi/JapanMaslani, A. Institute of Plasma Physics, Praha/Czech RepublicMatìjíèek, J. Institute of Plasma Physics, Praha/Czech RepublicMatile, O. Air Liquide CEPIA, Saint Ouen l'Aumone/FranceMatsumoto, H. Sankyo Iron & Copper Alloy Foundry Co., Ltd., Osaka/JapanMatthäus, G. Thermico GmbH & Co. KG, Dortmund/GermanyMatthews, S. Massey University, Auckland/New ZealandMauer, G. Forschungszentrum Jülich GmbH, Jülich/GermanyMazrooei, S. Isfahan University of Technology, Isfahan/IranMcCloskey, J. Sandia National Laboratories, Albuquerque/USAMcDonald, A. University of Edmonton, Edmonton/CanadaMcKechnie, T. Plasma Processes, Inc., Huntsville/USAMebrahtu, T. Air Products & Chemicals, Inc., Allentown/USAMedraj, M. Concordia University, Montreal/CanadaMelzer, A. Grillo-Werke AG, Goslar/GermanyMenuey, J. SNECMA Services, Châtellerault/FranceMenzen, R. Ibeda Sicherheitsgeräte und Gastechnik GmbH & Co. KG, Neustadt/GermanyMertens, J. Forschungszentrum Jülich GmbH, Jülich/GermanyMéthout, S. Commissariat à l'Energie Atomique, Monts/FranceMeyer, D. Chemnitz University of Technology, Chemnitz/GermanyMichlik, P. Caterpillar Inc., Peoria/USAMiguel, J. Thermal Spray Center (CPT), Barcelona /SpainMikutsky, V. Institute of Powder Metallurgy, Minsk/BelarusMiranzo, P. Instituto de Ceramica y Vidrio (CSIC), Madrid/SpainMitsuishi, K. National Institute for Materials Science, Ibaraki/JapanMiura, H. Tohoku University, Sendai/JapanMiyahara, H. Kyushu University, Fukuoka/JapanMiyake, H. Kansai University, Osaka/JapanMiyazaki, T. Kansai University, Osaka/JapanMiyazaki, T. Tohoku Univeristy, Sendai/JapanMizuno, H. Fujimi Incorporated, Gifu/JapanMochalin, V. Drexel University, Philadelphia/USAModi, A. Metallizing Equipment Co. Pvt. Ltd., Jodhpur/IndiaModi, S. Metallizing Equipment Co. Pvt. Ltd., Jodhpur/IndiaMoens, J. Medicoat AG, Mägenwil/SwitzerlandMohanty, P. University of Michigan, Dearborn/USAMöhwald, K. Leibniz University, Garbsen/GermanyMolz, R. Sulzer Metco (US) Inc., Westbury/USAMontavon, G. University of Limoges, Limoges/FranceMoon, J. Chungnam National University, Daejeon/South KoreaMoreau, C. National Research Council of Canada, Boucherville/CanadaMoreno, I. Central University of Venezuela, Caracas/VenezuelaMori, K. AIST, Tsukuba/JapanMoshref Javadi, M. Isfahan University of Technology, Isfahan/IranMostaghimi, J. University of Toronto, Toronto/CanadaMurakami, H. National Institute for Materials Science, Ibaraki/JapanMusalek, R. Institute of Plasma Physics, Praha/Czech Republic
57
Authors, Session Chairs, Co-Authors
NNa, H. Kinetic Spray Coating Laboratory, Seoul/South KoreaNakao, Y. Tohoku University, Sendai/JapanNassenstein, K. GTV Verschleiss-Schutz GmbH, Luckenbach/GermanyNaumann, T. Fraunhofer Institute for Material and Beam Technology, Dresden/GermanyNebel, J. University of Dortmund, Dortmund/GermanyNebelung, M. Fraunhofer Institute for Ceramic Technologies and Systems, Dresden/GermanyNeronov, V. Khristianovich Institute of Theoretical and Applied Mechanics, Novosibirsk/RussiaNestler, M. Sulzer Metco (US) Inc., Westbury/USANeufuss, K. Institute of Plasma Physics, Praha/Czech RepublicNiki, T. Tohoku University, Sendai/JapanNikkilä, A. Tampere University of Technology, Tampere/FinlandNing, X. Research Institue of Industrial Science and Technology, Pohang/South KoreaNogues-Delbos, E. University of Limoges, Limoges/FranceNoriega, R. Universidad Nacional Experimental Politecnica, Puerto Ordaz/VenezuelaNoster, U. ARC-Leichtmetallkompetenzzentrum Ranshofen GmbH, Ranshofen/AustriaNune, K. Sharvan Coating Services, Hyderabad/IndiaNýlen, P. University West, Trollhättan/Sweden
OObara, H. AIST, Tsukuba/JapanOberste Berghaus, J. National Research Council of Canada, Boucherville/CanadaO'dell, S. Plasma Processes, Inc., Huntsville/USAOgawa, K. Tohoku Univeristy, Sendai/JapanOgi, K. Oita National College of Technology, Oita/JapanOhliger-Volmer, A. SLV München, NL der GSI mbH, München/GermanyOhmori, A. Tocalo Co. Ltd., Akashi/JapanOki, S. Kinki University, Osaka/JapanOliveira, A. d' UFPR - Federal University of Paraná, Curitiba/BrazilOkovity, V. Institute of Powder Metallurgy, Minsk/BelarusOkumiya, M. Toyota Technological Institute, Nagoya/JapanOsendi, M. Instituto de Ceramica y Vidrio (CSIC), Madrid/SpainOstrowski, T. Thermico GmbH & Co. KG, Dortmund/GermanyOutcalt, D. University of Minnesota, Minneapolis/USA
PPaczkowski, G. Chemnitz University of Technology, Chemnitz/GermanyPanagiotopoulos, I. University of Ioannina, Ioannina/GreecePantelis, D. National Technical University of Athens, Athens/GreecePapyrin, A. Cold Spray Technology, Albuquerque/USAParco, M. Inasmet Tecnalia, San Sebastian/SpainParedes, R. UFPR - Federal University of Paraná, Curitiba/BrazilPark, J. Pusan University, Pusan/South KoreaPark, S. Hanyang University, Seoul/South KoreaParkot, D. RWTH Aachen University, Aachen/GermanyPatel, K. University of Auckland, Auckland/New ZealandPatel, N. Delphi Research Labs, Midland/USAPateyron, B. University of Limoges, Limoges/FrancePatz, O. German Aerospace Center, Stuttgart/GermanyPauchet, F. Schlumberger, Riboud Product Center, Clamart/FrancePawlowski, L. ENSCL, Villeneuve d'Ascq/FrancePenttilä, K. VTT Technical Research Centre of Finland, Espoo/Finland
58
Authors, Session Chairs, Co-Authors
Pereira, J. CEA Le Ripault, Monts/FrancePershin, L. University of Toronto, Toronto/CanadaPertuz, A. Central University of Venezuela, Caracas/VenezuelaPeterlechner, C. ARC-Leichtmetallkompetenzzentrum Ranshofen GmbH, Ranshofen/AustriaPetkovic, I. RWTH Aachen University, Aachen/GermanyPetorak, C. Purdue University, West Lafayette/USAPeyraut, F. LERMPS, University of Technology of Belfort-Montbé, Belfort/FrancePicardi, S. NanoBlox, Inc., Montgomeryville/USAPierlot, C. ENSCL, Villeneuve d'Ascq/FrancePitzer, D. Forschungszentrum Jülich GmbH, Jülich/GermanyPlanche, M. LERMPS, University of Technology of Belfort-Montbé, Belfort/FrancePokhmurska, H. Chemnitz University of Technology, Chemnitz/GermanyPolak, R. TBRP, Wien/AustriaPoluboyarov, V. Institute of Solid State Chemistry and Mechanochem, Novosibirsk/RussiaPowell, N. Delphi Research Labs, Midland/USAPrakash, S. Indian Institute of Technology Roorkee, Roorkee/IndiaPrato, M. Central University of Venezuela, Caracas/VenezuelaPuchi, E. Central University of Venezuela, Caracas/VenezuelaPuerta, D. IMR Test Labs, Lansing/USAPukasiewicz, A. UFPR - Federal University of Paraná, Curitiba/BrazilPutzier, J. Putzier Oberflächentechnik GmbH, Leichlingen/Germany
QQiu, T. University of Auckland, Auckland/New Zealand
RRacek, O. Caterpillar, Inc., Peoria/USARampon, R. LERMPS, University of Technology of Belfort-Montbé, Belfort/FranceRat, V. University of Limoges, Limoges/FranceRauch, J. University of Stuttgart, Stuttgat/GermanyRayudu, G. Sharvan Coating Services, Hyderabad/IndiaRayudu, G. Indian Institute of Technology Bombay, Mumbai/IndiaRech, S. Civen, Marghera Venice/ItalyRefke, A. Sulzer Metco AG (Switzerland), Wohlen/SwitzerlandReich, S. Technical University of Berlin, Berlin/GermanyReiners, G. Bundesanstalt für Materialforschung und -prüfung (BAM), Berlin/GermanyReisel, G. Sulzer Metco Woka GmbH, Barchfeld/GermanyRen, X. Beijing General Research Institute of Mining & Metallurgy, Beijing/P.R. ChinaRen, Z. Xi’an Jiaotong University, Xi’an/P.R. ChinaRezaeian, A. McGill University, Montreal/CanadaRichard, F. Air Liquide CTAS, Saint Ouen l'Aumone/FranceRichards, G. AO Research Institute, Davos/SwitzerlandRichardt, K. RWTH Aachen University, Aachen/GermanyRichter, P. Cold Gas Technology GmbH, Ampfing/GermanyRizzi, G. Turbocoating SpA, Rubbiano di Solignano/ItalyRodijnen, F. van Sulzer Metco OSU GmbH, Duisburg/GermanyRodriguez, M. Central University of Venezuela, Caracas/VenezuelaRoemer, T. Ktech Corporation, Albuquerque/USARolland, G. Ecole des Mines de Paris, Evry/FranceRosso, M. Politecnico di Torino,Torino/ItalyRoth, G. German Aerospace Center, Stuttgart/GermanyRoth, J. Inframat Corporation, Farmington/USARubino, G. Università di Roma Tor Vergata, Roma/Italy
59
Authors, Session Chairs, Co-Authors
Ruff, H. Rybak + Höschele rhv-Technik GmbH + Co. KG, Waiblingen/GermanyRunkel, M. Ibeda Sicherheitsgeräte und Gastechnik GmbH & Co. KG, Neustadt/GermanyRupprecht, C. Chemnitz University of Technology, Chemnitz/GermanyRusso, D. Turbocoating SpA, Rubbiano di Solignano/ItalyRuusuvuori, K. VTT Technical Research Centre of Finland, Espoo/FinlandRyabinin, A. Institute of Mathematics and Mechanics, St. Petersburg/Russia
SSaaro, S. Fraunhofer Institute for Material and Beam Technology, Dresden/GermanySaber-Samandari , S. Department of Mechanical and Manufacturing Engineering, Melbourne/AustraliaSaheet, H. BBSB Engineering College, Fatehgarh Sahib/IndiaSakaki, K. Shinshu University, Nagano/JapanSakata, K. Fujikikosan Corporation,Kitakyushu/JapanSakoda, N. Kurashiki Boring Kiko Co. Ltd., Asakuchi-City/JapanSalehi, M. Isfahan University of Technology, Isfahan/IranSalem, H. American University in Cairo, Cairo/EgyptSalimi, M. Isfahan University of Technology, Isfahan/IranSalimijazi, H. Centre for Advanced Coating Technologies (CACT), Toronto/CanadaSamadi, H. Centre for Advanced Coating Technologies (CACT), Toronto/CanadaSamareh, B. Concordia University, Montreal/CanadaSampath, S. Center for Thermal Spray Research / SUNY Stony Brook, Stony Brook/USASarafoglou, C. National Technical University of Athens, Athens/GreeceSaral, U. Sakarya University, Sakarya/TurkeySato, K. Fujimi Incorporated, Gifu/JapanSatoh, K. Toyohashi University of Technology, Toyohashi/JapanScardi, P. Università di Trento, Trento/ItalyScheer, C. Leibniz University, Garbsen/GermanySchein, J. Universität der Bundeswehr, Neubiberg/GermanySchiller, G. German Aerospace Center, Stuttgart/GermanySchläfer, T. RWTH Aachen University, Aachen/GermanySchlesinger, M. University of Windsor, Windsor/CanadaSchmid, R. Sulzer Metco (US) Inc., Westbury/USASchmidt, T. Helmut Schmidt University, Hamburg/GermanySchneider, G. German Aerospace Center, Stuttgart/GermanySchopp, E. OBZ Dresel & Grasme GmbH, Bad Krozingen/GermanySchreiber, F. Durum Verschleiss-Schutz GmbH, Willich/GermanySchreiber, M. Funktionswerkstoffe Forschung & Entwicklung GmbH, Eisenstadt/AustriaSchuberth, S. Chemnitz University of Technology, Chemnitz/GermanySchürholt, G. Saint-Gobain Ceramic Materials GmbH, Weilerswist/GermanySchulz, P. ARC-Leichtmetallkompetenzzentrum Ranshofen GmbH, Ranshofen/AustriaSchwenk, A. GTV Verschleiss-Schutz GmbH, Luckenbach/GermanyScrivani, A. Turbocoating SpA, Rubbiano di Solignano/ItalySeichepine, J. LERMPS, University of Technology of Belfort-Montbé, Belfort/FranceSellars, C. Rolls-Royce plc, Derby/United KingdomSeo, D. Tohoku University, Sendai/JapanSeong, B. Research Institue of Industrial Science and Technology, Pohang/South KoreaSert, Y. Sakarya University, Sakarya/TurkeyShadbolt, N. University of Southampton, Southampton/United KingdomShan, Y. School of Power Engineering, University of Shanghai, Shanghai/P.R. ChinaSharma, A. Center for Thermal Spray Research / SUNY Stony Brook, Stony Brook/USASheedy, P. Sulzer Metco (US) Inc., Westbury/USAShevtsov, A. Institute of Powder Metallurgy, Minsk/BelarusShimizu, Y. Shinshu University, Nagano/JapanShinkai, S. DENSO Corporation, Nishio City/JapanShinoda, K. National Institute for Materials Science, Ibaraki/Japan
60
Authors, Session Chairs, Co-Authors
Shkodkin, A. Obninsk Center for Powder Spraying, Obninsk/RussiaShmyreva, T. Praxair Surface Technologies, Inc., Indianapolis/USAShoji, T. Tohoku University, Sendai/JapanShtertser, A. Lavrentyev Institute of Hydrodynamics SB RAS, Novosibirsk/RussiaShu, Y. University of Michigan, Dearborn/USASiegmann, S. Nova-Werke AG, Effretikon/SwitzerlandSilber, M. University of Stuttgart, Stuttgart/GermanySilvonen, J. Millidyne Oy, Tampere/FinlandSirak, Y. G.V. Karpenko Physico-Mechanical Institute, Lviv/UkraineSloof, W. Delft University of Technology, Delft/The NetherlandsSmirnov, A. Khristianovich Institute of Theoretical and Applied Mechanics, Novosibirsk/RussiaSmith, B. Utah State University, Logan/USASmurov, I. Ecole Nationale d'Ingénieurs de Saint-Etienne, Saint-Etienne/FranceSodeoka, S. National Institute for Materials Science, Ibaraki/JapanSokolov, D. LERMPS, University of Technology of Belfort-Montbé, Belfort/FranceSolonenko, O. Khristianovich Institute of Theoretical and Applied Mechanics, Novosibirsk/RussiaSoltani, R. Datec Coating Corporation, Mississauga/CanadaSong, Y. Hankuk Aviation University, Koyang/South KoreaSonoya, K. AIST, Tsukuba/JapanSova, A. Khristianovich Institute of Theoretical and Applied Mechanics, Novosibirsk/RussiaSpaulding, M. Sulzer Metco (US) Inc., Westbury/USASpinhirne, N. New Mexico Institute of Mining and Technology, Socorro/USASporer, D. Sulzer Metco (Canada) Inc., Fort Saskatchewan/CanadaSrinivasan, V. Center for Thermal Spray Research / SUNY Stony Brook, Stony Brook/USAStahr, C. Fraunhofer Institute for Material and Beam Technology, Dresden/GermanyStaia, M. Central University of Venezuela, Caracas/VenezuelaStanisic, J. University of Michigan, Dearborn/USAStier, O. Siemens AG, Berlin/GermanyStiller, J. Technische Universität Dresden, Dresden/GermanyStokes, J. School of Mechanical & Manufacturing Engineering, Dublin/IrelandStöver, D. Forschungszentrum Jülich GmbH, Jülich/GermanyStoyanova, V. Civen, Marghera Venice/ItalyStravato, A. Università degli Studi Roma Tre, Roma/ItalyStrich, W. The Linde Group / Linde Gas, Hamburg/GermanyStringer, S. Air Products & Chemicals, Inc., Allentown/USAStudent, M. G.V. Karpenko Physico-Mechanical Institute, Lviv/UkraineStuke, A. Forschungszentrum Jülich GmbH, Jülich/GermanySuegama, P. São Paulo State University, Araraquara/BrazilSuhonen, T. VTT Technical Research Centre of Finland, Espoo/FinlandSuyama, S. Toshiba Corporation, Yokoahama/JapanSuzuki, M. AIST, Tsukuba/JapanSuzuki, S. Tokyo Institute of Technology, Tokyo/JapanSyed, A. German Aerospace Center, Stuttgart/GermanySzomszor, M. University of Southampton, Southampton/United Kingdom
TTajiri, T. Kurashiki Boring Kiko Co. Ltd., Asakuchi-City/JapanTakabatake, T. Tocalo Co. Ltd., Akashi/JapanTakahata, M. Shinshu University, Nagano City/JapanTakano, E. UFPR - Federal University of Paraná, Curitiba/BrazilTakeda, K. Shinshu University, Nagano City/JapanTakehara, K. Kinki University, Osaka/JapanTakeuchi, J. Tocalo Co. Ltd., Akashi/JapanTalaka, T. SSI Powder Metallurgy Institute, Minsk/Belarus
61
Authors, Session Chairs, Co-Authors
Tang, Z. Northwest Mettech Corp., North Vancouver/CanadaTani, K. Tocalo Co. Ltd., Akashi/JapanTao, S. Shanghai Institute of Ceramics, Chinese Academy of Science, Shanghai/P.R. ChinaTao, Y. School of Materials Science and Engineering, Beijing/P.R. ChinaTarasi, F. Concordia University, Montreal/CanadaTawada, S. Fujimi Incorporated, Gifu/JapanTeicholz, M. University of Connecticut, Storrs/USATekmen, C. Toyota Technological Institute, Nagoya/JapanTerada, H. Toyohashi University of Technology, Toyohashi/JapanTerzi, T. Sakarya University, Sakarya/TurkeyThayer, M. Air Products & Chemicals Inc., Allentown/USATheophile, E. Universität der Bundeswehr, Neubiberg/GermanyThiele, S. Fraunhofer Institute for Ceramic Technologies and Systems, Dresden/GermanyThivillon, L. Ecole Nationale d'Ingénieurs de Saint-Etienne, Saint-Etienne/FranceTillmann, W. University of Dortmund, Dortmund/GermanyTingaud, O. University of Limoges, Limoges/FranceToma, F. Fraunhofer Institute for Material and Beam Technology, Dresden/GermanyToplan, H. Sakarya University, Sakarya/TurkeyToplan, N. Sakarya University, Sakarya/TurkeyTorrell, M. Thermal Spray Centre (CPT), Barcelona/SpainTran, A. University of Auckland, Auckland/New ZealandTriantou, K. National Technical University of Athens, Athens/GreeceTrice, R. Purdue University, West Lafayette/USATricoire, A. Volvo Aero Corporation, Trollhättan/SwedenTsunekawa, Y. Toyota Technological Institute, Nagoya/JapanTunik, A. E.O. Paton Electric Welding Institute, Kiev/UkraineTurbil, M. Politecnico di Torino, Torino/ItalyTurek, S. Institute of Applied Mathematics, Dortmund/GermanyTurk, A. Sakarya University, Sakarya/TurkeyTurunen, E. VTT Technical Research Centre of Finland, Espoo/FinlandTuurna, S. VTT Technical Research Centre of Finland, Espoo/Finland
UUhlenwinkel, V. Institut für Werkstofftechnik, Bremen/GermanyUlianitsky, V. Lavrentyev Institute of Hydrodynamics, Novosibirsk/RussiaUlrich, H. DutchAero bv, Eindhoven/The NertherlandsUnger, R. Polymet Corporation, Cincinnati/USAUnterstenwesten, W. The Linde Group / Linde Gas, Düsseldorf/GermanyUrrea, D. Sandia National Laboratories, Albuquerque/USAUstel, F. Sakarya University, Sakarya/Turkey
VValarezo, A. Center for Thermal Spray Research / SUNY Stony Brook, Stony Brook/USAVanHout, M. Boston University, Boston/USAVanvolsem, M. Volvo Powetrain, St. Priest/FranceVaquero, C. Inasmet Tecnalia, San Sebastian/SpainVardavoulias, M. Pyrogenesis SA, Lavrion/GreeceVardelle, A. University of Limoges, Limoges/FranceVardelle, M. University of Limoges, Limoges/FranceVaris, T. VTT Technical Research Centre of Finland, Espoo/FinlandVaßen, R. Forschungszentrum Jülich GmbH, Jülich/GermanyVattiat, B. Cyber Materials, Boston/USAVaz, D. UFPR - Federal University of Paraná, Curitiba/Brazil
62
Authors, Session Chairs, Co-Authors
Vazdirvanidis, A. Hellenic Centre for Metal Research, Athens/GreeceVerdy, C. LERMPS, University of Technology of Belfort-Montbé, Belfort/FranceVerpoort, C. Ford Research Center Aachen GmbH, Aachen/GermanyVezzù, S. Civen, Marghera Venice/ItalyVincenzi, L. Università di Bologna, Bologna/ItalyVinke, I. Forschungszentrum Jülich GmbH, Jülich/GermanyVogli, E. University of Dortmund, Dortmund/GermanyVojnarovitch, S. E.O. Paton Electric Welding Institute, Kiev/UkraineVorobev, A. University of Michigan, Dearborn/USAVoyer, J. ARC-Leichtmetallkompetenzzentrum Ranshofen GmbH, Ranshofen/AustriaVucko, F. LERMPS, University of Technology of Belfort-Montbé, Belfort/FranceVuoristo, P. Tampere University of Technology, Tampere/Finland
WWada, H. Toyohashi University of Technology, Toyohashi/JapanWaldbillig, D. University of British Columbia, Vancouver/CanadaWang, H. Xi’an Jiaotong University, Xi’an/P.R. ChinaWang, H. Xi’an Jiaotong University, Xi’an/P.R. ChinaWang, H. Chinese Academy of Science, Qingdao/P.R. ChinaWang, H. Beijing General Research Institute of Mining & Metallurgy, Beijing/P.R. ChinaWang, J. State Key Laboratory for Marine Corrosion and Protection, Qingdao/P.R. ChinaWang, L. GRIPM Advanced Materials Co. Ltd., General Research, Beijing/P.R. ChinaWang, L. Xi’an Hi-Tech Research Institute, Xi’an/P.R. ChinaWang, M. Xi’an Jiaotong University, Xi’an/P.R. ChinaWang, S. Technical University of Ilmenau, Ilmenau/GermanyWang, X. Xi’an Jiaotong University, Xi’an/P.R. ChinaWang, Y. University of Toronto, Toronto/CanadaWang, Y. Xi’an Jiaotong University, Xi’an/P.R. ChinaWank, A. GTV Verschleiss-Schutz GmbH, Luckenbach/GermanyWarda, T. RWTH Aachen University, Aachen/GermanyWarnecke, R. Nitrocision LLC, Idaho Falls/USAWasserman, C. TeroLab Surface Group SA, Lausanne/Switzerland Watanabe, M. National Institute for Materials Science, Ibaraki/JapanWeinert, H. Metal Forming Institute, Poznan/PolandWeisheit, A. Fraunhofer Institute for Laser Technology, Aachen/GermanyWeissenfels, G. Ibeda Sicherheitsgeräte und Gastechnik GmbH & Co. KG, Neustadt/GermanyWenzelburger, M. University of Stuttgart, Stuttgart/GermanyWesemann, J. Ford Research Center Aachen GmbH, Aachen/GermanyWielage, B. Chemnitz University of Technology, Chemnitz/GermanyWieling, R. Icotec AG, Altsätten/SwitzerlandWigren, J. Volvo Aero Corporation, Trollhättan/SwedenWilden, J. Technical University of Berlin, Berlin/GermanyWilliamson, R. Sandia National Laboratories, Albuquerque/USAWilson, S. Sulzer Innotec AG, Winterthur/SwitzerlandWinkler, R. SLV Duisburg, NL der GSI mbH, Duisburg/GermanyWithy, B. University of Auckland, Auckland/New ZealandWittmann-Ténèze, K. CEA Le Ripault, Monts/FranceWonderen, M. van KLM Royal Dutch Airlines, Schiphol/The NetherlandsWroblewski, D. Boston University, Boston/USAWu, C. China Academy of Launch Vehicle Technology Research, Beijing/P.R. ChinaWu, S. Suzhou Nuclear Power Research Institute, Suzhou/P.R. ChinaWu, T. University of Toronto, Toronto/CanadaWu, Y. Beijing University of Technology, Beijing/P. R. China
63
Authors, Session Chairs, Co-Authors
XXi, Y. Xi’an Jiaotong University, Xi’an/P.R. ChinaXian-Jing, R. Beijing General Research Institute of Mining & Metallurgy, Beijing/P.R. ChinaXing, Y. Xi’an Jiaotong University, Xi’an/P.R. ChinaXiong, Y. Kinetic Spray Coating Laboratory, Seoul/South KoreaXu, W. Beijing Institute of Aeronautical Materials, Beijing/P.R. China
YYamada, M. Toyohashi University of Technology, Toyohashi/JapanYamazaki, Y. Niigata Institute of Technology, Kashiwazaki/JapanYan, S. GRIPM Advanced Materials Co. Ltd., General Research, Beijing/P.R. ChinaYang, G. Xi’an Jiaotong University, Xi’an/P.R. ChinaYang, H. Xi’an Hi-Tech Research Institute, Xi’an/P.R. ChinaYang, W. Beijing General Research Institute of Mining & Metallurgy, Beijing/P.R. ChinaYang, W. Commonwealth Scientific and Industrial Research Or, Melbourne/AustraliaYang, Y. Insititute of Materials Science and Engineering, Taipei/TaiwanYang, Z. GRIPM Advanced Materials Co. Ltd., General Research, Beijing/P.R. ChinaYe, F. School of Materials Science & Engineering, Tianjin/P.R. ChinaYi, S. Kyungpook National University, Taegu/South KoreaYi, S. POSCO, Pohang/South KoreaYilmaz, F. Sakarya University, Sakarya/TurkeyYin, Z. Shanghai Institute of Ceramics, Chinese Academy of Science, Shanghai/P.R. ChinaYoon, S. Kinetic Spray Coating Laboratory, Seoul/South KoreaYoshida, T. Niigata Institute of Technology, Kashiwazaki/JapanYu, Y. Beijing General Research Institute of Mining & Metallurgy, Beijing/P.R. ChinaYuan, H. Beijing Institute of Aeronautical Materials, Beijing/P.R. ChinaYue, S. McGill University, Montreal/CanadaYueguang, Y. Beijing General Research Institute of Mining & Metallurgy, Beijing/P.R. ChinaYusek, E. Sakarya University, Sakarya/Turkey
ZZahálka, F. Skoda Research, Plzen/Czech RepublicZahiri, S. CSIRO Materials Science and Engineering, Melbourne/AustraliaZaroulias, A. Pyrogenesis SA, Lavrion/GreeceZeng, K. Beijing General Research Institute of Mining & Metallurgy, Beijing/P.R. ChinaZeng, K. Beijing General Research Institute of Mining & Metallurgy, Beijing/P.R. ChinaZeng, Z. Kurashiki Boring Kiko Co. Ltd., Asakuchi-City/JapanZernitz, H. DIN e.V., Berlin/GermanyZhang, C. LERMPS, University of Technology of Belfort-Montbé, Belfort/FranceZhang, G. Beijing Institute of Aeronautical Materials, Beijing/P.R. ChinaZhang, J. GRIPM Advanced Materials Co. Ltd., General Research, Beijing/P.R. ChinaZhang, J. Shenyang Liming Aero-Engine Group Corporation, Shenyang/P.R. ChinaZhang, Q. Xi’an Jiaotong University, Xi’an/P.R. ChinaZhang, S. Xi’an Jiaotong University, Xi’an/P.R. ChinaZhang, S. Xi’an Jiaotong University, Xi’an/P.R. ChinaZhang, Y. Beijing Institute of Aeronautical Materials, Beijing/P.R. ChinaZhao, L. RWTH Aachen University, Aachen/GermanyZhao, Q. Beijing University of Technology, Beijing/P.R. ChinaZhao, X. Beijing General Research Institute of Mining & Metallurgy, Beijing/P.R. ChinaZhao, Y. Beijing General Research Institute of Mining & Metallurgy, Beijing/P.R. ChinaZhao, Z. Delphi Research Labs, Midland/USA
64
Authors, Session Chairs, Co-Authors
Zhou, F. Dalian Maritime University, Dalian/P.R. ChinaZhou, K. Guangzhou Research Institute of Non-Ferrous Metals, Guangzhou/P.R. ChinaZhou, X. Shanghai Institute of Ceramics, Chinese Academy of Science, Shanghai/P.R. ChinaZierhut, J. Universität der Bundeswehr, Neubiberg/GermanyZikanov, O. University of Michigan, Dearborn/USAZimmermann, S. H.C. Starck GmbH, Goslar/GermanyZimmermann, S. Universität der Bundeswehr, Neubiberg/GermanyZlobin, S. Lavrentyev Institute of Hydrodynamics SB RAS, Novosibirsk/RussiaZois, D. University of Ioannina, Ioannina/GreeceZórawski, W. Kielce University of Technology, Kielce/PolandZurecki, Z. Air Products & Chemicals, Inc., Allentown/USAZwetsloot, M. Flame Spray Technologies bv, Duiven/The NetherlandsZwick, J. RWTH Aachen University, Aachen/Germany
65
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HOTEL RESERVATION FORM INTERNATIONAL THERMAL SPRAY CONFERENCE 2008
2 – 4 JUNE 2008 MAASTRICHT EXHIBITION & CONGRESS CENTRE
Please fill in this form (one room per reservation form) and return it to:
Maastricht Booking Service Telephone : +31-(0)43-3838361 P.O. Box 1630 Telefax : +31-(0)43-3838309 6201 BP MAASTRICHT E-mail : [email protected] Personal details O Mrs. O Mr. Surname : Initials: Company : Mailing address : Postal Code : City: Country : Telephone : Telefax: E-mail : Hotel rooms Date of arrival : day June 2008 Date of departure : day June 2008 O double room, single occupancy O double room, double occupancy
Hotel Price ( €) Single room
Price (€) Double room
Breakfast (€) per person
Location
NH Maastricht (standard rooms)
157,00 175,00 Including MECC
NH Maastricht (superior rooms)
177,00 195,00 Including MECC
NH Maastricht (deluxe rooms)
197,00 215,00 Including MECC
Hotel de l’Empereur (comfort rooms)
146,50 174,00 Including City Centre
Hotel de l’Empereur (deluxe rooms)
165,50 193,00 Including City Centre
Novotel Maastricht 142,50 170,00 Including Free shuttle bus
Bastion Hotel Maastricht 122,00 155,00 Including City Centre
Hotel Randwyck 86,75 110,00 Including MECC
All rooms are equipped with shower or bath and toilet. Prices are including breakfast and excluding city tax. Price level 2008. Prices for city tax will increase for 2008! Hotel 1st choice: Hotel 2nd choice: Remarks:
Hotel deposit One of the following guarantees is required: Swift transfer: Payment of the amount of the first night to bank account 57.55.85.692 of
the ABN-AMRO Bank Maastricht, the Netherlands, in the name of Maastricht Booking Service ref. MECC Maastricht BV. Please mention above account number clearly. Please included name of participant, address and attendance ID.
Credit card guarantee. Please include the following information. The credit card will only be
charged in case of cancellation or no-show. O American Express O Eurocard/Mastercard O Diners Club O Visa Card O Company Card O Private Card In the name of : Company name: Card number : Expiry date : CVC Code* :
* Only necessary by Euro/Mastercard and Visa card (Last 3 digits at the back of the credit card) Signature Cardholder: Payment may only be made in Euro’s, free of bankcharges. In the event of bank charges, € 9,50 will be deducted from your hotel deposit. After receipt of your payment/credit card guarantee, the required accommodation will be booked and a voucher will be sent to you. Any deposit will be deducted from your hotel bill when you trade in the voucher at the hotel reception desk. General terms and conditions: Cancellations/changes will only be accepted by Maastricht Booking Service in writing. The cancellation policy is in conformity with the Uniform Hotel Conditions (UVH) and
applicable on all reservations. Cancelled rooms, for which no cancellation costs are invoiced by the hotel(s), will be
charged with € 35,00 administration costs. If you do not check-in on the above mentioned arrival date, without written notification,
your room will automatically be cancelled for the rest of the period. The room will become subject to cancellation charges.
When checking out before the confirmed departure date, the hotel is entitled to charge an early departure fee.
Maastricht Booking Service reserves the right to book you into a similar hotel, in case the requested hotel is fully booked.
Refunds will be dealt with after the conference.
Date: Signature:
MasterCard
* Only necessary by MasterCard and Visa card (Last 3 digits at the back of the credit card)
Reg
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Adv
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Reg
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Dea
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4, 2
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Gra
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* Fo
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on-R
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tran
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224
(incl
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VAT
)**
One
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€ 2
0 (in
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AT, a
vaila
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-site
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Exp
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17
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South Hall
1413
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North Hall
5
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West Hall
7
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Universiteitssing
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JosephBechlaan
Endepolsdomein
Itersondom
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JohanWillemBeyenlaan
Buslane
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Paul-HenriSpaaklaan
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Centre
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Universiteitssingel
Expo FoyerCatering
Congress Centre
Euro Business Centre
ForumPassage
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P1
ForumPassage
0m
50mScale
NH Maastricht Hotel
4 Maastricht Passage
ForumForum
Main-Entrance
Hotel
ITSC 2008Location