core research lab remote tour(exhibition)

5(Wed.)~7(Fri.) October 2016RITZ-CARLTON HOTEL, SEOUL, KOREA

www.icmte.org

The 5th International Conference of Manufacturing Technology Engineers

www.cmes.org

Core Research Lab Remote Tour(Exhibition)

International Conference of Manufacturing Technology Engineers 2016

Contents

• Core Research Lab Remote Tour(Exhibition)

� 01. Korea Additive Manufacturing Innovation Center, KITECH ······································ 1

� 02. MIRAE TECH CO., LTD. ································································································ 2

� 03. Small Wind Turbines Optimization Engineering Technology Surpport Center ········· 3

and Department of Wind Turbine Engineering Advanced Manpower,

Kangwon National University

� 04. Department of Laser & Electron Beam Application, KIMM ······································· 4

� 05. Micro Nano Bio Systems Laboratory, Kangwon National University ······················ 5

� 06. WOONAM IND. CO., LTD. ···························································································· 6

� 07. Seoul National University ······························································································· 7

� 08. SENTROL ························································································································ 8

� 09. Doosan Machine Tools ·································································································· 9

� 10. Tong-il Electronic Ind. Co., Ltd. ·················································································· 10

� 11. Center for Advanced Materials Machining System, KITECH ································· 11

� 12. Sungkyunkwan University ··························································································· 12

� 13. Department of Printed Electronics, KIMM ································································· 13

� 14. HaeJinSys Inc. ·············································································································· 14

� 15. Project on Nano-Micro Injection Molding/Packaging, KIMM ·································· 15

� 16. Ajou University ·············································································································· 16

� 17. Department of Ultra-Precision Machines and Systems : ········································ 17

Mobile Machining System, KIMM

� 18. Department of Ultra precision Machines and Systems, KIMM ······························· 18

� 19. SoFDesign ····················································································································· 19


• "Core Research Lab Remote Tour" Booth Layout


• "Core Research Lab Remote Tour" List

N0. Organization Laboratory

01 Korea Institute of Industrial Technology Korea Additive Manufacturing Innovation Center

02 Korea Institute of Industrial Technology Korea Additive Manufacturing Innovation Center

03 MIRAE TECH CO., LTD. Laboratory

04 Kangwon National University Small wind turbines optimization engineering

technology surpport center and department of wind

turbine engineering advanced manpower

05 Korea Institute of Machinery and Materials Department of Laser & Electron Beam Application

06 Korea Institute of Machinery and Materials Department of Laser & Electron Beam Application

07 Kangwon National University Micro Nano Bio Systems laboratory

08 WOONAM IND. CO., LTD. Tech. Sales Dept.

09 Seoul National University Innovative Design and Integrated Manufacturing Lab.

10 SENTROL Sales

11 Doosan Machine Tools Advanced Machine Tool Technology Team

12 Tong-il Electronic Ind. Co., Ltd. Research and Development Center

13 Korea Institute of Industrial Technology Center for Advanced Materials Machining System

14 Sungkyunkwan University Sustainable Design and Manufacturing Laboratory

15 Korea Institute of Machinery and Materials Department of Printed Electronics

16 HaeJinSys Inc. Research center

17 Korea Institute of Machinery and Materials Project on Nano-Micro Injection Molding/Packaging

18 Ajou University Intelligent Multiscale Design & Processing Lab.

19 Korea Institute of Machinery and Materials Department of Ultra-Precision Machines and Systems

: Mobile Machining System

20 Korea Institute of Machinery and Materials Department of Ultra precision Machines and Systems

21 SoFDesign Design & Manufacturing Team

1

� Affiliation : Korea Institute of Industrial Technology (KITECH)

� Department : Korea Additive Manufacturing Innovation Center (KAMIC)

� Research Title : 3D Printing

� Director (Name / Phone Number / e-mail) :

Nak-Kyu Lee / +82-10-3894-8647 / [email protected]

About Institution

KAMIC(Korea Additive Manufacturing Innovation Center) leads the manufacturing innovation integrating

the 3D printing and the traditional manufacturing technologies, and establishes the nationwide infrastructures

for creating the high value-added industries, and also activates those connections, finally aims to develop

the national industries.

Exhibit

Strategy & achievements of the prototyping support for each regional center corresponding to the specialized

industries.

Metropolitan

AreaKey & New Growth Overall Industries (Headquarter)

Chungcheong

Area Defense ICT AutomotiveBio

Kangwon

Area

Industrial Non-ferrous

Metal Components

Automotive

Components

Medical

Equipment

Honam

Area

Lightweight material

components

Cultural Contents

(Jewerly etc)

Smart Home

Appliances

Daekyung

AreaSmart Mold Digital Devices

Precision

Machinery

Dongnam

AreaEngineering Plant Energy Material

Transport

Machinery

2

� Affiliation : MIREA TECH CO., LTD

� Department : Laboratory

� Research Title : LOOP Type Hibryde Lighting System


Hee-cheon, Park / 010-2813-6067 / [email protected]

About Institution

MIRAE TECH CO., LTD. established with their core values namely happy management. immediate

execution, social contribution and environment-friendly business at Haman-Gun, Gyeongsangnam-do,

korea in 2008.

It is a company that specializes in producing renewable energy such as small wind turbine.

Loop type hybrid street lighting system, flange for wind turbine tower and is a small but strong company

that has achieved recognition of technology and of green as registration of patent & green technology

certification. E-mark acquisition in hybrid lighting system.

Exhibit

Loop type was made with curved shape. This is prevent noise. However, Normal propeller type wind

turbine makes some noise as vortex phenomenon. Loope type can be operated 1.6 m/s the breeze. Espesically

guarantee design life for 20 years.

Because, it adopts 4-step safety system including centrifugal breaking system. and head is supported

by thrust structure using oil bath type bearing both end of main shaft.

We are combine 500W loop type wind turbine and 300W Solar panel. It storage battery in tower. So

it can operate LED light at night. This product has excellent design and aesthetically valuable.

It is harmony of human-being and nature. It is a living friendly Loop type wind turbine to be well matched

with urban and park area.

3

� Affiliation : Kangwon National University

� Department : Small Wind Turbines Optimization Engineering Tech-

nology Surpport Center and Department of Wind Turbine Engineering

Advanced Manpower

� Research Title : Wind turbine, wind farm


Byeong Hee Kim / +82-33-250-6369 / [email protected]

About Institution

Department of optimization engineering technology for small wind turbines

- Period of project : 2015.12.01 ~ 2019.11.30(48month)

- Project expenses : 11 million dollars

- Information of project

Composition of Group study system specific to the industrial demand and establishment of Optimiza-

tion engineering support strategy

Construction of research group having the comprehensive professionalism and improvement in the

cost efficiency, performance matching, durability and market acceptance through the cooperation

among college, industry and research centers

Construction of the platform which can provide the comprehensive solution which reflects the

company’s needs

>> Construction of the wind turbine model which can be used for the optimization of wind turbine design

>> Provision of the wind turbine model for each company and the target program

Wind turbine engineering advanced manpower track

- Period of project : 2013.06.01 ~ 2018.06.30(61month)

- Project expenses : 3.2 million dollars

- Information of project

The purpose of the project

By conducting the labor/study demand research, and the analysis of the current technological barrier

on the design technology of core parts, design and operation of the zone, and the radar avoidance

technology as well as the development of buoy type WT, design of wind farm/ operation of zone/

control technology and the future promising technologies including the virtual wind farm technology

by the wind power companies through the track operation committee, we will try to achieve the

followings

1. Construction of the “leading education and research infrastructure” for the future technology

2. Construction of “education innovation system led by companies, which has the strong “fundamental”,

3. Reinforcement of the competitiveness through the training of personnel for “improvement in nuclear

technology in the wind turbine industry” and

4. Training the “future technology response R&D personnel” for the floating type wind farm and virtual

wind farm

4

� Affiliation : Korea Institute of Machinery and Materials

� Department : Laser & E-Beam application department

� Research Title : Laser processes on industry


Sung Hak Cho / +82-10-8839-3894 / [email protected]

About Institution

The mission of KIMM is the contribution to economic growth of the nation by performing research

& development (R&D) on key technologies in the area of mechanical engineering. To achieve this, KIMM

conducts reliability tests, evaluates machine components/ materials, and commercializes the developed

products or machineries through technology transfer and support.

In KIMM, five divisions are performing R&D in order to achieve the mission. Among those five divisions,

Laser & E-Beam application department is belong to Advanced Manufacturing Systems division. The research

division for Advanced Manufacturing Systems conducts various researches on materials, processes, devices,

measurement, and testing technology for the production of micro-scale precision products. The research

is based on ultra-precision machining and patterning, control, design, and ICT convergence. The division

is currently focused on the development of core technologies for manufacturing next-generation machining

systems, semiconductors, displays, industrial robots, and general machinery.

Exhibit

According to mission of Advanced Manufacturing Systems division at KIMM, we should improve core

industry of Korea such as Display and semiconductor. In addition to our mission, our team has been

researched ultrashort pulsed laser process for last few decades. And the key application of ultrashort pulsed

laser has been repair of AMOLED panel. We already succeed to develop repair process via femtosecond

laser ablation. As decreasing of pixel size, sub-micron repair process should be developed.

In addition to repair, our team has been developed “on-the-fly” technique in order to overcome limitation

of processing size. This technique is transferred to midsize company and the company could successfully

make contract with Samsung display.

We also present our recent researches that will be applied to industry.

5

� Affiliation : Kangwon National University

� Department : Micro Nano Bio Systems laboratory in Kangwon National

University

� Research Title : Evaluation system for super-precision, Micro-nano

complex structure


Byeong Hee Kim / +82-33-244-8910 / [email protected]

About Institution

Development of evaluation system technology for super-precision parts

Implementation of the study on the system technology development which can test the high precision

parts through the structural interpretation of the baseball ground safety fence tester and the journal bearing

wearing tester.

Development of 3D antenna for mobile devices by using LDP

Implementation of the study of the process technology development of LDP of fine line less than 50mm

for the 3D structural antenna system integrated with the glass fiber reinforced polycarbonate case of

the wireless telecommunication devices.

Development of manufacture process for complex structure mold

The study on the development of the micro-nano compound mold by developing the electric/chemical

processes of the 100nm-3mm nano compound structure using the aluminum anodizing.

Wind turbine engineering advanced manpower track and Department of optimization engineering technology

for small wind turbines

Training of the experts specializing in the design, operation and control of the wind farm zone and the

construction of the education infrastructure of the wind power and the study on the technical support

for the performance test and optimization engineering technology for the certification of the small scale

wind power system technology kept by the domestic companies

Development of Biomimetic Nano technology

Development and research on the super-hydrophobicity surfaces imitating the leaf of lotus, and the water

strider, the reflection prevention surface imitating the eyes of moth and the nano-structured surface lens

imitating the firefly using the aluminum anodizing

The abrasion tester The result of nano-structured optical lens Design analysis using finite element program

6

� Affiliation : WOONAM IND. CO., LTD.

� Department : Technical Sales Dept.

� Research Title : Dry Machining Processes


Kim, Myung Soo / 010 5006 2249 / [email protected]

About Institution

Productivity & Environment

In many cases, the driving force behind the introduction of dry machining is the recognition that today

workpiece-related costs for cooling lubricants can be several times higher than tool costs. Moreover, the

handling of cooling lubricants is causing problems, including the burden they place on employers and the

environment.

Since there is no need for a cooling-lubricant cycle in the value-added process, there is a direct reduction

of costs. Experience shows that productivity is significantly improved at the same time:pro-duction times

are cut by as much as 50% regardless of the production job and choice of tools. Since there is no need

to clean workpieces, the process chain is shortened and further costs saved as a re-sult. Internally, a conversion

of processes from wet to dry machining helps to motivate personnel; externally it contributes to a better

corporate image.

Exhibit

Minimal Quantity Lubrication(MQL) series for Dry Machining Processes

1. Digital Super 1

2. Vario Super

3. Vario

Oil-Air Lubrication System

Oil Lubrication Pump unit

Etc

References of Various Applications

7

� Affiliation : Seoul National University

� Department : Department of Mechanical & Aerospace Engineering

� Research Title : Innovative Design and Integrated Manufacturing Lab.


Sung-Hoon Ahn / +82-02-880-7110 / [email protected]

About Institution

Our research and education cover important issues in design & manufacturing.

Based on the philosophy of DFM (Design for Manufacture) and DFE (Design for Environment), web-based

design is pursued. The research focus of material and manufacturing includes rapid prototyping, micro

machining, nano composite, functionally graded materials. Integrating the manufacturing technologies with

creative design, we are exploring the field of innovative product development. Your comments and suggestion

on our activities are always appreciated.

Exhibit

- Soft robots using Smart Soft Composite Materials

- Development of Nanoscale 3D printing with FIB/AFN Hybrid process.

- Next Generation Hybrid Manufacturing Consortium

- Cost-effective Process Development for Large Area Smart Window

Etc

Vision Creative Design, Smart Manufacture.

- To lead world class research in design & manufacturing

- To educate students with hands-on knowledge

- To serve industries and public from our experiences

Location

Innovative Design and Integrated Manufacturing Lab.

School of Mechanical & Aerospace Engineering

Building 301, Room 1405 / Building 301, Room 1402 / Building 301, Room 1255 / Building 312, Room 307

Seoul National University, Gwanak-ro 599,Gwanak-gu, Seoul, 151-742, Korea

8

� Affiliation : SENTROL Co., Ltd.

� Department : Marketing Department

� Research Title : 3D Printer


Hyojin, Yoon / 010-4739-5046 / [email protected]

About Institution

Established with a team of engineers who developed “TEPS”, the first Korean CNC in 1985, Sentrol

has been renowned for its proprietary CNC technology for over 30 years. Our growth has been fueled by

the trust earned from domestic and foreign customers we serve, in industries such as industrial machineries,

machine tools, and education/training.

60% of our employees are in Research & Development, among whom more than half have accumulated

over 20 years of experience. Supported by such talents, Sentrol expanded its business in the late 2000’s

into the fast emerging next-generation technology, 3D Printers. Building upon inherent CNC technology,

Sentrol has developed and launched SLM type Metal 3D Printers and SLS type Sand Mold 3D Printers

for industrial use. Hybrid Milling 3D Printers and large scale Binder Jet Sand Molding 3D Printers are

currently under development to serve clients in automotive, aerospace, power, medical and defense industries.

Exhibit

Metal 3D Printers

SLM (Selective Laser Melting)

SLM type Metal 3D Printer uses laser beam (Yb-fiber laser) to melt and sinter specific areas over a layer

of metal powder stacked at least 20 µm high on the printer platform, and the repetition of stacking and

sintering forms the shape of the output.

Complicated 3D structures of industrial metal parts previously unavailable from the conventional cutting

(SM) can be produced by the metal 3D printing method. In addition, the metal powder is reusable as only

the melted portion of each layer is used.

Industries that manufacture high value-added precision metal parts benefit most from metal 3D printers.

3D printing is increasingly applied in industries such as aerospace and automotive where both lightweight

and high-strength are required. It allows forming complex shapes (such as undercut) not feasible with the

conventional engineering.

The molds produced by metal 3D printers with conformal cooling channels have become a norm. The

improved cooling performance of the mold increases the production speed and quality, enhancing the

performance of mass produced molds. In the medical field, customized implants are available from 3D printing,

reducing side effects. Metal 3D printing applications are rapidly expanding.

9

� Affiliation : Doosan Machine Tools

� Department : Advanced Machine Tool Technology Team

� Research Title : Virtual machine tool development


Kangjae Lee / 010-6514-4560 / [email protected]

About Institution

Doosan Machine Tools started its business in 1976 and built its Changwon factory by 1979. Production

of our first 1,000 units was achieved in 1980 after the introduction of the PUMA 10 series which was

developed using our exclusive technologies.

Beginning in1981, we pioneered the global market and achieved high-growth by reaching production

of 10,000 units in 1990 and surpassing aggregate production of 50,000 units in 2000. By integrating the

separate machine tools businesses of Doosan Machine Tools and Doosan Mecatec in 2007, we have not

only increased our competitiveness in the global machine tools industry but have laid the foundation to

become the Global Leader.

Doosan Machine Tools have many types of machine tools including 5-axis machining centers, multi-tasking

machine tools, and large machine tools. Doosan Machine Tools also have the New Lynx and New DNM

series, the latest upgraded versions of the company's bestselling Lynx and DNM series. In addition, Doosan

Machine Tools provide to customers Smart Factory Manufacturing Solutions, which are designed to help

client companies achieve significant advances in their manufacturing environments through real-time links

between the different machine tools operating on their production lines.

Exhibit

Introduction to the virtual machine tool development of Doosan Machine Tools

10

� Affiliation : Tong-il Electronic Ind. Co., Ltd.

� Department : Research and Development Center

� Research Title : Power Cord (Set), Electric Wiring Harnesses (Wire &

Components), LED Light Bulbs, LED Tubes


Sung-Hoon, Kim / +082-10-6444-2641 / [email protected]

About Institution

Tong-il Electronic Ind. is professional manufacturing corporation with a tradition and history specialized

in manufacturing power cord and power cord set. It is establishment in 1972.

Our Corp., has performed Research and Development (R&D) to enter the global markets. Also we are

constantly striving for development through company with the best technology and national research institute

from 2014.

Tong-il Electronic Ind. has focused on manufacturing power cord, power cord set, electric wiring harnesses

(wire & components) and functional LED bulb components. Besides, we have been widely acclaimed for

outstanding quality competitiveness and best technology for customer satisfaction.

Based on long know-how, advanced technology, quality reliability, we have achieved excellent results that

are certification of KS, KC, PSE, ISO 9001, various awards (clean workplace, Gyeonggi to work in good

company). Also, Research and Development (R&D) center of our Corp., achieved technology transfer

contact with national research institute. And we have realized the growth potential.

Tong-il Electronic Ind. will do our best to power cord, functional LED lighting components industry based

on the constant challenge and reliability and continue to actively practice corporate social responsibility,

with a growing community.

Exhibit

Power Cord (Set), Electric Wiring Harnesses (Wire & Components), LED Light Bulbs, LED Tubes

Etc

- Address : 19, Pyeongcheon-ro 850beon-gil, Bucheon-si, Gyeonggi-do, Republic of Korea

- Corp., Phone Number : 032) 677-2641~4

- Corp., Facsimile : 032) 677-2645

- e-Mail : [email protected]

11

� Affiliation : Center for Advanced Materials Machining System

� Department : Manufacturing System R&D Group

� Research Title : Development of Manufacturing System for CFRP

(Carbon Fiber Reinforced Plastics) Machining


Seok-Woo Lee / 010-5380-8761 / [email protected]

About Institution

KITECH is a government-funded R&D institute that specializes in the support for the sustainable growth

of SMEs, based on the development of original industrial technology. KITECH’s three main research areas

are Advanced manufacturing Technology, which refers to the 6 root technologies that include casting,

molding, heat processing, etc., Sustainable Manufacturing System Technology, and Industrial Technology

convergence.

Exhibit

Manufacturing system package for CFRP machining

- CFRP Drilling/Water-jet Manufacturing Machines

- Inspection/Post-processing Systems

- CNC platform for an EtherCAT servo Communication

- Flexible Manufacturing Systems

- CFRP machining Processes.

12

� Affiliation : Sungkyunkwan University

� Department : Sustainable Design & Manufacturing Laboratory (SDML)

� Research Title : Sustainable & Smart Manufacturing


Sang Won Lee / 031-290-7467 / [email protected]

About Institution

The Sustainable Design & Manufacturing Laboratory (SDML) is dedicated to wide spectrum of research

with an emphasis on an interdisciplinary approach to fulfill its mission. Current research thrusts encompass

Sustainable Manufacturing Processes & Systems and Smart Manufacturing Systems.

1. Sustainable Manufacturing Process and System

- Nanofluid MQL (minimum quantity lubrication) machining

- Electro-hydro-dynamic spray machining with nanofluid MQL

- Cryogenic machining with nanofluid MQL

2. Smart Manufacturing Process and System

- Tool condition monitoring and diagnosis system in machining process

- Lens injection molding process monitoring and diagnosis system

- 3D printing process monitoring and diagnosis system

Exhibit

- A video of cryogenic machining with nanofluid MQL

- Posters of nanofluid MQL/Cryogenic machining and process monitoring/diagnosis

Etc.

- National R&D Outstanding Performance Award (2015)

- KSPE Best Student Paper Award (2014, 2015)

- Certificate of Merit for IEEM (2014)

- IJPEM Most Cited Article Award (2012-2013)

13


� Department : Department of Printed Electronics

� Research Title : Roll to Roll Printing Process and Equipment


Taik-Min Lee / 042-868-7451/ [email protected]

About Institution

Dept. of printed electronics of KIMM interests lie in the fields of printing process and equipment

development for printed electronic devices, sensors, and actuators such as LCD color, flexible display, battery,

solar cell, and bio-sensor. Specifically, the current and future research focuses include:

- Printing process and system development: The roll to roll gravure printing, offset printing, metaljet, screen

printing, flexo printing, pad printing, and hybrid printing processes and systems.

- Manufacturing of printed electronic devices: The printed paper display, printed color filter, printed metal

bumping and solder, printed RFID, solar cell, and printed TFT

Exhibit

Roll to roll printing process and equipment

14

� Affiliation : HYEJINSYS Incor.

� Department : Research center

� Research Title : Scanning Electron Microscope development


Kim Seung Jae / 010-8701-1594 / [email protected]

About Company

HyeJin Sys Incor. was founded to develop devices and tools utilized in Machine Tools, Factory Automation,

Nano order measuring systems, and micro-fabrication systems as efforts of industrializing new ideas and

research results. Currently, this institute is working with other companies closely to developed devices and

tools used in the chip manufacturing systems.

<Main Developed Products>

F-1 IM-1 T-1

schottky emitter type TF-SEM

2nm@25kV resolution

Plasma type Ion Milling System

100um/h@6kV milling rate

Tungsten & LaB6 type SEM System

3.5nm@30kV resolution

Delivered Products

- 2014년 2월 M-1(Thermal SEM) delivered to LG Electronics Manufacturing Research Center

- 2015년 2월 T-1(Thermal SEM) delivered to LG Electronics Manufacturing Research Center

- 2015년 2월 M-1(Ion Miller) delivered to LG Electronics Manufacturing Research Center

- 2015년 8월 V-1(Vacuum Evaporator) delivered to LG Electronics Manufacturing Research Center

- 2016년 4월 T-1(Thermal SEM) delivered to LG Electronics Manufacturing Research Center

Development : ASEM(Atmospheric Scanning Electron Microscope)

- On developing ASEM to install specimen working in air pressure to overcome limitation of specimen

chamber of ordinary SEM

- To measure specimens without special treatment in the open condition.

15


� Department : Dept. of Nano Manufacturing Technology

� Research Title : Nano-Micro Injection Molding and Packaging


Yeong-Eun Yoo / +82-42-868-7883 / [email protected]

About Department of Nano Manufacturing Technology

- Research fields: Nanoimprint equipment and process, 3D nano/micro structure fabrication, Nano/micro

molding, Precision mechanical machining, Nano/micro laser machining, Fabrication of meta-materials,

Biomimetic membrane, Nano/micro-fluidic chip

- Research topics in nanoscale patterning systems and process: Nanoimprint lithography systems, Interference

lithography systems, 10nm overlay/alignment systems, Nanostage with 1nm resolution, Mechanical machining

of micro-structures, Laser applications for micro-nano machining/patterning, Injection molding of nano/

micro structures, Thin layer coating process by ALD, Sputtering, e-beam evaporation or electroless plating,

Packaging for plastic devices with nano/micro structures, Bio-devices with nanostructures, Mass producible

plastic micro-fluidic devices, Biomimetic membrane based on functionalized nanochannels, OLED

illumination film with nanoscale pattern, Fabrication of nanostructures for meta-materials

Exhibit

- Injection molded plastic plate with nano or micro-features on the surface

- Plastic articles with colors due to nano/micro structures(structural color) by injection molding

- Injection molded micro-channel substrates and cover plates with interconnecting ports

- Mass producible micro-fluidic plastic platforms for bio-chip or diagnostic/analysis devices such as rare

cell screening device.

- High through-put micro-fluidic device with micro-channels over 20,000

- Membrane based on nanochannels with functionalized surface for filtration of solution

- Plastic heat sink injection molded using thermally/electrically conductive polymer/nanocarbon filler

composite

- Flow regulator based on micro-channel platform by injection molding and ultrasonic welding/mechanical

contact packaging

16

� Affiliation : Ajou University

� Department : IMDP Lab. / Department of Mechanical Engineering

� Research Title : Multiscale Design & Processing


Moon G. Lee / 010-8810-7558 / [email protected]

About Institution

The Intelligent Multiscale Design & Processing (IMDP) Lab. has been established by association of

professors (Soo-Hun Lee, Min-Sung Hong, Moon G. Lee, Yongho Jeon) who were affiliated with

Department of Mechanical Engineering from Ajou university. The macro laboratory is dedicated to wide

spectrum of research with micro machining process from a design of high precision system to a micro-scale

manufacturing. Current researches are focused on several topics like below.

- Design of high-precision positioning system and multiscale actuators

- Computer Aided Engineering (CAE) based on FEM Analysis and dynamic simulation

- Medical devices for laparoscopy-endoscopy combined surgery

- Hybrid manufacturing processes for surface treatment

Exhibit

- Eddy current damper to improve positioning capability for air bearing guided linear motion system

- Design optimization of linear resonant actuator with Halbach Magnet Array

- Design of a normal stress type electromagnetic actuator for high tilting

- Dynamic analysis of flexible substrates for roll to roll process

- Configuration of ICT-based flexible automation systems using DMWorks

- Application of structural damping for drop impact analysis of mobile haptic actuator

- A novel traction device for clipping large perforation in endoscopic surgery

- Oscilloscopic frequency and displacement measurement of TERFENOL-D with various tips

- Experimental study on high pressure air and water mixing nozzle performance

Etc

Homepage : http://imdp.ajou.ac.kr

17

� Affiliation : Korea Institute of Machinery & Materials(KIMM)

� Department : Department of Ultra precision Machines and Systems

� Research Title : Development of Mobile Machining Platform Technology


Seung-Kook Ro / 042-868-7115 / [email protected]

About Institution

KIMM’s mission is to contribute to economic growth of the nation by performing research & development

(R&D) on key technologies in the area of mechanical engineering. KIMM conducts reliability tests, evaluates

machine components and materials, and commercializes the developed products or machineries through

technology transfer and support.

KIMM’s research interests are widely spread from the nano-scale to macroscale and cover five research

divisions; Advanced Manufacturing Systems, Nano-Convergence Mechanical Systems, Environment and

Energy Systems, Extreme Mechanical Systems Engineering, and Mechanical Systems Safety.

KIMM looks forward to working with and partnering with eminent research institutes in the world, since

we believe that advancement of science and technology has no national boundaries.

Exhibit

Mobile Machining Platform Technology

The concept of mobile machining platform can be introduced as “frameless machine tools”. It aims

machining system which can move on the workpiece freely instead of carrying workpiece on the con-

ventional machine. The mobile machining system can be beneficial for large works such as in aerospace,

ship building and plant system providing novel concept of “On-site machining”, and this will reduce energy,

cost and downtime.

Department of Ultra-precision machines and systems in KIMM is started developing this technology

recently and currently focus on core technologies as bellows.

1. Mechanism for moving and attaching on the large workpiece of curved surface based on crawling

mechanism and wheels. A prototype based on crawling mechanism was built

2. Machining modules that appropriate for mobile application through reduction of cutting force.

3. Precision coordinate measurement technology based on multiple absolute laser interferometers

4. Measurement and compensation technology for working area and machining origin.

18

� Affiliation : Korea Institute of Machinery & Materials(KIMM)

� Department : Department of Ultra precision Machines and Systems

� Research Title : ICT-based smart machine tools and machining systems

for Eco/Bio components


Sung cheul Lee / 042-868-7896 / [email protected]

About Institution

Founded in 1976, the Korea Institute of Machinery and Materials (KIMM) is a government-funded

research institute under the Ministry of Science, ICT (information communication technology) and Future

Planning.

KIMM’s mission is to contribute to economic growth of the nation by performing research & development

(R&D) on key technologies in the area of mechanical engineering. KIMM conducts reliability tests, evaluates

machine components and materials, and commercializes the developed products or machineries through

technology transfer and support.

KIMM’s research interests are widely spread from the nano-scale to macroscale and cover five research

divisions; Advanced Manufacturing Systems, Nano-Convergence Mechanical Systems, Environment and

Energy Systems, Extreme Mechanical Systems Engineering, and Mechanical Systems Safety.

KIMM looks forward to working with and partnering with eminent research institutes in the world, since

we believe that advancement of science and technology has no national boundaries.

Exhibit

ICT-based smart machine tools and machining systems for Eco/Bio components

An ICT-based smart machine tools are designed and developed with integrated multiple sensors. The

multi-sensor data stored in the smart data platform for a long time need to be analyzed. Thus, an analysis

and prediction system is performed, which can effectively fuse the long-term multi-sensor data and infer

the conditions of the smart machine tool and the process.

Multifunctional machining system for ECO/BIO component by summarizing various steps of converging

process into one machine. Multifunctional machining system that is able to perform cutting, grinding and

micro pattern machining on surface of workpiece by converging multi-step process of laser based on 5-axis

machine tool which is for machining free-form surface. It increases the functionality and quality of the

products.

19

� Affiliation : SoFDesign

� Department : Design and Manufacturing Team

� Research Title :


About Institution

The SoFDesign is start-up company to serviced Mockup, Working sample and related items based on

3D Printing technology.

And a self-developed 3D printers continues to increase as more merchantability, strives to develop

technologies for the printing method type.

Based on the distinctive design and various product groups we are committed to customer satisfaction.

Exhibit

3D Lighting Related Products

Publication Oct., 5, 2016

Publisher Dong Young Jang

Editor Min Sung Hong

Publishing office Korean Society of Manufacturing Technology EngineersA - 1206 Centreville Asterium Seoul, 372, Hangang-daero, Yongsan-gu, Seoul 04323, Korea

E-mail [email protected]

Homepage http://www.ksmte.kr

Tel +82-2-501-9172, +82-2-310-9172

Fax +82-2-501-9173

※ Manuscripts, advertising, technical support receive :

Min Seol (Tel + 82-2-310-9172)

Hanrimwon

Toegyero 20, 51 Gil, Jung-gu, Seoul 04529, Korea

Tel +82-2-2273-4201, Fax +82-2-2179-9083

Website http://www.hanrimwon.com/

E-mail [email protected]

International Conference of Manufacturing Technology Engineers 2016Core Research Lab. Remote Tour(Exhibition)

core research lab remote tour(exhibition)

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