References

References

181

REFERENCES

[1] Corner, J. “Theory of Internal Ballistics of Guns”. New York, John

Wiley & Sons, Inc., (1950).

[2] Hunt, F. R. W., ed. “Internal Ballistics. London”, His Majesty's

Stationery Office, (1951).

[3] Marvin E. Backman. “Terminal Ballistics”, Naval Weapons Center

China Lake, California February (1976).

[4] Bilingual, “Ballistics and Ammunition”, B-GL-306-006/FP-001, Field

Artillery, Volume 6, DND Canada (1992).

[5] Jaan Kiusalaas, “Numerical Methods in Engineering with Matlab”,

Cambridge University Press, New York, (2005).

[6] John D. Anderson, Jr. “fundementals of aerodynamics”, McGraw-Hill

Book Company, (1984).

[7] Graebel W. P, “Advanced Fluid Mechanics”, Elsevier Inc, (2007).

[8] Srinivas K., C. Fletcher A.J, “Computational Technique for Fluid

Dynamics, A Solution Manual”, Springer Verlag Berlin Heidelberg

(1992).

[9] Binder, R. C. “Fluid Mechanics”, Englewood Cliffs, N.J., Prentice Hall,

Inc. (1962).

[10] Davis, L., J. W. Follin, and L. Blitzer. “Exterior Ballistics of Rockets”,

New York, D. Van Nostrand Company, Inc., (1958).

[11] Bonney, E. A., Zucrow M. J., and Besserer C. W. “Aerodynamics,

Propulsion, Structures”. New York, D. Van Nostrand Company, Inc.,

(1956).

[12] Hoerner, S. “Fluid-Dynamic Drag”. Midland Park, N.J., published by

author, (1958).

References

182

[13] Moore F. G., Dahlgren, Va. “A Study to Optimize the Aerodynamic

Design of Naval projectiles”, Naval Weapons Laboratory, NWL,

September (NWL TR 2337) (1969).

[14] Yankelevsky D. z. and Gluck J, “Nose Shape Effect on High

Velocity Soil Penetration”, Int. J. Mech. Sci. Vol. 22, pp. 297-311,

(1980).

[15] Anderson J. D, Jr. “Modern Compressible Flow with Historical

Perspective”, McGraw-Hill Series in Mechanical Engineering, (1982).

[16] Sayma Abduinaser, “computational fluid dynamics”, ventus

publishing APS, (2009).

[17] White F.M., “Fluid Mechanics Fourth Edition”, McGraw-Hill Series in

Mechanical Engineering, (2001).

[18] Sachdev P. L, “Shock Waves and Explosions”, by Chapman &

Hall/CRC (2004).

[19] Singh V.P., “System Modeling and Simulation”, New Age International

(P) Ltd., Publishers (2009).

[20] Murman E. M and Cole J.D., “Calculation of Plane Steady Transonic

Flows,” AIAA J., Vol. 9, No. 1, pp. 114-121 (1971)

[21] Carlucci D. e., Jacobson S.S., “Ballistics: theory and design of guns

and ammunition”, Taylor & Francis Group, LLC, (2008).

[22] Forrestal M. J. and Luk V. K, “Penetration into Soil Targets”, Int. J.

Impact Eng. Vol. 12, No, 3. pp 427-444, (1992).

[23] Me-Bar Y.,“A method for scaling ballistic penetration Phenomena”, Int.

J. Impact Eng. Vol. 19, Nos. 9-10, pp. 821-829, (1997).

References

183

[24] Headquarters, Department of the Army. “Fundamentals of

Protective Design (Non-nuclear)”, Washington, D.C., Government

Printing Office, (TM 5-855-1.) July (1965).

[25] Hermann W. and Jones A, “Survey of Hypervelocity Impact

Information”, Aero-elastic and Structures Research Laboratory,

Cambridge, Mass., MIT, (ASRL Report No.99-1.) September (1961).

[26] Serebryakov, M. E. “Interior Ballistics”. Tr. by V. A. Nekrassoff. The

Catholic University of America, (originally published in Russian in

Moscow, 1949). 601 pp. (1950).

[27] Luk v. K. and Piekutowskit A. J. , “An analytical model on

penetration of eroding long rods into metallic targets” ,Int. J. Impact

ending vol. Ii, no. 3, pp. 323 340, (1991).

[28] Rinehart, I. and Pearson I, “Behavior of Materials under Impulsive

Loads”, New York, Dover Publications, (1965).

[29] Goldsmith, W. “Impact”. London, Edward Arnold (Publishers) ltd,

(1960).

[30] Thompson, L. T. E., and E. B. Scott. “A Momentum Interpretation of

Penetration Data”, Mem Artillerie Franc, Vol. 6, p. 1253. (1927).

[31] Marvin E. Backman, “Terminal Ballistics”, Naval Weapons Center

China Lake, California February (1976).

[32] Bethe, H. A. “Attempt of a Theory of Armor Penetration”.

Philadelphia, Pa., Frankfort Arsenal, May (1941).

[33] Kraft, J. M. “Surface Friction in Ballistic Penetration,” J APPL PHYS,

Vol. 26, No. 10, pp. 1248-53. October (1955).

[34] Evans W. M. , Ubbelohde A. R, “Formation of Munroe jets and their

action on massive targets”. Research 3(7). 331 (1950)

References

184

[35] Seely L B., and Clark J. C. “High Speed Radiographic Studies of

Controlled Fragmentation”, BRL Repon No. 368, U. S. Army Ballistic

Research Laboratory, Aberdeen Proving ground, Maryland, 16

June(1943).

[36] Birkhoff G., MacDougall D. P., Pugh E.M. , and Taylor G.,

“Explosives with lined cavities”, Appl. Phys. 19, 563 (1948).

[37] Hirsh E, “An Analytical Model For The non-steady Shaped Charge Jet

Formation Junction”, Pro. 7th Int .Symp. on Ballistics, Karlsruhe ,West

Germany ,March(1977)

[38] Lampson M. “Jet Formation from Collapsing Conical Shells”,

Proc.10th Int.Symp, on Ballistics, vol 2. San Diego, October.

[39] Sterne T.E, “A Note On Collapsing Cylindrical Shells” , J .Appl

.Phys,21(2) 73-74(1950)

[40] Perez E, Fauquignon C, and Chanteret, P, “Fundamental Studies of

Shaped Charge Mechanisms”, Proc. 3rd

Int.Symp, on Ballistics,

Karlsruhe. West Germany, March (1977).

[41] Hirsh E. “A Simple Representation of the Pugh Eichelberger and

Rostoker Solution to the Shaped Charge Jet Formation Problem”, J.

Appl. Phys, 50(7) (1979).

[42] Harrison J.T, “A Comparison between the Eulerian, Hydrodynamic

Computer Code (BRLSC) and Experimental Collapse of A Shaped

Charge Liner”, BRL. Memorandum Report Arbrl-Mr-02841, June (1978)

[43] Harrison J.T and Karpp R. R. “Terminal Ballistics Application Of

Hydrodynamic Computer Code Calculations”,Brl .Report April(1977).

[44] Hornemann U, and Senf H. Parameter Studies of 1200 flat-cone

shaped charges , proc. 3rd

Int.Symp.on Ballistics, Weil am Rhein, June

References

185

1971,FSTC-HT-23-797-73,September(1974).

[45] Van Thiel M. and Levatin J. “Jet Formation Experiments and

Computations with Lagrange code”, LLNL, UCRL-82834, September

(1978).

[46] Trinks , “German WW II Calculation Methods For Shaped Charge” ,

MBB Report No. SOB-583, MWD-DEA G 1060 Meeting at ISL/Weil

,FSTC 1198-76,october

[47] Rostoker N. “The formation of crates by high-speed particles”,

Meteoritics I(1):11-27(1953)

[48] Simon J. and Dipersio R. “Jet Formation and Utilization”, Proc. of

Behaviour and Utilization of Explosive in Engineering Design, L.

Davison and J.E.Kennedy (eds), N. Mexico Section of the ASME ,

March.(1972)

[49] Novikov N.P. “High-Speed Shaped Jets”, PMTF, No.6.22-28, FSTC-

HT-1384-82 (1962).

[50] Titov V.M. “Possible Regims for Hydrodynamic Cumulation During the

collapse of a casing”,Doklady Academic Nauk SSSR , 247(5):1082-

2084(1979).

[51] Ivanova V., and Rozantseva V. “Theoritical and Experimental

Investigation of the Shaped-Charge Effect”, Meckhanika, Sbrorniki

Penevodov i Obzonov Inostrannoy Periodicheskoy Literatury, 4(2):51-

105, FSTC-HT-426-82(1953).

[52] Harrison J. ,Dipersio R. Karpp R. and Jameson R. “A Simplified

Shaped Charge Computer Code : BASC” ,DEA-AF-F/G-7304 Technical

Meeting :Physics of Explosive, Vol. II, April-May , Naval Ordnance

Laboratory, Silver Spring ,Maryland(1974)

References

186

[53] Breidenbach H.I. “The Evalution of Jets From Cavity Charges as

Shown by Flash Radiographs”, BRL Report No 808, April (1952).

[54] Heine-Geldern R.V., and Pugh E.M. “The Photography of High-

Speed Metallic Jets”, Meteoritics, I (1):5-10(1953).

[55] Harlow F.H., and Pracht W.E, “Formation and Penetration of High-

Speed Collapse Jet”,Phys. Fluids,9(10)(1966).

[56] Koski W.S. Lucy F.A. Schreffler R.G and Willig F.J., “Fast Jets

From Collapsing Cylinders”., J.Appl.Phys.,23(12):1300-1305(1952)

[57] Zernow L. and Simon J. “High strain rate plasticity of liner materials

and jet behaviour”, BRL. Report No.954, August (1955).

[58] Aseltine C.L. “Analytical Predictions of The Effect of Warhead

Asymmetrics on Shaped Charge Jets”, Technical Report ARBRL-TR-

02214,February(1980)

[59] Panzarella J. and Longobardi J. “Performance Of Shaped Charge

With Intentionally Deformed Liners”, Ballistics Research Laboratory

Report No.811.March.(1952).

[60] Merendino A. Regan J.M. and kronman S. “A Method of Obtaining

A Massive Hypervelocity Pellet from A Shaped Charge Jet”, BRL

Memorandum Report No.1508, August (1963).

[61] Robinson A.C. “Asymptotic Formula For The Motion Of Shaped

Charge Liners”, Sandia Report SAND 84-1712, Unlimited Release UC-

35, September (1984).

[62] Robinson A.C. “SCAP-a Shaped Charge Analysis Program- User’s

Manual for SCAP 1.0.”, Sandia Report SAND 85-0708, Unlimited

Release UC-35 April (1985).

[63] Lee W.H., “High Explosive Modeling in 2D Euler Code For Shaped

References

187

Charge Problem,” Los Alamos National Laboratory Report LA-UR-85-

2954(1985).

[64] Kolsky H. Snow C.I, and Shearman C.A., “A Study of the Mechanism

of Munroe Charges”, Part 1-Charges with Conical Liners,” Res.

Supp.London, 2-2, 89-95(1949).

[65] Kolsky H. “A Study of the Mechanism of Munroe Charges”, Part II-

Charges with Hemispherical Liners”, Res. Supp., London, 2-2, 96-

98(1949).

[66] Kiwan A.R., and Arbuckle, A.L., “Study of Liner Collapse, Jet

Formation and Characteristics from Implosive Shaped Charge Systems.”

BRL. Report 2028, November (1977).

[67] Arbuckle A.L., Walters, W.P., and Aeltine, C.L., “Analysis of

Uniform Wall and Tapered Hemispherical Liners with Several Explosive

Confinement Geometries,” ARBRL-TR-02222, March (1980).

[68] Chou P.C. Ciccarelli R.D., Arbuckle A.L., and Walters W.P., “Jet

Formation of an Implosively Loaded Hemispherical Liner,” Contract

Report AR-BRL-CR-00470, September (1981).

[69] Aseltine C.L. Walters W.P. Arbuckle A.L. and Lacctera J.E.,

“Hemispherical Shaped Charge Utilizing Tapered Liners”, Proc. 4th Int.

Symp. Ballistics, Monterey, CA, October 17-19(1978).

[70] Chou P.C., Ciccarelli R.D., and Walters W.P., “The Formation of Jets

From Hemispherical Liner Warheads”, Proc. 7th Int. Symp. on Ballistics,

The Hague, Netherlands, April 19-21(1983).

[71] Lacetera J.E., and Walters W.P. “Theoretical and Experimental

Studies of Hemispherical Shaped-Charged Liners”, Transactions of the

References

188

Twenty Fifth Conference of Army Mathematicians, ARD Report 80-1,

Held at Johns Hopkins University, Baltimore, June (1979).

[72] Singh S, “On The Jet Formation By Explosives With Lined

Hemispherical Cavities”, Research Notes, Proc. Phys. Soc., Vol. 68B,

London,pp.785-789,october1.(1955).

[73] Shepherd W.C.F, “Strength of High Explosives and Effects Due To

Shape”, in Science of Explosives, C.E.H. Bawn and G Rotter

(EDS).Ministry of Supply, London. (1956).

[74] Grace F.I., Golaski S.K., and Scott B.R. “The Nature of Jets from

Hemispherical Lined Explosive Charges”, proc. of 8th Int. Symp. On

Ballistics, Orlando, Fl,October.(1984).

[75] Vigil M.G. and Robinson A.C. “Analytical-Experimental Comparison

of 150 and 220 Grian per Foot Linear Shaped Charge Performance

Parameters”, proc. 10th

Int. Symp. On Ballistics, Vol. 2, San Diego,CA,

October(1987).

[76] Robert H. McLemore, “Formation penetrating with shaped explosive

charges,” Oil Weekly July 8 (1946).

[77] Miyoshi H. “Numerical Simulation Of Shaped Charges Using The Sph

(Smoothed Particle Hydrodynamics) Solver :Jet Formation and Target

Penetration” ,Materials Science Forum Vol.566,PP.65-70(2008)

[78] Walsh J.M. Shreffler R.G. and Willig F.J., J. Appl. Phys. 24, 349

(1953).

[79] Cowan G.R. and Holtzman A.H. ,J. Appl. Phys. 34, 928 (1963).

[80] Miles E. R. C., “Supersonic Aerodynamics”, McGraw-Hill, New York,

p. 170. (1950).

References

189

[81] Shapiro A.H. “The Dynamics and Thermodynamics of Compressible

Fluid Flow”, Ronald Press, New York, Vol. 1. p. 542. (1953).

[82] Chou p. C. Carleone J. and R. R. Karpp, in the Proceedings of the

First International Symposium on Ballistics, Orlando, Florida, (1974).

[83] Harlow F.H. and Pracht W.E. , Phys. Fluids 9, 1951 (1966).

[84] Birkhoff G. and Walsh J.M., Jubile' Scientifique de M. Dmitri

Riabouchinsky, Publication Scientifique Technologie du Ministre de

l'Air, Paris,(1954).

[85] Koski W.S., Lucy F.A., Shreffler R.G., and Willig F.J., J. Appl. Phys.

23, 1300 (1952).

[86] Chou P. C. Carleone J. and Karpp R. R., U. S. Army Ballistic

Research Laboratory (BRL) Contract Report No. 138,(1974).

[87] Hageman L. J. and Walsh J. M. , U. S. Army Ballistic Research

Laboratory (BRL) Contract Report No. 39, (1971).

[88] Tate, A. “A Theory for the Deceleration of Long Rods after Impact”.

Journal of Mechanics and Physics of Solids, 15, 387–399.(1967).

[89] Segletes, S. B.; Walters,W. P. “Extensions to the Exact Solution of the

Long-Rod Penetration/Erosion Equations”. International Journal of

Impact Engineering, 28, 363–376.( 2003).

[90] Alekseevskii, V. P. “Penetration of a Rod into a Target at High

Velocity.” Fizika Goreniya I Vzryva, vol. 2, no. 2, pp. 99-l 06,(1966).

[91] Wright, T. W.,and K. Frank. “Approaches to Penetration Problems.”

BRL-TR-2957, U.S. Army Ballistic Research Laboratory, Aberdeen,

MD, December (1988).

References

190

[92] Christman, D. R., and J. W. Gehring. “Analysis of High-Velocity

Projectile Penetration Mechanics.” Journal of AppZied Physics, vol. 37,

pp. 1579-l 587, (1966).

[93] Frank, K., and J. A. Zook. “Energy-Efficient Penetration of Targets.”

BIU MR-3885, U.S. Army Ballistic Research Laboratory, Aberdeen

Proving Ground, MD, February (1991).

[94] Walker, J. D., and C. E. Anderson. “A Time-Dependent Model for

Long-Rod Penetration.” International Journal ofImpact Engineering, vol.

16, no.1, pp. 19-48, (1995).

[95] Segletes, S. B., and W. P. Walters. “A Note on the Application of the

Extended Bernoulli Equation.” ARL TR-1895, U.S. Army Research

Laboratory, Aberdeen Proving Ground, MD, February (1999).

[96] Lanz, W., and W. Odermatt. “Penetration Limits of Conventional

Large-Caliber Antitank Guns/Kinetic Energy Projectiles.” 13th

International Symposium on Ballistics, Stockholm, Sweden, l-3 June

(1992).

[97] Rapacki, E. J., Jr., K. Frank, R. B. Leavy, M. J. Keele, and J. J.

Prifti. “Armor Steel Hardness Influence on Kinetic Energy Penetration.”

15th International Symposium on Ballistics, Jerusalem, Israel, 2 l-24

May (1995).

[98] Frank, K. “Prospects of Hypervelocity Kinetic Energy Penetrators in

the Anti-Armor Role.” Keynote paper, classified session of the

Hypervelocity Impact Symposium, Saint-Louis, France, 11 October

(1996).

References

191

[99] Frank K. and Zook J. “Chunky Metal Penetrators Act Like Constant

Mass Penetrators.” Proceedings of the 12th International Symposium on

Ballistics, San Antonio, TX, November (1990).

[100] Ipson T. W., Recht R. F. and Schmelling W. A., Rpt. NWC TP 5607.

Naval Weapons Center, China Lake, California (1973).

[101] U.S. Army Ballistic Research Laboratories, “A Penetration

Equations Handbook” (Joint Technical Coordination Group), Aberdeen

Proving Ground, Maryland (1977).

[102] Thomas, E. Fields, Rpt. ARML-TR-69-202. Air Force Systems

Command, Wright-Patterson Air Force Base, Ohio (1969).

[103] Sedgwick R. T. and Walsh J. M. BRL Rpt. 3SR-348. U.S.A. Ballistic

Research Laboratories, Aberdeen Proving Ground, Maryland (1971).

[104] Sturdivan, L. M. “A Mathematical Model of Penetration of Chunky

Projectiles in a Gelatin Tissue Simulant”; ARCSL-TR-78055; U.S. Army

Chemical Systems Laboratory: Aberdeen Proving Ground, MD,

December (1978).

[105] Minisi M. LS Dyna, “Simulations of Ballistic Gelatin”; U.S. Army

ARDEC: Picatinny Arsenal, NJ, report in progress, 31 October (2006).

[106] George H. Jonas, Proc. 2nd Jnt. Symp, on Ballistics. Session VB

American Defense Preparedness Assoc. Washington DC (1976).

[107] Scott D. J. Proc. 1st Int. Symp, on Ballistics. American Defense

Preparedness Assoc. Washington, DC (1974).

[108] Recht R. F., Proc. 14th SES Annual Mtg. Lehigh University,

Bethlehem (1977).

References

192

[109] Wilms E. V. and Brooks P. N., CARDE TR SSIM, Project D46-13-

30-O3. Canadian Armament Research and Development Establishment,

Valcartier Quebec (1966).

[110] Recht R. F., Ipson T. W. and Wittrock E. P., Rpt. NWC TP 4871.

Naval Weapons Center, China Lake, California (1969).

[111] Naval Weapons Center, Rpt. Tech. Note 4565-7-70, Vol. 1. China

Lake, California (1970).

[112] Naval Weapons Center, Rpt. 61 JTCG/ME-71-5-1. Vol. 1. China

Lake, California (1970). 118 Naval Weapons Center, Rpt. Tech. Note

4565-1-71, Vol. 1. China Lake, California (1971).

[113] Beynet P. and Plunkett R., “Plate impact and plastic deformation by

projectiles”, Experimental Mech. 11, 64 (1971).

[114] Calder C. A. and Goldsmith W., Int. J. Solids Structures 7. 863

(1971).

[115] Calder C. A., Kelly J. M. and Goldsmith W., “Projectile impact on

an infinite, viscoplastic plate”. Int. J. Solids Structures 7, 1143 (1971).

[116] Heyda J. F. Woodall S. R., Wolfgang D. A. and Wilson L. L., Rpt.

AFATL-TR-70-78. Air Force Armament Laboratory, Eglin Air Force

Base (1970).

[117] Christensen R. M., “theory of Viscoelasticity, An Introduction”.

Academic Press, New York (1971).

[118] Stevens, J. B.and Batra, R. C. “Adiabatic Shear Banding In

Axisymmetric Impact And Penetration Problems” ,Department of

Engineering Science and Mechanics Virginia Polytechnic Institute and

State University Blacksburg, VA 24061-0219(1998)

References

193

[119] Cai W. D., Li Y., Dowding R. J., Mohamed F. A., Lavernia E. J.

“A review of tungsten-based alloys as kinetic energy penetrator

materials”. Rev. Particulate Mater. 3: 71–131. (1995).

[120] Sellier K.G., Kneubuehl B.P., “Wound Ballistics and the Scientific

Background”, Elsevier, Amsterdam,NL,(1994).

[121] Peters, C.E., “Recommended Experiments on The Physical Mechanics

in Wound Ballistics”, J. Trauma (china) 6 suppl.34-41, (1990).

[122] Janzon B. Acta chiru. Scand, suppl.508, (1982).

[123] French G.R. “Wound Ballistics”, US Government Printing Office

.Gelatin Manufacturers Institute of America Inc. (1962).

[124] Jauhari M, Mahanta p. “wound ballistics”; study of the rupture of

human skin membrane under the impact of a projectile”, 8th intern .meet

.of intern.ass.forens.sci.wichita,usa,(1978).

[125] Jauhari M, Bandyopadhyay A. “Ballistique des Blessures: Modele

mathémathique relative à la rupture d’une membrane de peau sous

l’impact d’un projectile sphérique”, Sci.et Techn.del’ Armement 50, 1-

18, (1976).

[126] Scepanovic, “D.Proc.Symp.Wound Ballistics”, Acta Chirugica

Sandinaica, Stockholm, pp 71-81, (1979).

[127] Hatcher JS. “Hatcher’s Notebook”; The Stackpole Company,

Harrisburg, Pa., U.S.A., ISBN 0-8117-0795-4(1966).

[128] Sturdivan L et al. “Terminal Behaviour of the 5.56 mm ball bullet in

soft targets”; U.S. Army Ballistic Research Laboratory; August; Report

1447(1969).

[129] Bruchey WJ jr., Frank DE. “Police Handgun Ammunition”:

Incapacitation Effects Volume I: Evaluation, NIJ Report 100-83, U.S.

References

194

Department of Justice, National Institute of Justice, Washington DC,

November (1983).

[130] DiMaio VJM, Jones JA, Caruth III WW et al. “A comparison of the

wounding effects of commercially available handgun ammunition

suitable for police use”, FBI Law Enforcement Bulletin, 43(12):3-8,

(1974).

[131] Yoganandan N, Pintar FA, “Biomechanics of penetrating trauma”.

Crit Rev Biomed Eng.; 25(6):485-501. Review (1997).

[132] Kneubuehl BP. “Measuring the Wounding Potential of Rifle and

Handgun Ammunition”; International workshop on wound ballistics, 23.-

24.3. Thun, Switzerland (1999).

[133] Bruchey WJ jr., Frank DE . “Police Handgun Ammunition”:

Incapacitation Effects Volume II: Experimental data, NIJ Report 101-83,

U.S. Department of Justice, National Institute of Justice, Washington

DC, November (1983).

[134] Marshall EP, Sanow EJ. “Handgun Stopping Power”: The Definitive

Study; Paladin Press, Boulder, Colorado, U.S.A, ISBN 0-87364-653-

3(1992).

[135] Roberts GK, Wolberg EJ. “Handgun Stopping Power”: The

definitive study; Book review; AFTE Journal, 24(4); 10/(1992).

[136] Kotzar G. “Marshall and Sanow book review”; Case Western

Reserve University; yarchive.net/gun/ammo/marshall _ sanow .html;

extracted 2.7.04(2004)

[137] Janzon B, Hull JB, Ryan JM. . “Projectile-material interactions: soft

tissue and bone”. In: Cooper GJ, Dudley HAF, Gann DS, Little RA and

References

195

Maynard RL, eds. Scientific Foundations of Trauma. London:

Butterworth Heinemann, 37-52(1997).

[138] Berlin, RH. Janzon B, Rybeck B, Schantz B, Seeman T. “A

proposed standard methodology for estimating the wounding capacity of

small calibre projectiles or other missiles”; Acta Chir. Scand., Suppl.

508:11-28, (1982).

[139] Fackler ML. Bellamy RF and Malinowski JA. “The wound profile:

illustration of the missile-tissue interaction”. J. Trauma 1988, 28(1

suppl): S21-S29 (1988).

[140] Fackler ML. And John A. Malinowski. “Ordnance gelatin for

Ballistic Studies – Detrimental Effect of Excess Heat Used in Gelatin

Preparation”; The American Journal of Forensic Medicine and Pathology

9(3): 218-219, (1988).

[141] Pirlot M, Dyckmans G, Bastin I. “Soap and gelatine for simulating

human body tissue: An experimental and numerical evaluation”; 19th

Symposium of Ballistics, 7-11 May, Interlaken, Switzerland (2001).

[142] Berlin RH, Gelin LE, Janzon B et al. “Local effects of assault rifle

bullets in live tissues. Part I”. Acta Chir. Scand. Suppl. 459, 1-84, (1976).

[143] Berlin, R.H., B. Janzon, B. Rybeck, J. Sandegård and T. Seeman.

“Local effects of assault rifle bullets in live tissues. Part II. Further

studies in live tissues and relations to some simulant media”; Acta Chir.

Scand. Suppl. 477, 1-48, (1977).

[144] Uzar AI, Dakak M, Özer T, Ögunc G, Yigit T, Kayahan C, Öner

K, Sen D . “A new ballistic simulant, Transparent Gel Candle”

(Experimental study); Ulus Travma Derg. Apr; 9(2):104-106(2003).

References

196

[145] Missliwetz J, Wieser I. “Endballistische Verbundmodelle” – Ihre

Anwendung in der wundballistischen Forschung. Beiträge zur

gerichtlichen Medizin; 44: 313-319(1986)

[146] Harvey EN, Butler JH, McMillen EG et al. “Mechanism of

Wounding. In Wound Ballistics” (Coates JB, ed.), Washington DC: US

Army Surgeon General, pp 143-235(1962).

[147] Thompson E. “Ordnance gelatin testing procedures”, AFTE Journal,

Vol. 25, No. 2, April (1993).

[148] Schyma C, Placidi P. “Traces of Ricocheted Action Safety Bullets”;

American Journal of Forensic Medicine and Pathology; 18(1): 15-

20(1997).

[149] Thali, M.J., B.P. Kneubuehl, U. Zollinger, R. Dirnhofer. “The Skin-

skull-brain model”: a new instrument for the study of gunshot effects;

Forensic Sci Int .Feb 18; 125(2-3):178-89(2002).

[150] MacPherson D. “Bullet Penetration; Ballistic Publications”, El

Segundo,CA, U.S.A.; ISBN 0-9643577-0-4(1994).

[151] Kneubuehl BP. “FN303 wound ballistics”; Fachkonferenz der Polizei-

Führungsakademie zum Thema “Waffen und Gerätewesen”;

08.06.GPEC, Leipzig, germany(2004).

[152] Kneubuehl BP, Thali MJ. “The evaluation of a synthetic long bone

structure as a substitute for human tissue in gunshot experiments”;

Forensic Sci Int. Dec 17; 138(1-3): 44-49(2003).

[153] Jussila J., “Integrating new use of force options into routine policing”.

In: Non-Lethal Capabilities Facing Emerging Threats. Proceedings of the

2nd European Symposium on Non-Lethal Weapons, Ettlingen, 13-14

May: 9-1 - 9-12(2003).

References

197

[154] Jussila J., “Preparation and use of ballistic gelatine”, Police Technical

Centre technical guideline PTK-MO-A-0006, Police Technical Centre

Helsinki (2003).

[155] Robens W, Küsswetter W. “Fracture typing to human bone by assault

missile trauma”; Acta Chir Scand, Suppl 508, pp: 223-234(1982).

[156] Mattoo, B. et al, “Workshop on terminal ballistics”, IAT Pune (India),

(1981)

[157] Fitzerald R. phys.letters, vol, 1, p42, (1964).

[158] Winter, J.M. “The Experience of World War I”, Oxford University

Press, New York, (1989).

[159] Fackler ML, Malinowski JA. “The wound profile: A visual method

for quantifying gunshot wound components”: J. Trauma, Vol. 25, No. 6:

522-529(1985).

[160] Firearms Tactical Institute. “A simplified 10% ordnance gelatin

preparation and test procedure”, Firearms Tactical Institute Tactical

Briefs, April (2000).

[161] Vyse Inc. “Ballistic gelatin mixing procedures practiced by the FBI”,

extracted from Internet address, www.vyse.com on 31.3. (2003).

[162] White H.P. Laboratories. “Test Procedure, Ballistic Gelatin Blocks”,

HPW-TP-0601.02, May (1988).

[163] Yoganandan N, Pintar FA, Kumaresan S, Maiman DJ, Hargarten

SW. “Dynamic Analysis of penetrating trauma”. J Trauma Vol 42 No. 2:

266-271(1997).

[164] Post, S.M., and T.D. Johnson. “A survey and evaluation of variables

in the preparation of ballistic gelatin”; Wound Ballistics Review, Vol. 2,

No. 1: 9-20(1995).

References

198

[165] Gelita, Gelita web-pages, www.gelita.com, extracted 31.3. (2003).

[166] Peters CE. “A Mathematical-Physical Model of Wound Ballistics”; J.

Trauma (China) 6 (2) suppl.: 303-318; (1990).

[167] French , G.R. “Wound Ballistics” , US Government Printing Office

.Gelatin Manufacturers Institute of America Inc . (1962).

[168] Fackler M.L, Surinchak JS, Malinowski JA, Bowen RE. “Bullet

fragmentation: a major cause of tissue disruption”. J Trauma; 24: 35-

9(1984).

[169] Coupland RM, Kneubuehl BP, Rowley DI, Bowyer GW. “Wound

ballistics”, surgery and the loaw of war; Trauma; 2(1):1-10(2000).

[170] Coupland R, Loye D. “Legal and health issues”: International

humanitarian law and the lethality or non-lethality of weapons. In: Dando

M, ed. Non-Lethal Weapons: Technological and Operational Prospects.

London: Jane's, 60-6(2000).

[171] Ragsdale BD, Josselson A. “Predicting temporary cavity size from

radial fissure measurements in ordnance gelatin”, J. Trauma 28 (1

Suppl): S5-S9 (1988).

[172] Peters CE. “Common Misconceptions about the Physical Mechanisms

in Wound Ballistics”. J. Trauma (China) 6(2) suppl.: 319-326; (1990).

[173] Lewis RH, Clark MA, O’Connell KJ. “Preparation of gelatin blocks

containing tissue samples for use in ballistic research”. The American

Journal of Forensic Medicine and Pathology; Vol 3, No. 2: 181-

184(1982).

[174] Thali, M.J., B.P. Kneubuehl, R. Dirnhofer , U. Zollinger. “Body

models in forensic ballistics”: reconstruction of a gunshot injury to the

References

199

chest by bullet fragmentation after shooting through a finger; Forensic

Science International 123.54-57(2001).

[175] Schanz B. “Aspects on the choice of experimental animals when

reproducing missile trauma”, Acta Chir Scand, Suppl 489, 121-

130(1979).

[176] Bartlett CS. “Clinical Update: Gunshot Wound Ballistics”; Clinical

Orthopaedics and Related Research, No 408, pp 28-57, (2003).

[177] Karger B, Sudhues H, Kneubuehl BP, Brinkmann B. “Experimental

arrow wounds: Ballistics and traumatology”; J Trauma Sep; 45(3):495-

501(1998).

[178] Peters, C.E., “Common misconceptions about the physical

mechanisms in wound ballistics” , Journal of Trauma (China), Vol. 6,

No. 2, Supplement, pp. 319–326,(1990).

[179] Knudsen, P.J.T. and Sorensen, O.H. “The initial yaw of some

commonly encountered bullets”, International Journal of Legal Medicine,

107, 141 – 6. (1994).

[180] Poole, R.A., Cooper, R.E., Emanuel, L.G. et al, “Angle: effect on

hollow point bullets fired into gelatine”. AFTE Journal, 26 (3), 193 – 198

(1994).

[181] Eisele, J.W., Reay, D.T., Cook, A. et al, “Sites of suicidal gunshot

wounds”. Journal of the Forensic Science Society, 26, 480 – 485(1981).

[182] Stone, J. “Observations and statistics relating to weapons”. Journal of

the Forensic Science Society, 32, 711 – 716 (1986).

[183] Peters, C.E., Sebourn, C.L., and Crowder, H.L.,“Wound ballistics

of unstable projectiles. Part 1: Projectile yaw growth and retardation”,

References

200

Journal of Trauma, Injury, Infection and Critical Care, pp. S10–S15,

(1996).

[184] Callender GR, French RW, “Wound ballistics, studies in the

mechanisms of wound production by rifle bullets”; Milit. Surg., 77:177-

201,(1995)

[185] Callender GR. “Wound ballistics – mechanism of production of

wounds by small arms bullets and shell fragments”; War Med., 3:337-

350,(1943)

[186] DeMuth WE Jr. “Bullet velocity and design as determinants of

wounding capability: An experimental study”, J Trauma 6:222-

232(1966).

[187] DeMuth WE Jr., Smith JM. “High velocity bullet wounds of muscle

and bone: the basis for rational early treatment”. J Trauma, 6:744-

55(1966).

[188] DeMuth WE Jr. “Ballistic characteristics of “Magnum” sidearm

bullets”; J. Trauma, 14:227-229, (1974).

[189] Woodruff CE. “The causes of the explosive effect of modern small

calibre bullets”; N.Y. Med. J., 67, 593-601, (1898).

[190] Janzon B. “High energy missile trauma”; Doctoral thesis; Faculty of

medicine, University of Gothenburg, Sweden, ISBN 91-7222-636-

6(1983).

[191] Tikka S. “Missile Injury-Observations on the mechanism of trauma,

and revision surgery of soft tissue gunshot wounds, doctoral

dissertation”, Ann Med Milit Fenn 3a, (1989).

[192] Yoganandan N, Pintar FA, “Biomechanics of penetrating trauma”.

Crit Rev Biomed Eng.; 25(6):485-501. Review (1997).

References

201

[193] Savchenko YN. “Supercavitation-problems and perspectives”;

Proceedings CAV2001: Fourth International Symposium on Cavitation,

California Institute of Technology, Pasadena, CA, USA; Internet

14.04.2004: cav2001.library.caltech. Edu/archive/00000159 (2001).

[194] Savchenko YN. “Prediction of the 2-D unsteady supercavity shapes”;

Proceedings CAV2001: Fourth International Symposium on Cavitation,

California Institute of Technology, Pasadena, CA, USA; Internet

14.04.2004: cav2001. library.caltech.edu/archive (2001).

[195] Jones SE, Rule WK, Jerome DM, Klug RT. “On the optimal nose

geometry for a rigid penetrator”, Computational Mechanics 22.413-

417(1998).

[196] Jussila J., “Future police operations and non-lethal weapons”. Med

Confl Surviv; 17: 248-59(2001).

[197] Jussila J.,“Nordic Police Training Ammunition Evaluation”. Technical

Report PTK-TR-A-0001. Helsinki: Police Technical Centre, (2001).

[198] Jussila J., “Nordic Police Service Ammunition Evaluation”. Technical

Report PTK-TR-A-0002. Helsinki: Police Technical Centre, 07.11.

(2001).

[199] Dahlgren B, Berlin R, Janzon B, Nordström G, Nylöf U, Rybeck B,

Schanz B, Seeman T. “The extent of muscle tissue damage following

missile trauma one, six and twelve hours after the infliction of trauma”,

studied by the current method of debridement, Acta Chir Scand Suppl

489: 137-144(1979).

[200] Bowyer GW, Cooper GJ, Rice P. “Small Fragment Wounds:

Biophysics and Pathophysiology”. J Trauma; 40(3) Suppl. S159-S164

(1996).

References

202

[201] Tikka S. “Vammamekanismi ja taistelijan suojaaminen

kenttälääkinnässä (Injury mechanism and soldier protection in field

medicine)”; in Sotilaan suoja ja sen läpäiseminen (Finnish), Lasse

Salonen ed. , Research seminar, Defence Forces Research Centre,

Ylöjärvi, Finland, publication A/9(1996).

[202] Berlin, R.H., B. Janzon, B. Rybeck, and T. Seeman Retardation of

spherical missiles in live tissue; Acta Chir Scand Suppl, 489:91-

100(1979).

[203] Janzon B. Seeman T. “Muscle Devitalization in High-energy Missile

Wounds and Its Dependence on Energy Transfer”; J Trauma Vol 25 No.

2: 138-144(1985).

[204] Janzon B, Schantz B, Seeman T, “Scale effects in ballistic

wounding”, J. Trauma 28 (suppl.), S29-32(1988).

[205] Coupland R, Loye D. “The 1899 Hague Declaration concerning

expanding bullets: a treaty effective for more than 100 years faces

complex contemporary issues”. International Review of the Red Cross

2003; No 849: 135-42. (2003).

[206] Fackler ML. “What’s wrong with the wound ballistics literature and

why”; Letterman Army Institute of Research, Institute report No. 239,

July (1987).

[207] Fackler ML. Bellamy RF and Malinowski JA. “The wound profile:

illustration of the missile-tissue interaction”. J. Trauma, 28(1 suppl.):

S21-S29 (1988).

[208] Sondén A, Svensson B,Roman N, Östmark H,Brismar B, Palmblad

J, Kjellström BT. “Laser-Induced Shock Wave Endothelial Cell Injury”.

Lasers Surg Med 26:364-375, (2000).

References

203

[209] EuroNCAP. “Assessment Protocol and Biomechanical Limits”.

European New Car Assessment Programme; (Euro-NCAP), Version 3.

Euro-NCAP Partnership, Brussels. www.euroncap.com(2001).

[210] Bir CA, Viano DC. “Biomechanical predictor of Commotio Cordis in

highspeed chest impact”. J Trauma; 47 (3): 468-473(1999)

[211] Bir CA. “The evaluation of blunt ballistic impacts on the thorax”; PhD

thesis, Wayne State University, Detroit, Michigan , U.S.A., (2000)

[212] Ryan JM, Rich NM, Dale RF, Morgans BT, Cooper GJ. “Ballistic

Trauma: Clinical Relevance in Peace and War”. London: Arnold (1997).

[213] Seki, S. and H. Iwamoto. “Disruptive forces for swine heart, liver and

spleen: Their breaking stresses”; J. Trauma Vol. 45, No. 6: 1079-

1083(1998).

[214] Coupland RM. “The Red Cross Wound Classification”; International

Committee of The Red Cross, Geneva, Switzerland (1993)

[215] Fackler ML, Breteau JPL, Courbil LJ et al. “Open wound drainage

versus wound excision in treating the modern assault rifle wound”;

Surgery; 105:576- 584(1989).

[216] Hollerman JJ, Fackler ML, Coldwell DM and Ben-Menachem Y.

“Gunshot wounds: 1. Bullets, Ballistics and Mechanisms of Injury”;

American Journal of Roentgenology.; 155(4): 685-690(1990).

[217] Grundfest H, Korr IM, McMillen JH, Butler EG. “Ballistics of the

penetration of Human Skin by Small Spheres”, Committee on medical

research of the Office of Scientific Research and Development, Missile

Casualties Report No. 11, July 6, (1945).

[218] Sperrazza J, Kokinakis W. “Ballistic limits of tissue and clothing”.

Ann N Y Acad Sci. Oct 28; 152(1):163-7(1968).

References

204

[219] DiMaio VJ. “Penetration and perforation of skin by bullets and

missiles. A review of the literature”. Am J Forensic Med Pathol. Jun;

2(2):107-10(1981).

[220] Mattoo BN. “Discussion of "Minimal velocities necessary for

perforation of skin by air gun pellets and bullets”. J Forensic Sci. Jul;

29(3):700-3(1984).

[221] Tausch D., Sattler W. Wehrfritz G, Wagner H-J. “Experiments on

the penetration power of various bullets into skin and muscle tissue”. Z.

Rechtsmed. 81:309-328, (1978).

[222] DiMaio VJ, Copeland AR, Besant-Matthews PE, Fletcher LA,

Jones A. “Minimal velocities necessary for perforation of skin by air gun

pellets and bullets”. J Forensic Sci. Oct; 27(4):894-8(1982).

[223] Missliwetz J. “Zur Grenzgeschwindigkeit bei der Haut. Beitr.

Gerichtl”. Med. 65:411-432, (1987).

[224] Jauhari M, Mahanta P. “Wound ballistics: Study of the Rupture of

Human Skin Membrane under the impact of a Projectile”, 8th Intern.

Meet. of Intern. Ass. Forens. Sci, Wichita, USA, (1978).

[225] Sperrazza J, Kokinakis W. “Ballistic limits of tissue and clothing”.

Ann N Y Acad Sci. Oct 28; 152(1):163-7(1968).

[226] Holzmann H, Korting GW, Kobelt D, Vogel HG. “Prüfung der

mechanischen Eigenschaften von menschlicher Haut in Abhängigkeit

von Alter und Geschlecht”; Arch. klin. Exp. Derm. 239, 355-367 (1971).

[227] Daly CH. “Biomechanical properties of dermis”. J Invest Dermatol.

Jul; 79 Suppl 1:17s-20s (1979).

[228] Bader DL, Bowker P. “Mechanical characteristics of skin and

underlying tissues in vivo. Biomaterials”. Oct; 4(4):305-8(1983).

References

205

[229] Vogel HG. “Age dependence of mechanical and biochemical

properties of skin, Part I: Stress-strain experiments, skin thickness and

biochemical analysis”. Bioeng. Skin 3-67-91(1987).

[230] Bartell TH, Mustoe TA. “Animal Models of Human Tissue

Expansion”. Plast Reconstr Surg. Apr; 83(4): 681-686(1989).

[231] Sugihara T, Ohura T, Homma K, Igawa HH. “The extensibility in

human skin: variation according to age and site”. Br J Plast Surg. 1991

Aug-Sep; 44(6):418-22(1991).

[232] Edwards C, Marks R. “Evaluation of biomechanical properties of

human skin”. Clin Dermatol. Jul-Aug; 13(4):375-80. Review (1995).

[233] Schanz B. “Aspects on the choice of experimental animals when

reproducing missile trauma”, Acta Chir Scand, Suppl 489, 121-

130(1979).

[234] Amato JJ, Billy LJ, Lawson NS, Rich NM. “High velocity missile

injury. An experimental study of the retentive forces on tissue”. Am J

Surg, 127:454-9(1974).

[235] DeMuth WE Jr., Smith JM. “High velocity bullet wounds of muscle

and bone: the basis for rational early treatment”. J Trauma, 6:744-

55(1966).

[236] Jussila J. “General Requirements for Police Service Pistol”. ver 5

(DRAFT). Helsinki: Police Technical Centre, (2000).

[237] Huelke DF, Harger JH, Buege LJ, Dingmann HG. “An

experimental study in bioballistics: femoral fractures produced by

projectiles, Part I and II”; J. Biomech. , 1, 313-321, (1968).

[238] Belkin M. “Wound ballistics”; Progress in Surgery 16: 7-24, (1978).

References

206

[239] Huelke DF, Darling JH. “Bone fractures produced by bullets”; J

Forensic Sci. Oct; 17:461-9(1964).

[240] Kneubuehl BP. “Report concerning small calibre weapon systems”;

Expert Meeting on Certain Weapon Systems and on Implementation

Mechanisms in International Law; International Committee of the Red

Cross, Geneva, 30 May – 1 June, (1994).

[241] Aare M. “Prevention of Head Injuries”, Doctoral Thesis; Royal

Institute of Technology, Stockholm, Sweden; ISSN-1651-7660(2003)

[242] Kleider A. “Trauma rounds at the Montreal General Hospital: gunshot

wound of the spinal column”; Can. Med. Assoc. J., 100:1097-1099,

(1969).

[243] Heiden JS, Weiss MH,Rosenberg AW, Kurze T, Apuzzo ML .

“Penetrating gunshot wounds of the cervical spine in civilians”: Review

of 38 cases; J. Neurosurg., 42:575-579, (1975).

[244] Fine PR, Stafford MA, Miller JM, Stover SL. “Gunshot wounds of

the spinal cord: a survey of literature and epidemiologic study of 48

lesions in Alabama”; Ala. J. Med. Sci., 13:173-180, (1976)

[245] Gellad FE, Paul KS,Geisler FH . “Early sequelae of gunshot wounds

to the spine”: radiologic diagnosis; Radiology, 167:523-526, (1988).

[246] Doll M, Baum H. “Retained intraspinal bullet”, an illustrative case

report; Neurosurg. Rev., 12:67-70, (1989).

[247] Wehner HD, Sellier K. “Compound action potentials in the peripheral

nerve induced by shock-waves”; Acta Chir. Scand., Suppl. 508:179-184,

(1982).

[248] Ordog GJ, Wasserberger J, Balasubramaniam S. “Shotgun Wound

Ballistics”; J Trauma, Vol. 28, No. 5:624-631(1988).

References

207

[249] Fackler ML. “Gunshot wound review”; Ann. Emerg. Med., 28(2):194-

203(1996).

[250] Bowen TE, Bellamy RF. “Emergency war surgery”: second United

States revision of the emergency war surgery NATO handbook, 2nd ed.

Washington DC, US Department of Defense, United States Government

Printing Office, 13-34, 230-238(1988).

[251] Harvey EN, Butler JH, McMillen EG et al. “Mechanism of

Wounding”. In Wound Ballistics (Coates JB, ed.), Washington DC: US

Army Surgeon General, pp 143-235(1962).

[252] Sondén A, Svensson B, Roman N, Östmark H, Brismar B,

Palmblad J, Kjellström BT . “Laser-Induced Shock Wave Endothelial

Cell Injury”. Lasers Surg Med 26:364-375, (2000).

[253] Shao Y, Connors BA, Evan AP, Willis LR, Lifshitz DA, Lingeman

JE. “Morphological changes induced in the pig kidney by extracorporeal

shock wave lithotripsy”: nephron injury; Anat Rec. Nov; 275A (1):979-

89(2003).

[254] Zhu S, Dreyer T, Liebler M, Riedlinger R, Preminger GM, Zhong

P . “Reduction of tissue injury in shock-wave lithotripsy by using

acoustic diode”; Ultrasound Med Biol. May; 30(5):675-82(2004).

[255] Tikka S, Cederberg A, Levänen J, Lötjönen V, Rokkanen P. “Local

effects of three standard assault rifle projectiles in live tissue”. Acta Chir

Scand, Suppl 508: 61-77(1982).

[256] Suneson A, Hannson HA, Seeman T. “Central and Peripheral

Nervous Damage Following High-energy Missile Wounds in the Thigh”;

J Trauma, Jan, Vol 28, No 1, Suppl. S197-203 (1988).

References

208

[257] Lai X, Liu Y, Chen L. “The Effect of Indirect Injury to Peripheral

Nerves on Wound Healing after Firearm Wounds”; J Trauma, Vol 40(3S)

Suppl. March: 56S-59S (1996).

[258] McQuirter JL, Rothenberg SJ, Dinkins GA, Kondrashov V,

Manalo M, Todd AC . “Change in blood lead concentration up to 1 year

after a gunshot wound with a retained bullet”; Am J Epidemiol. Apr 1;

159(7):683-692(2004).

[259] Saadia R, Schein M. “Debridement of gunshot wounds”: semantics

and surgery. World J Surg. Sep; 24(9):1146-9(2000).

[260] Braun SD. “Arterial embolization of a bulle”t; AJR Am J Roentgenol.

Jan; 180(1):281(2003).

[261] Corbett H, Paulsen EK, Smith S, Carman CG. “Paradoxical Bullet

Embolus from the Vena Cava”: A Case Report; J Trauma;55:979-

981(2003)

[262] Rich NM, Collins GJ, Andersen CA, McDonald PT, Kozloff L,

Ricotta JJ. “Missile emboli”. J Trauma; 18:236-239(1978).

[263] Mattox KL, Beall AC, Ennix CL, DeBakey ME . “Intravascular

Migratory Bullets”. Am J Surg.; 137:192-195(1979).

[264] Fackler M.L. Letter to the editor on the article: Janzon B. Seeman T;

“Muscle Devitalization in High-energy Missile Wounds and Its

Dependence on Energy Transfer”. J Trauma Vol 26 No. 3: 297(1986).

[265] Geller WA, Scott MS. “Deadly Force: What We Know”. Washington

DC: Police Executive Research Forum, (1992).

[266] Prokosch E. “Small-calibre Weapon Systems”: Bringing the Dum-

Dum Ban up to Date. Papers in the theory and practice of human rights,

No. 11. Human Rights Centre, University of Essex, Colchester, (1995).

References

209

[267] Rainio J, Lalu K, Penttilä A. “Independent forensic autopsies in an

armed conflict”: investigation of the victims from Racak, Kosovo.

Forensic Science International; 116: 171-85(2001).

[268] Parks WH. “Annual report on International Efforts to Prohibit Small

Arms”; www.dtic.mil/ndia/2001smallarms/parks1.pdf; extracted 30.06.

(2001).

[269] Maresca L. “Second review conference on the Convention on Certain

Conventional Weapons”. Geneva: International Review of the Red

Cross; No. 845, 255-62(2002).

[270] Farquharson-Roberts MA, Somerville DW, Rossiter ND. “Limb

Injury”, in Cooper GJ, Dudley HAF, Gann DS, Little RA, Maynard RL

(editors), Scientific Foundations of Trauma, Butterworth Heinemann,

Oxford, pp. 123-131(1997).

[271] Ogunyemi, O.I., J.R. Clarke, N. Ash, and B.L. Webber. Combining

geometric and probabilistic reasoning for computer-based penetrating

trauma assessment; Journal of the American Medical Informatics

Association; Vol. 9, No. 3: 273-282(2002).

[272] Peters CE, Sebourn CL, Crowder HL. “Wound ballistics of unstable

projectiles. Part I: projectile yaw growth and retardation”. J Trauma.

Mar; 40(3 Suppl):S10-5(1996).

[273] Mercy JA, Ikeda R, Powell KE. “Firearm-Related Injury

Surveillance”, Am J Prev Med; 15(3S):6-16(1998).

[274] Annest JL, Mercy JA. “Use of National Data Systems for Firearm-

Related Injury Surveillance”, Am J Prev Med; 15(3S):17-30(1998).

[275] Yamada H. “Strength of Biological Materials”, Baltimore: Williams &

Wilkins: 255-271(1970).

References

210

[276] Coudane H, Grosdidier G, Borrelly J, Sommelet J, Wack B, de

Ren G, Mole D. “Experimental Study of Limb Lesions Due to Hunting

Weapons”; Acta Chir Scand, Suppl 508,:229-234(1982).

[277] Walters W.P. and Zukhas, I.P. “Fundamental of Shaped Charges”

,John Wiley and sons Publishers (1989).

[278] War Office, “Text Book of Ballistics and Gunary”, London

H.M.S.OHer Majesty Publishers (1980).

[279] Birkhoff .G. MacDougall, D. Pugh, and Talor, G,“Explosive with

lined cavities”, J. Appl.Phys 19(6)(1948).

[280] Bangash .M.Y.H.”Impact and Explosion (Analysis and

Design)”.blackwell scientific Publications (1993).

[281] R.N.Pralhad and M.Partanian,“Analytical Study of Flow Parameters

of Hollow Charge Jet” ,International J .of Math .Sci. & Engg. Appls.

(IJMSEA) ISSN 0973- 9424, Vol.3No.IV, pp.225-230, (2009).

[282] Kinslow,” High velocity impact phenomena”, Academic Press (1965).

[283] Evans.W.M,”The hollow charge effect”, bulletin of the institution of

Mining and melollurgy, No.520, March (1950).

[284] Zukhas I.P., “An introduction to impact dynamics”, John Wiley, New

York (1970).

[285] Roy C.Laible, “Ballistics Material and Penetration Mechanics”,

Elsevier Scientific Publishing Company (1980).

[286] Lambert, D.E.: “Re-visiting 1-D hypervelocity penetration” Int. J.

impact Engineering 35, 1631-1635, (2008).

[287] Cornish.R, mills J. T., curtis .J. P and finch .d, “Degradation

Mechanisms In Shaped Charge Jet Penetration”, International Journal of

Impact Engineering 26, 105-114(2001).D

References

211

[288] Masahide Katayama, Atsushi Takeba, Susumu Today And

Seishiro Kibes, “Analysis of Jet Formation and Penetration By Conical

Shaped Charge With The Inhibitor”, International Journal of Impact

Engineering 23,443-454(1999)

[289] Brenden Grove, “Theoretical Considerations on the Penetration of

Powdered Metal Jets”, International Journal of Impact Engineering

33,316–325(2006).

[290] Eichelberger. R.J and pugh.E. M, “Experimental verification of

theory of jet Formation by charges with lined conical cavities”,

J.Appl.Phys.23 (5) (1952).

[291] Pugh, E. Eichelberger.R and Rostoker.N, “Theory of jet formation

by Charges with lined conical cavities”, J.Appl.Phys. 23(5) (1952).

[292] Joseph Carleone, “Tactical Missile Warheads”, Book Publications

AIAA, Inc. Washington. DC (1993).

[293] White.F.M, “Fluid Mechanics”, MG Graw Hill, New York (2003).

[294] Parry. M.A and Billon H.H, “A note on the coefficient of viscosity of

pure molten 2, 4, 6-Trinitrotoluene (TNT)”, Journal Rheologica Acta ,

Springer Berlin / Heidelberg (2005).

[295] Paul W. Cooper, “Explosive Engineering”, VCH Publishers, Inc

(1997).

[296] Masahide Katayama ,Atsushi Takeba , “Analysis of Jet Formation

And Penetration By Conical Shaped Charge With The Inhibitor”,

International Journal of Impact Engineering 23 ,443-454(1999)

[297] Mills.J.T. and Curtis.J.P, “A Theoretical Investigation of The

Penetration Properties of Hollow Particles”, International Journal of

Impact Engineering 26, 523-531 (2001).

References

212

[298] Held M. “Liners for shaped charges”. Jn of Battlefield Tech; 4: 1-

6(2001).

[299] www. en.wikipedia.org: Transition Metal.

[300] Schonberg WP, Bean AJ, Darzi K. “Hypervelocity impact physics”

.NASA Contractor Report 4343(1991).

[301] Pugh, E. Eichelberger, R. and Rostoker, N: “Theory of jet formation

by charges with lined conical cavities”, J. Appl. Phys. 23(5), (1952).

[302] Weickert CA: Demolitions. In: Zukas JA, Walters WP, eds.

“Explosive Effects and Applications”. New York: Springer-Verlag: 381-

425, (2003).

[303] Abrahamson, G. R. and Goodier, J. N: “Penetration by shaped

charge jets of non- uniform velocity” J. Appl. Phys. 34, 195, (1963).

[304] Marvin E. Backman and Werner Goldsmith: “The mechanics of

penetration of projectiles into Targets”, Int. J. Eng.Sci. #16.pp .1-

99.Pergamon Press. Great Britain (1978).

[305] Cline, C.F. and Reaugh, J.E: “Dynamic yield strength of a palladium

alloy metallic glass”,Collogue C3, suppl. au Journal de Physique III, Vol.

1, October (1991).

[306] Pralhad R.N. and Partanian M.A, “Estimation of Jet Velocity of

Hollow Charge from the Concept of Hydrodynamic Theory”, Serial,

Publication, International Journal of Fluid Mechanics(IJFM),2(2);pp.99-

106, July-Dec(2010)

[307] Pralhad R.N. and Partanian M.A, “Estimation of Temperature and

other Flow Parameter Distribution within The Hollow Charge (Heat)

Projectile”, International Journal of Applied Mathematics (IJAM),

Volume 24 No. 3, 305-322,(2011).

References

213

[308] Walters William: “A brief history of shaped charges” 24th

International Symposium on Ballistics, vol. 1, pp. 3–10, New Orleans,

LA, 22–26 September (2008).

[309] Shape Charge: http://www.global security.org/military /systems

/munitions/bullets2- shaped- charge.htm

[310] Walters William P., Flis, W.J. and Chou, P.C: “A survey of shaped

charge jet penetration models”, Int. J. Impact Engg., Vol. 7, No.3, pp

307-255, (1988).

[311] Z .Rosenberg and E. Dekel.; “The penetration of rigid long rods-

revisited” .Int. J. Impact Engineering 36, 551-564,(2009).

[312] Fung Y.C. Introduction to Continuum Mechanics, Springer Verlag

(1998).

[313] Tate A. “Long rod penetration mechanics-part 1. The flow field model

for high speed long rod penetration” .Int.J. Mech.sci. 28:535(1986).

[314] Rosenberg Z, Dekel E. “A numerical study of the cavity expansion

process and its application to long rod penetration mechanics”. Int.J.

Impact Eng; 35:147(2008).

[315] ME. Backman and W Goldsmith; “The mechanics of penetration of

projectiles into targets”. Int J Eng Sci, 16:1–99,(1988).

[316] Forrestal MJ, Tzou DY, Askari E, Longcope DB. “Penetration into

ductile metal targets with rigid spherical-nose rods”. Int. J. Impact Eng;

16:699(1995).

[317] XW. Chen. Deep Li QM; penetration of a non deformable projectile

with different geometrical characteristics. Int J Impact Eng; 27:619,

(2002).

References

214

[318] Bishop RF, Hill R, Mott NF. “The theory of indentation and

hardness”. Proc Roy Soc; 57:147(1945).

[319] Hopkins HG. Dynamic expansion of spherical cavities in metals. In:

Sneddon IN, Hill R, editors. Progress in solid mechanics, vol. 1. North-

Holland Pub. Co. (Chapter 3). (1960).

[320] Goodier JN. On the mechanics of indentation and cratering in solid

targets of strain hardening metal by impact of hard and soft spheres. In:

Proceedings of the seventh symposium on hypervelocity impact, vol.

III; 215(1965).

[321] Forrestal MJ, Luk VK. Dynamic spherical cavity-expansion in a

compressible elastic-plastic solid. J Appl Mech; 55(275) (1988).

[322] Forrestal MJ, Brar NS, Luk VK. Penetration of strain-hardening

targets with spherical-nose rods. J Appl Mech; 58:7(1991).

[323] Forrestal MJ, Okajima K, Luk VK. Penetration of 6061-T651

aluminum targets with rigid long rods. J Appl Mech; 55:755(1988).

[324] Forrestal MJ, Tzou DY, Askari E, Longcope DB. Penetration into

ductile metal targets with rigid spherical-nose rods. Int. J. Impact Eng;

16:699(1995).

[325] Piekutowski AJ, Forrestal MJ, Poormon KL, Warren TL.

Penetration of 6061- T6511 aluminum targets by ogive-nose steel

projectiles with striking velocities between 0.5 and 3.0 km/s. Int J Impact

Eng;23:723(1999).

[326] Forrestal MJ, Luk VK, Rosenberg Z, Brar NS. Penetration of 7075-

T651 aluminum targets with ogival nose rods. Int J Solids Struct;

29:1729(1992).

References

215

[327] Masri R, Durban D. Dynamic spherical cavity expansion in an

elastoplastic compressible solid. J Appl Mech; 72:887(2005).

[328] Warren TL, Tabbara MR. Simulations of the penetration of 6061-

T6511 aluminum targets by spherical-nosed VAR 4340 steel projectiles.

Int J Solids Struct. 37:4419(2000).

[329] Chen EP. Numerical simulation of penetration of aluminum targets by

spherical- nose steel rods. Theor Appl Fract Mech; 22:159(1995).

[330] Pralhad R.N. and Partanian M.A. , “Mathematical Modeling of

Hollow Charge Jet Penetration into different Target Materials”, Journal

of King Saud University (Engineering Sciences) [Elsevier] (accepted)

(Initial Date Submitted 28 Sep 2010 accepted 25 Apr 2011)

[331] Frew DJ, Hanchak SJ, Green ML, Forrestal MJ. Penetration of

concrete targets with ogive-nosed steel rods. Int J Impact Eng;

21:489(1998).

[332] Batra RC, Wright TW. Steady state penetration of rigid perfectly

plastic targets. Int J Eng Sci; 24:41(1986).

[333] Hill R. Cavitation and the influence of head shape in attack of thick

targets by non deforming projectiles. J Mech. Phys Solids; 28:249(1980).

[334] Forrestal MJ, Warren T. Penetration equations for ogive nose rods

into aluminum targets. Int J Impact Eng; 35:727(2008).

[335] Lambert .J.P and Jonas .G. H: Towards standardization in Terminal

Ballistic Testing; velocity representation; Report No.1852, January

(1979).

[336] Recht .R.F and Ipson .T.W, Ballistic perforation dynamics,

j.Appl.Mech, 30, sept. (1963).

References

216

[337] Pralhad R.N. and Partanian .M. A.,“ Mathematical modeling of

Hollow charge penetration jet into different target materials”.40th Annual

Iranian Mathematics Conference .Aug.(2009)

[338] Kwon YW. Underwater shock response of a cylinder subjected to side-

on explosions, comput struct,48(4).637-46,(1993)

[339] La Garde.L, A., “Gunshot Injuries 2nd

Revised edition”, New York:

William Wood and Company (1976).

[340] Hogg,I.V.and Weeks. J. “Military small Arms of the 20th

century”, 5th

ed. North filed, IL: DBI Bods, Inc. (1985).

[341] Pralhad R.N. and Partanian M.A , “On Penetration Aspect of

Kinetic Energy Projectiles onto Various Targets”, International Journal

of Impact Engineering [Elsevier] (submitted for publication).