1.

M.A. Meyers and M.T. Hepworth, "The Enthalpies of Formation of Ferromagnetic Cu-Mn-Sn Alloys", Met. Trans., 3, p. 2544-2544 (1972). Meyers 1

 2.

M.A. Meyers, C.O. Ruud, and C.S. Barrett, "Observations on the Ferromagnetic Beta Phase of the Cu-Mn-Sn System", J. Appl. Cryst., 6, 39-41 (1973). Meyers 2

 3.

M.A. Meyers and R.N. Orava, "A Geometrical Method for the Determination and Indexing of Electron Diffraction Patterns", Metallography, 7, 231-240 (1974). Meyers 3

 4.

M.A. Meyers and M.T. Hepworth, "Determinacao Calorimetrica das Entalpias de Formacao das Ligas Cu-Mn-Sn", Rev. Circ. Mil. Eng., No. 74, S133-135 (1975). Meyers 4

 5.

M.A. Meyers, "The Effect of Surface Condition on Shock Hardening", Scripta Met., 9, p. 667-669 (1975). Meyers 5

 6.

M.A. Meyers, "A "Wavy Wave" Model for the Shocking of Polycrystalline Metals", Proc. of the 5th International Conference on High Energy Rate Fabrication, Denver Research Institute, Denver, June, p. 1.4.1-21, (1975). Meyers 6

 7.

M.A. Meyers and R.N. Orava, "Processamento Termomencanico de uma Superliga por Ondas de Choque", Metalurgia - ABM, 32, p. 249-254 (1976). Meyers 7

 8.

M.A. Meyers, C.O. Ruud, and C.S. Barrett, "Ordenamento da Fase Beta no Sistema Cu-Mn-Sn", Metalurgia - ABM, 32, p. 177-180 (1976). Meyers 8

 9.

M.A. Meyers and R.N. Orava, "Thermomechanical Processing of Inconel 718 by Shock-Wave Deformation", Met. Trans., 7A, p. 179-190 (1976). Meyers 9

10.

M.A. Meyers, "Comments on Flow Stress - Grain Size Relationship in Aluminum", Scripta Met., 10, p. 159-160 (1976). Meyers 10

11.

M.A. Meyers and M.S. Carvalho, "Shock Front Irregularities in Polycrystalline Metals", Mat. Sci. and Eng., 24, 131-135 (1976). Meyers 11

12.

M.A. Meyers, "Inhomogeneities of Transformation in Shock-Loaded Type 304 Stainless Steel", Scripta Met., 10, p. 255-256 (1976). Meyers 12

13.

M.A. Meyers and J.R.C. Guimaraes, "Shock-Induced Martensite Formation in a Fe-31% Ni-0.1% C Alloy", Mat. Sci. and Eng., 24, p. 289-292 (1976). Meyers 13

14.

J.R.C. Guimaraes, J.C. Gomes, and M.A. Meyers, "The Effects of Shock Loading and Grain Refining on the Tensile Response of a Metastable Fe-31% Ni-0.1% C Alloy", Proc. First J. I. M. International Symposium, Kobe, Japan, May (1976), Suppl. Trans. J. I. M., 17, p. 411-417 (1976). Meyers 14

15.

M.A. Meyers, "The Effect of Grain Size on the Shock-Hardening Response of Type 304 Stainless Steel", Proc. ICM II, Boston, Mass., August 16-20, p. 1804-1805 (1976). Meyers 15

16.

H.-J. Kestenbach and M.A. Meyers, "The Effect of Grain Size on the Shock-Loading Response of 304-Type Stainless Steel", Met. Trans. A, 7A, p. 1943-1950 (1976). Meyers 16

17.

M.A. Meyers, C.A.O. Soares, and M.S. Carvalho, "Ondas de Choque em Metais Poliscristalinos", Metalurgia - ABM, 34, p. 35-39 (1977). Meyers 17

18.

J.R.C. Guimaraes and M.A. Meyers, "Concerning Stress Relaxation Experiments in Commercial Purity Titanium", Scripta Met., 11, p. 193-195 (1977). Meyers 18

19.

K.K. Chawla, J.R.C. Guimaraes, and M.A. Meyers, "Fractography of a Meta-stable Austenite", Metallography, 10, p. 201-208 (1977). Meyers 19

20.

M.A. Meyers, "Discussion of Residual Strength of Shock-Loaded RMI 38644", Met. Trans. A, 8A, p. 1641-1644 (1977). Meyers 20

21.

M.A. Meyers, "Work Softening in Shock-Loaded Nickel", Met. Trans. A., 8A, p.1581-1583 (1977). Meyers 21

22.

M.A. Meyers, "A Model for Elastic Precursor Waves in the Shock Loading of Poly-crystalline Metals", Mat. Sci. and Eng., 30, p. 99-111 (1977). Meyers 22

23.

J.R.C. Guimaraes, J.C. Gomes, and M.A. Meyers, "The Effects of Shock Loading and Grain Refining on the Kinetics of Deformation Induced Martensite in Fe-31% Ni-0.1% C", Trans. Jap. Inst. Met., 18, p. 803-806 (1977). Meyers 23

24.

R.N. Orava, M.A. Meyers, and G.A. Stone, "The Effect of Shock-Wave Parameters on the Strengthening of Nickel and Iron", Proc. 6th Internat. Conf. on High Energy Rate Fabrication, Essen, Germany, September, p. 5.2.1-19. (1977). Meyers 24

25.

M.A. Meyers and J.R.C. Guimaraes, "Limitacoes em Ensaios de Relaxacao de Tensao" Metalurgia - ABM, 34, p. 707-709 (1978). Meyers 25

26.

H.-J. Kestenbach and M.A. Meyers, "The Effect of Stress and Strain State on the Residual Substructure of Shock-Loaded Nickel", Proc. IV Coloquio Bras. de Microc. Electron., Sao Paulo, 2-7 July, p. 134-135 (1978). Meyers 26

27.

M.A. Meyers and L.E. Murr, "A Model for the Formation of Annealing Twins in FCC Metals and Alloys", Acta Met., 26, p. 951-962 (1978). Meyers 27

28.

M.A. Meyers, "A Mechanism for Dislocation Generation in Shock-Wave Deformation of Metals", Scripta Met., 12, p. 21-26 (1978). Meyers 28

29.

M.A. Meyers, J.R.C. Guimaraes, and R.R. Avillez, "On Stress Relaxation Experiments and their Significance under Strain-Aging Conditions", Met. Trans. A, 10A, p. 33-40 (1979). Meyers 29

30.

M.A. Meyers, "A Model for Dislocation Generation in Shock-Wave Deformation", in Strength of Metals and Alloys, ed. P. Haasen, V. Gerold and G. Kostorz, Pergamon Press, N. Y., p. 547-552 (1979). Meyers 30

31.

M.A. Meyers, "An Estimate of the Nucleation Time in Martensitic Transformation", Met. Trans. A, 10A, p. 1723-1727 (1979). Meyers 31

32.

M.A. Meyers, H.-J. Kestenbach and C.A.O. Soares, "The Effects of Temperature and Pulse Duration on the Shock-Loading Response of Nickel", Mat. Sci. and Eng., 45, p. 143-152, (1980). Meyers 32

33.

M.A. Meyers, "On the Growth of Lenticular Martensite", Acta Met., 28, p. 757-770 (1980). Meyers 33

34.

M.A. Meyers, C. Sarzeto, and C.Y. Hsu, "A Technique for Obtaining Shock-Wave Parameters Using Wave Superposition in Low-Carbon Steel", Met. Trans., 11A, p. 1737-1745 (1980). Meyers 34

35.

M.A. Meyers, "Comments on the Electroplastic Effect in Aluminum", Scripta Met., 14, p. 1033-1034 (1980). Meyers 35

36.

M.A. Meyers and E. Ashworth, "O Efeito do Tamanho de Grao sobre o Limite de Escoamento em Metais", Proc. 36th Annual Meeting of the Brazilian Society for Metals, Vol. 1, p. 17-32, July (1981). Meyers 36

37.

M.A. Meyers and K.C. Hsu, "O Crescimento da Martensita Lenticular", Metalurgia - ABM, 38, p. 333-338, Proc. 36th Annual Meeting of the Brazilian Society for Metals, Vol. 1, p. 215, July (1981). Meyers 37

38.

M.A. Meyers and P.P. Meyers, "Ensaios Mecanicos em Pelotas", Metalurgia - ABM, 37, p. 506 (1981). Meyers 38

39.

M.A. Meyers and L.E. Murr, "Defect Generation in Shock-Wave Deformation", in Shock Waves and High Strain-Rate Phenomena in Metals: Concepts and Applications, eds., M. A. Meyers and L. E. Murr, Plenum Press, N. Y., p. 487-530 (1981). Meyers 39

40.

C.Y. Hsu, K.C. Hsu, L.E. Murr, and M.A. Meyers, "The Attenuation of Shock Waves in Nickel", in Shock Waves and High Strain-Rate Phenomena in Metals: Concepts and Applications, eds. M. A. Meyers and L. E. Murr, Plenum Press, N. Y., p. 433-452 (1981).  Meyers 40

41.

P.S. de Carli and M.A. Meyers, "Design of Uniaxial Strain Shock Recovery Experients", in Shock Waves and High Strain-Rate Phenomena in Metals: Concepts and Applications, eds., M. A. Meyers and L. E. Murr, Plenum Press, N. Y., p. 341-373 (1981). Meyers 41

42.

M.A. Meyers and R.N. Orava, "Thermomechanical Processing by Shock Waves: An Overview", in Shock Waves and High Strain-Rate Phenomena in Metals: Concepts and Applications, eds., M. A. Meyers and L. E. Murr, Plenum Press, N. Y., p. 805-826 (1981). Meyers 42

43.

M.A. Meyers and P.P. Meyers, "Compressive Strength of Iron-Ore Agglomerates", Trans. S.M.E.-AIME, 274, p. 1875-1884 (1981). Meyers 43

44.

M.A. Meyers, "The Effects of Shock-Loading Temperature and Pulse Duration on the Tensile Response of AISI 304 Stainless Steel", Mat. Sci. and Eng. 51, p. 261 (1981). Meyers 44

45.

M.A. Meyers, B.B. Gupta, and L.E. Murr, "Shock-Wave Consolidation of Rapidly-Solidified Superalloy Powders", J. of Metals, 33, p. 21-26, Oct. (1981). Meyers 45

46.

M.A. Meyers, S.H. Wang, and K. Couch, "Fratura Dinamica e Estihacamento:  Um Estudo Metalurgico", Proc. 37th Annual Meeting of the Brazilian Society for Metals, Vol. 1, p. 23-40, July (1982). Meyers 46

47.

M.A. Meyers and E. Ashworth, "A Model for the Effect of Grain Size on the Yield Stress of Metals", Phil. Mag., 46, p. 737-759 (1982). Meyers 47

48.

M.A. Meyers, L.E. Murr, C.Y. Hsu, and G.A. Stone, "The Effect of Polycrystallinity on the Shock Wave Response of Fe-34.5wt.%Ni and Fe-15wt.%Cr-15wt.%Ni", Mat. Sci. and Eng., 57, p. 113-126 (1983). Meyers 48

49.

A.G. Dhere, H.-J. Kestenbach, and M.A. Meyers, "Correlation Between Texture and Substructure of Conventionally and Shock-Wave Deformed Aluminum", Mat. Sci. and Eng., 54, 113-120 (1982). Meyers 49

50.

M.A. Meyers and P.P. Meyers, "Ensaios Mecanicos em Pelotas, Verificacao da Resistencia a Compressao", Metalurgia - ABM, 39, 199-201 (1983). Meyers 50

51.

L.E. Murr and M.A. Meyers, "Metallurgical Effects of Shock Waves in Metals", in Explosive Welding Forming, and Compaction, ed. T. Z. Blazynski, Elsevier, Chapter 3, p. 83 (1983). Meyers 51

52.

M.A. Meyers and L.E. Murr, "Propagation of Stress and Shock Waves in Metals", in Explosive Welding, Forming, and Compaction, ed. T. Z. Blazynski, Elsevier, Chapter 2, p. 17 (1983). Meyers 52

53.

M.A. Meyers and C.T. Aimone, "Dynamic Fracture (Spalling) of Metals", Prog. in Matls. Sci., 28, p. 1 (1983). Meyers 53

54.

K.-C. Hsu, K. Robino, and M.A. Meyers, "The Attenuation of Shock Waves in Nickel:  Second Report", Mat. Sci. and Eng., 59, p. 235 (1983). Meyers 54

55.

M.A. Meyers, "Reply to Comments on a Model for the Effect of Grain Size on the Yield Stress of Metals", Phil. Mag., 48A, p. L59 (1983). Meyers 55

56.

M.A. Meyers, P.P. Meyers, and T. Tantevee, "Reducao Direta de Pelotas por Hidrogenio-I Alteracao de Resistencia a Compressao e Trincomento", Proc. 39th Annual Meeting of the Brazilian Society for Metals, Vol. 1, p. 227 (1984). Meyers 56

57.

M.A. Meyers, N.N. Thadhani, D.C. Erlich, and P.S. De Carli, "Martensitic Transformation Induced by Tensile Stress Waves", in Shock Waves in Condensed Matter, eds., J. R. Asay, R. A. Graham, and G. K. Straub, Elsevier, p. 411-414 (1984). Meyers 57

58.

M.A. Meyers, D. Jaramillo V., and S. Kuriyama, "Um Ensaio de Penetracao Continua para Metais", Proc. 39^th Annual Meeting of the Brazilian Society for Metals, Vol. 3, p. 121 (1984). Meyers 58

59.

M.A. Meyers, S.L. Wang, and B.B. Gupta, "Mechanical and Thermal Response of Shock-Consolidated MAR-M200", in Shock Waves in Condensed Matter, eds., J. R. Asay, R. A. Graham, and G. K. Straub, Elsevier, p. 447 (1984). Meyers 59

60.

C.T. Aimone, M.A. Meyers, and N. Mojtabai, "Shock-Wave-Induced Fragmentation of Copper Porphyries", in Rock Mechanics in Productivity and Protection, eds., C. H. Dowding and M. M. Singh, SME-AIME, p. 979 (1984). Meyers 60

61.

D. Jaramillo V., S. Kuriyama, and M.A. Meyers, "A Continuous Indentation Test for Metals", Acta Met., 34, p. 313 (1984). Meyers 61

62.

M.A. Meyers and H.-r. Pak, "Mechanical and Thermal Response of Shock-Consolidated Mar M 200 Rapidly Solidified Powder", J. of Matls. Sci., 20, p. 2133 (1985). Meyers 62

63.

H.A. Grebe, H.-r. Pak, and M.A. Meyers, "Adiabatic Shear Localization in Titanium and Ti-6 pct Al-4 pct V Alloy", Met. Trans., 16A, p. 761 (1985). Meyers 63

64.

M.A. Meyers and T. Tantevee, "Stresses Induced in Iron-Ore Agglomerates by Hydrogen Direct Reduction", Met. Trans., 17B, p. 217-227 (1986). Meyers 64

65.

M.A. Meyers, "Mechanical Testing", in Metals Handbook Desk Edition, ed. M.A. Meyers, American Society of Metals, Chapter 34, (1985). Meyers 65

66.

N.N. Thadhani, M.A. Meyers, and D.C. Erlich, "Inhomogeneities of Shock Deformation", Journal of Applied Physics, 58, p. 2791-2794 (1985). Meyers 66

67

M.A. Meyers and O.T. Inal, "Developments and Prospect in Materials Technologies", in Frontiers in Materials Technologies, eds., M. A. Meyers and O.T. Inal, Elsevier, Holland, p. 3, Ch. 1 (1985). Meyers 67

68.

M.A. Meyers, Discussion of "Pressure-Shear Impact and the Dynamic Viscoplastic Response of Metals", Mechanics of Materials, 4, p. 387 (1985). Meyers 68

69.

S. Kuriyama and M.A. Meyers, "Numerical Modeling of the Tip of an Adiabatic Shear Band", Met. Trans., 17A, p. 443 (1986). Meyers 69

70.

S. Kuriyama, M.A. Meyers, and D. Jaramillo, "Numerical Analysis of Wedge Indentation by FEM", Proc. of the 36th Joint Conf., Japan Soc. Tech. Plasticity, Nagaoka, p. 627 (in Japanese) (1985). Meyers 70

71.

S. Kuriyama and M.A. Meyers, "Formation and Propagation of Adiabatic Shear Band due to Simple Shear Deformation", Proc. of Spring Conf., Japan Soc. Tech. Plasticity, Nagaoka, p. 289 (in Japanese) (1985). Meyers 71

72.

S. Kuriyama and M.A. Meyers, "Numerical Analysis of Adiabatic Shear Band due to Simple Shear Deformation", in Proc. IUTAM  Symp. on Macro- and Micro-Mechanics of High-Velocity Deformation and Fracture, Aug. 12-15, Tokyo (1985). Meyers 72

73.

S.L. Wang, M.A. Meyers, R.A. Graham, "Determination of Parameters for Shock Consolidation of IN-100 Superalloy", in Shock Waves in Condensed Matter, ed., Y.M. Gupta, Plenum Press, N. Y., p. 731 (1986).Meyers 73

74.

M.A. Meyers and S. Kuriyama, "Modeling of Instability at the Tip of a Shear Band", in Shock Waves in Condensed Matter, ed., Y. M. Gupta, Plenum Press, N. Y., p. 321 (1986).Meyers 74

75.

H.-r. Pak, C.L. Wittman, and M.A. Meyers, "High Voltage Transmission Electron Microscopy of Shear Bands in Titanium and AISI 4340 Steel", in Metallurgical Applications of Shock-Wave and High-Strain-Rate Phenomena, eds., L.E. Murr, K.P. Staudhammer, and M.A. Meyers, M. Dekker, N. Y., p. 749 (1986). Meyers 75

76.

S. Christy, H.-r. Pak, and M.A. Meyers, "Effect of Metallurgical Parameters on Dynamic Fracture by Spalling of Copper", in Metallurgical Applications of Shock-Wave and High-Strain-Rate Phenomena, eds., L.E. Murr, K.P. Staudhammer, and M.A. Meyers, M. Dekker, N. Y., p. 835 (1986). Meyers 76

77.

M.A. Meyers and C. McCowan, "The Formation of Annealing Twins:  Overview and New Thoughts", in Interface Migration and Control of Microstructure, eds., C.S. Pande et al., ASM, p. 99-124 (1986). Meyers 77

78.

M.A. Meyers and H.-r. Pak, "Observation of an Adiabatic Shear Band in Titanium by High Voltage Transmission Electron Microscopy", Acta Met., 34, p. 2493-2499 (1986). Meyers 78

79.

N.N. Thadhani and M.A. Meyers, "Kinetics of Martensitic Transformation Induced by a Tensile Pulse", Acta Met., 34 (8), 1625-1641 (1986). Meyers 79

80.

N.N. Thadhani and M.A. Meyers, "Kinetics of Isothermal Martensite Transformation", Progress in Materials Science, 30, (1), p. 1-37 (1986). Meyers 80

81.

M.A. Meyers and N.N. Thadhani, "Martensitic Transformation Induced by Tensile Stress Pulses", in Proc. 9th Intl. Conf. on High Energy Rate Fabrication, Novosibirsk, USSR, eds., I.V. Yakovlev and V.F. Nesterenko, p. 90-97 (August 1986). Meyers 81

82.

M.A. Meyers, "Shock-Wave Consolidation of Rapidly-Solidified Metal Powders", in Proc. of the Fourth Conference on Rapid Solidification Technology, eds., R. Mehrabian and M. Cohen, Santa Barbara, CA, 14 pages, (December 1986). Meyers 82

83.

K.K. Chawla and M.A. Meyers, "Metallurgy, Mechanical", in Encyclopedia of Physical Science and Technology, ed., R.A. Meyers, Academic Press,Vol. 8, p. 181-196 (1987). Meyers 83

84.

S.N. Chang and M.A. Meyers, "Martensitic Transformation Induced by a Tensile Stress Pulse in Fe-22.5 wt% Ni-4 wt% Mn Alloy", in Acta Met., 36, p. 1085-1098, (1988). Meyers 84

85.

M.A. Meyers, C.L. Wittman, H.-r. Pak, and S. Kuriyama, "Observation and Modeling of High-Strain-Rate Shear Localization", in Impact Loading and Dynamic Behavior of Materials, Deutsche Gesellschaft für Metallkunde, eds., C.Y. Chiem, L.W. Meyer, and H.D. Kunze, p. 719-728 (1987). Meyers 85

86.

M.A. Meyers and S.L. Wang, "An Improved Method for Shock Consolidation of Powders", Acta Met., 36, p. 925-936 (1988). Meyers 86

87.

M.A. Meyers, N.N. Thadhani, and S.N. Chang, "Martensitic Transformation Induced by Tensile Stress Pulses", in Proc. DYMAT 88 (Ajaccio, France), J. de Physique, 49, p. C3-355-362 (Colloque-3) (1988). Meyers 87

88.

S.L. Wang, M.A. Meyers, and A. Szecket, "Warm Shock Consolidation of IN 718 Powder", J. Matls. Sci., 23, p. 1786-1796 (1988). Meyers 88

89.

S.N. Chang, M.A. Meyers, N.N. Thadhani, and D.C. Erlich,  "Martensitic Transformation Induced by Tensile Stress Pulse in an Fe-Ni-Mn Alloy", in Shock Waves in Condensed Matter, eds., S.C. Schmidt and M.C. Holmes, North Holland, p. 143-146 (1988). Meyers 89

90.

M.A. Meyers, N.N. Thadhani, and H.L. Coker, "Shock Consolidation of Rapidly-Solidified Titanium Alloy Powders", in Rapidly Solidified Materials: Properties and Processing, Proceedings of the 2nd International Conference on Rapidly Solidified Materials, San Diego, CA, 7-9 March 1988, eds., P.W. Lee and J.H. Moll, ASM International, Metals Park, Ohio, p. 191-197 (1988). Meyers 90

91.

L.H.L. Louro, A. Lindfors, and M.A. Meyers, "Stress-Wave-Induced Damage in Alumina", in Proc. DYMAT 88 (Ajaccio, France), J. de Physique, 49, p. C3-333-338, (Colloque-3) (1988). Meyers 91

92.

L.H. Yu, N.N. Thadhani, and M.A. Meyers, "Dynamic Powder Consolidation and Synthesis of Intermetallic Compounds", in Proc. DYMAT 88 (Ajaccio, France), J. de Physique, 49, p. C3-659-666, (Colloque-3) (1988). Meyers 92

93.

D.M. Bowden, P.J. Meschter, L.H. Yu, M.A. Meyers, and N.N. Thadhani, "Synthesis of Novel Aluminide-Based Materials", J. Metals, p. 18-20, September (1988). Meyers 93

94.

M.A. Meyers, N.N. Thadhani, and L.H. Yu, "Explosive Shock Wave Consolidation of Metal and Ceramic Powders", in Industrial Applications of Shock Waves, ed., L. E. Murr, Noyes Publications, p. 265-334 (1989). Meyers 94

95.

L.H.L. Louro and M.A. Meyers, "Effect of Stress-State and Microstructural Parameters on Impact Damage of Alumina-Based Ceramics", J. Matls. Sci., 24, p. 2516-2532, (1989). Meyers 95

96.

S. Kuriyama and M.A. Meyers, "Generation and Formation of Adiabatic Shear Band Produced by Simple Shearing", J. of the J.S.T.P., Vol. 30, p. 961-968, (1989). (In Japanese.) Meyers 96

97.

S.J. Work, L.H. Yu, N.N. Thadhani, M.A. Meyers, R.A. Graham, and W.F. Hammetter, "Shock-Induced Chemical Synthesis of Intermetallic Compounds", in Combustion and Plasma Synthesis of High-Temperature Materials, eds. Z.A. Munir and J.B. Holt, VCH, New York, p. 133-143 (1990). Meyers 97

98.

C.L. Wittman, M.A. Meyers, and H.-r. Pak, "Observation of an Adiabatic Shear Band in AISI 4340 Steel by High-Voltage Transmission Electron Microscopy", Met. Trans.A, 21A, p. 707-716, (1990). Meyers 98

99.

M.A. Meyers and C.L. Wittman, "Effect of Metallurgical Parameters on Shear Band Formation in Low-Carbon (~0.20 wt. pct.) Steels", Met. Trans., 21A, pp. 3153-3164 (1990). Meyers 99

100.

H.L. Yu, M.A. Meyers, and N.N. Thadhani, "Reaction-Assisted Shock Consolidation of RSR Ti-Al Alloys", J. Matls. Res., 5, p. 302-312 (1990). Meyers 100

101.

A. Ferreira, L.H. Yu, N.N. Thadhani, S.N. Chang, S.S. Shang, and M.A. Meyers, "Shock Compaction, Synthesis, and Chemically Assisted Bonding of Alumides and Silicides", in Shock Waves in Condensed Matter-1989, eds. S.C. Schmidt, J.N. Johnson, and L.W. Davidson, North-Holland, p. 495-498 (1990). Meyers 101

102.

L.H.L. Louro and M.A. Meyers, "Stress-Wave Induced Fragmentation in Alumina-Based Ceramics", in Shock Waves in Condensed Matter-1989, eds. S.C. Schmidt, J.N. Johnson, and L.W. Davidson, North-Holland, p. 465-468 (1990). Meyers 102

103.

A.H. Chokshi and M.A. Meyers, "The Prospects for Superplasticity at High Strain Rates: Preliminary Considerations and an Example", Scripta Met. , 24, p. 605-610 (1990). Meyers 103

104.

J. LaSalvia, L.W. Meyer, D. Hoke, A. Niiler, and M.A. Meyers, "Reaction Synthesis/Dynamic Compaction of Titanium Carbide and Titanium Diboride", in "Shock Waves and High-Strain-Rate Phenomena in Materials", eds., M.A. Meyers, L.E. Murr, and K.P. Staudhammer, M. Dekker, p. 261-270 (1992). Meyers 104

105.

L.H. Yu and M.A. Meyers, "Shock Synthesis of Silicides", in "Shock Waves and High-Strain-Rate Phenomena in Materials", eds., M.A. Meyers, L.E. Murr, and K.P. Staudhammer, M. Dekker, p. 303-310 (1992). Meyers 105

106.

A. Ferreira and M.A. Meyers, "Method for Determining the Pressure Required for Shock Compaction of Powders", in "Shock Waves and High-Strain-Rate Phenomena in Materials", eds., M.A. Meyers, L.E. Murr, and K.P. Staudhammer, M. Dekker, p. 361-370 (1992). Meyers 106

107.

S.S. Shang and M.A. Meyers, "Shock Densification/Hot Isostatic Pressing of Titanium Aluminides", in "Shock Waves and High-Strain-Rate Phenomena in Materials", eds., M.A. Meyers, L.E. Murr, and K.P. Staudhammer, M. Dekker, p. 393-406 (1992). Meyers 107

108.

M.A. Meyers, L.W. Meyer, J. Beatty, U. Andrade, K.S. Vecchio, and A. Chokshi, "High Strain, High-Strain Rate Deformation of Copper", in "Shock Waves and High-Strain-Rate Phenomena in Materials", eds., M.A. Meyers, L.E. Murr, and K.P. Staudhammer, M. Dekker, p. 529-542 (1992). Meyers 108

109.

J.H. Beatty, L.W. Meyer, M.A. Meyers, and S. Nemat-Nasser, "Formation of Controlled Adiabatic Shear Bands in AISI 4340 High Strength Steel", in "Shock Waves and High-Strain-Rate Phenomena in Materials", eds., M.A. Meyers, L.E. Murr, and K.P. Staudhammer, M. Dekker, p. 645-656 (1992).  Meyers 109

110.

R.B. Scorzelli, I.S. Azevedo, J. Danon, and M.A. Meyers, "Mossbauer study of shock-induced effects in the ordered alloy Fe₅₀Ni₅₀ in meteorites," J. Phys. F: Met. Phys., 17, 1993-1997 (1987). Meyers 110

111.

A. Ferreira, M.A. Meyers, and N.N. Thadhani, "Dynamic Compaction of Titanium Aluminides by Explosively Generated Shock Waves: Microstructure and Mechanical Properties", Met. Trans., 23A, 3251-3261 (1992). Meyers 111

112.

A. Ferreira, M.A. Meyers, N.N. Thadhani, S.N. Chang, and J.R. Kough, "Dynamic Compaction of Titanium Aluminides by Explosively Generated Shock Waves: Experimental and Materials Systems", Met. Trans., 21A, 685-695 (1991). Meyers 112

113.

H.L. Coker, M.A. Meyers, and J.F. Wessels, "Dynamic Consolidation of Rapidly Solidified Titanium Alloy Powders by Explosives", J. Matls. Sci., 26, 1277-1286 (1991). Meyers 113

114.

L.H. Yu, M.A. Meyers, and T.C. Peng, "Shock Consolidation of Al-Li Aluminum-Lithium Alloy Powders", Mater. Sci. and Eng., A132, 257-265 (1991). Meyers 114

115.

L.H. Yu and M.A. Meyers, "Shock Synthesis and Synthesis-assisted Shock Consolidation of Silicides", J. Matls. Sci., 26, 601-611 (1991). Meyers 115

116.

S.S. Shang and M.A. Meyers, "Shock Densification/Hot Isostatic Pressing of Titanium Aluminide", Met. Trans., 22A, 2667-2676 (1991). Meyers 116

117.

Y. Sano, S.N. Chang, M.A. Meyers, and S. Nemat-Nasser, "Identification of Stress Induced Nucleation Sites for Martensite in Fe-31.8 wt % Ni-0.02 wt % C Alloy", Acta Met., 40, 413-417 (1992). Meyers 117

118.

L.W. Meyer, J.C. LaSalvia, and M.A. Meyers, "Densification of Reaction Synthesized Titanium Carbide by High-Velocity Forging", J. Am. Cer. Soc.,  75, 592-602 (1992). Meyers 118

119.

D.A. Hoke, M.A. Meyers, L.W. Meyer, and G.T. Gray III, "Reaction synthesis/Dynamic Compaction of Titanium Diboride", Metallurgical Transactions A, 23A, 77-86 (1992). Meyers 119

120.

K. Hokamoto, S.S. Shang, L.H. Yu, and M.A. Meyers, "Hot Shock  Consolidation of Diamond and Cubic Boron Nitride Powders", in "Shock Waves and High-Strain-Rate Phenomena in Materials", eds., M.A. Meyers, L.E. Murr, and K.P. Staudhammer, M. Dekker, 453-461 (1992). Meyers 120

121.

M.A. Meyers, L.W. Meyer, K.S. Vecchio, and U. Andrade, "High Strain, High Strain-Rate Deformation of Copper", in Proc. DYMAT, Strasbourg, France, J.de Physique, C3-11-17 (1991). Meyers 121

122.

M.A. Meyers, J.C. LaSalvia, L.W. Meyer, D. Hoke, and A. Niiler, "Reaction Synthesis/Dynamic Compaction of Titanium Carbide and Titanium Diboride", in Proc. DYMAT, Strasbourg, France, J. de Physique,  C3-123-130 (1991). Meyers 122

123.

S. Shang, K. Hokamoto and M.A. Meyers, "Hot Dynamic Consolidation of Hard Ceramics",  J. Matls. Sci., 27, 5470-5476 (1992). Meyers 123

124.

M.A. Meyers, L.-H. Yu and K.S. Vecchio, "Shock Synthesis of Silicides", in Shock Compression of Condensed Matter - 1991,  eds. S.C. Schmidt, R.D. Dick, J.W. Forbes, D.G. Tasker, North-Holland, Amsterdam, 629-632 (1992). Meyers 124

125.

K.S. Vecchio, U. Andrade, M.A. Meyers, and L.W. Meyer, "Microstructural Evolution in High Strain, High Strain-Rate Deformation", in Shock Compression of Condensed Matter - 1991,  eds. S.C. Schmidt, R.D. Dick, J.W. Forbes, D.G. Tasker, North-Holland, Amsterdam, 527-530 (1992).  Meyers 125

126.

S. Nemat-Nasser, Y. Sano, S.N. Chang, and M.A. Meyers, "Incubation Time and Growth Pattern of Martensite under a Short Stress Pulse", in Shock Compression of Condensed Matter - 1991, eds. S.C. Schmidt, R.D. Dick, J.W. Forbes, D.G. Tasker, North-Holland, Amsterdam, 181-185 (1992).  Meyers 126

127.

L.H. Yu, M.A. Meyers, and K.S. Vecchio, "Shock Synthesis of Silicides:  Microstructures and Mechanisms", Proceedings of the 2nd International Symposium on Intense Dynamic Loading and its Effects, ed. Zhang Zhemin, Sichuan University Press, Chengdu, Sichuan, China, 741-748 (1992).  Meyers 127

128.

K.S. Vecchio, J.C. LaSalvia, M.A. Meyers, G.T. Gray III, "Microstructural Characterization of Self-Propagating High-Temperature Synthesis/Dynamically Compacted and Hot Pressed Titanium Carbides", Met. Trans. A, 23A, 87-97 (1992).  Meyers 128

129.

M.A. Meyers, E.A. Olevsky, J. Ma, and J.-M. Jamet, "Combustion Synthesis/Densification of an Al₂O₃-TiB₂ Composite”, Mat. Sci. and Eng., 311(2001) 83-99. Meyers 129

130.

S.S. Shang, M.A. Meyers, L.-H. Yu, and K. Hokamoto, "The Use of Thermal Energy in Shock-Wave Compaction of Ceramics and Intermetallics", Proceeding of International Conference on Advanced Synthesis of Engineered Structural Materials, September, 87-91 (1993). Meyers 130

131.

M.A. Meyers, J.C. LaSalvia, D. Hoke, J.-M. Jamet, and D.K. Kim, "Combustion Synthesis/Densification of Ceramics and Ceramic Composites," Proceeding of International Conference on Advanced Synthesis of Engineered Structural Materials, September,  43-57 (1993). Meyers 131

132.

M.A. Meyers, S.S. Shang, and K. Hokamoto, "The Role of Thermal Energy in Shock Consolidation," in Applications of Shock Waves in Materials Science, edited by A. B. Sawaoka, Springer-Verlag, 145-176 (1993).  Meyers 132

133.

K.S. Vecchio, L.-H. Yu, and M.A. Meyers, "Shock Synthesis of Silicides, Part I:  Experimentation and Microstructural Evolution," Acta Met. et Mat., 42, 701-714 (1994).  Meyers 133

134.

M.A. Meyers, L-H. Yu, and K.S. Vecchio, "Shock Synthesis of Silicides, Part II:  Thermodynamics and Kinetics," Acta Met.et Mat., 42, 715-729 (1994) . Meyers 134

135.

L.H. L. Louro, J.R.A. Ribeiro, and M.A. Meyers, "Dynamic Fragmentation of Alumina:  A Simplified Model,"  13th International Symposium on Ballistics, Stockholm, 1-3 June, (1992).  Meyers 135

136.

J.H. Beatty, Y.-F. Li, M.A. Meyers, and S. Nemat-Nasser, "Adiabatic Shear-Banding in High-Strength Alloys", Proc. 12th Army Symposium on Solid Mechanics, ed. S.C. Chou, 331-345 (1991). Meyers 136

137.

D.A. Hoke, D.K. Kim, J.C. LaSalvia, and M.A. Meyers, "Combustion Synthesis/Dynamic Compaction of TiB₂-SiC Composite", J. Am. Cer. Soc., 79 177-182 (1996).  Meyers 137

138.

M.A. Meyers, G. Subhash, B. Kad, and L. Prasad, "Evolution of Microstructure and Shear Band Formation in a-hcp Titanium", Mech. of Matls., 17 175-193 (1994). Meyers 138

139.

A.K. Zurek and M.A. Meyers, "Microstructural Aspects of Dynamic Failure," invited chapter in "Dynamic Fracture and Fragmentation," eds. L. Davison, D.E. Grady, and M.Shahinpoor, Springer, NY, 25-70 (1996). Meyers 139

140.

M.A. Meyers, D.J. Benson, and S.S. Shang, "Energy Expenditure and Limitations in Shock Consolidation," in "High-Pressure Science and Technology-1993," eds. S.C. Schmidt, J.W. Shaner, G.A. Samara, and M. Ross, AIP Press, NY 1239-1242 (1994). Meyers 140

141.

L.H. Yu, W.J. Nellis, M.A. Meyers, and K.S. Vecchio, "Shock Synthesis of Niobium Silicides," in "High-Pressure Science and Technology-1993," eds. S.C. Schmidt, J.W. Shaner, G.A. Samara, and M.Ross, AIP Press, NY, 1291-1294 (1994). Meyers 141

142.

A.J. Strutt, K.S. Vecchio, L.-H. Yu, M.A. Meyers, and R.A. Graham, "Shock Synthesis of Nickel Aluminides," in "High-Pressure Science and Technology-1993," eds. S.C. Schmidt, J.W. Shaner, G.A. Samara, and M.Ross, AIP Press, NY, 1259-1262 (1994). Meyers 142

143.

U. Andrade, M.A. Meyers, and A.H. Chokshi, "Constitutive Description of Work- and Shock-Hardened Copper," Scripta Met. et Mat. 30 933-938 (1994). Meyers 143

144.

M.A. Meyers, U. Andrade, and A.H. Chokshi, "The Effect of Grain Size on the High-Strain, High-Strain-Rate Behavior of Copper," Met. and Mat. Trans., 26A 2881-2893 (1995). Meyers 144

145.

U. Andrade, M.A. Meyers, K.S. Vecchio, and A.H. Chokshi, "Dynamic Recrystallization in High-Strain, High-Strain-Rate Plastic Deformation of Copper," Acta Met. et Mat., 42 3183-3195 (1994). Meyers 145

146.

U. Andrade, M.A. Meyers, A.H. Chokshi, and K.S. Vecchio, "Recrystallization and Grain-Size Effects in Shock-Hardened Copper," Proc. EURODYMAT 94, ed. J. Harding, Oxford, J. de Physique IV, 4, C8-361-366 (1994). Meyers 146

147.

M.A. Meyers, "Dynamic Failure: Mechanical and Microstructural Aspects," Proc. EURODYMAT 94, ed. J. Harding, Oxford, J. de Physique IV, 4 C8-587-630 (1994). Meyers 147

148.

S.S. Shang, D.J. Benson, and M.A. Meyers, "Microstructurally-based Analysis and Computational Modeling of Shock Consolidation," Proc. EURODYMAT 94, ed. J. Harding, Oxford, J. de Physique IV, 4 C8-521-526 (1994). Meyers 148

149.

J.C. LaSalvia, M.A. Meyers, and D.K. Kim, "Combustion Synthesis/Dynamic Densification of TiC-Ni Cermets," J. Mater. Syn. Proc., 2, [4] 255-274 (1994). Meyers 149

150.

D.A. Hoke and M.A. Meyers, "Consolidation of Combustion Synthesized Titanium Diboride-Based Materials," J. Am. Ceram. Soc., 78[2], 275-284 (1994). Meyers 150

151.

D.K. Kim, J.C. LaSalvia, D.A. Hoke, and M.A. Meyers, "Combustion Synthesis/Dynamic Compaction of TiB2-SiC Composite," J. Am. Ceram. Soc., 78, 275-284 (1995). Meyers 151

152.

M.A. Meyers, S.S. Batsanov, S.M. Gavrilkin, H.C. Chen, J.C. LaSalvia, and F.D.S. Marquis, "Effect of Shock Pressure and Plastic Strain on Chemical Reactions in Nb-Si and Mo-Si Systems," Mat. Sci. and Eng., 201, 150-158 (1995). Meyers 152

153.

M.S. Hsu, M.A. Meyers, and A. Berkowitz, "Synthesis of Nanocrystalline Titanium Carbide by Spark Erosion," Scripta Met. et Mat., 32, 805-808 (1995). Meyers 153

154.

V.F. Nesterenko, M.A. Meyers, H.C. Chen, and J.C. LaSalvia, "Controlled High-Rate Localized Shear in Porous Reactive Media," Appl. Phys. Letters, 65 3069-3071 (1994).  Meyers 154

155.

J.C. LaSalvia, D.K. Kim, R.A. Lipsett, and M.A. Meyers, "Combustion Synthesis in the Ti-C-Ni-Mo System: I. Macrokinetics and Micromechanisms," Met. and Mat. Trans., 26A 3001-3009 (1995).  Meyers 155

156.

J.C. LaSalvia and M.A. Meyers,  "Combustion Synthesis in the Ti-C-Ni-Mo System:  II Analysis," Met. and Mat. Trans., 26A 3011-3019 (1995). Meyers 156

157.

M.A. Meyers, Y.J. Chen, F. Marquis, and D.S. Kim, "High-Strain, High-Strain-Rate Deformation of Tantalum," Met. and Mat. Trans., 26A 2493-2509 (1995). Meyers 157

158.

S.S. Shang and M.A. Meyers, "Shock Consolidation of Silicon Carbide," J. Matls. Sci., 31 252-261 (1996). Meyers 158

159.

R.V. Raman, S.V. Rele, S. Poland, J. Lasalvia, M.A. Meyers, and A.R. Niiler, “The One-Step Synthesis of Dense Titanium-Carbide Tiles,” J. Of Metals, March 23-25 (1995). Meyers 159

160.

V.F. Nesterenko, M.A. Meyers, H.C. Chen, and J.C. LaSalvia, "The Structure of Controlled Shear Bands in Dynamically Deformed Reactive Mixtures," Met. and Mat. Trans., 26A 2511-2519 (1995). Meyers 160

161

J.C. LaSalvia, D.K. Kim, and M.A. Meyers, "Effect of Mo on Microstructure and Mechanical Properties of TiC-Ni-Based Cermets Produced by Combustion Synthesis/Impact Forging Technique," Mat. Sci. and Eng., A206 71-80 (1995). Meyers 161

162

A.J. Strutt, M.A. Meyers, and K.S. Vecchio, "Analytical Electron Microscopy of Shock-Synthesized Niobium Silicide Composites," Proc. 52nd Ann. Meet. MSA, G.W. Bailey and A.J. Garratt-Reed Eds., 704-705 (1995). Meyers 162

163

V.F. Nesterenko, M.A. Meyers, and T.W. Wright, “Self-Organization in the Initiation of Shear Bands in High-Strain-Rate Deformation,” Acta Met. et Mat., 46 327-340 (1998). Meyers 163

164

V.F. Nesterenko, M.A. Meyers, and H-C. Chen, “Shear Localization in High Strain, High Strain Rate Deformation of Granular Alumina,” Acta Met. et Mat., 44 2017-2026 (1996). Meyers 164

165

V.F. Nesterenko, M.A. Meyers, and T.W. Wright “Collective Behavior of Shear Bands,” in “Metallurgical and Materials Applications of Shock-Wave and High-Strain-Rate Phenomena,” eds. L.E. Murr, K.P. Staudhammer, and M.A. Meyers, Elsevier, 397-404 (1996). Meyers 165

166

M.A. Meyers, V.F. Nesterenko, Y.J. Chen, J.C. LaSalvia, M.P. Bondar, and Y.L. Lukyanov, “High-strain, high-strain-rate Deformation of Tantalum:  the Thick-Walled Cylinder Method,” in “Metallurgical and Materials Applications of Shock-Wave and High-Strain-Rate Phenomena,” eds. L.E. Murr, K.P. Staudhammer, and M.A. Meyers, Elsevier, 487-494 (1996). Meyers 166

167

H.C. Chen, M.A. Meyers, and V.F. Nesterenko, “Chemical Reaction in Ti-Si Mixture under Controlled High-Strain-Rate Deformation,” in “Metallurgical and Materials Applications of Shock-Wave and High-Strain-Rate Phenomena,” eds. L.E. Murr, K.P. Staudhammer, and M.A. Meyers, Elsevier, 723-729 (1996). Meyers 167

168

S. Pappu, C-S. Niou, C. Kennedy, L.E. Murr, L. DuPlessis and M.A. Meyers, “High-Strain-Rate Behavior of Pure Tantalum in Explosively Formed Penetrator and Shaped Charge Regimes,” in “Metallurgical and Materials Applications of Shock-Wave and High-Strain-Rate Phenomena,” eds. L.E. Murr, K.P. Staudhammer, and M.A. Meyers, Elsevier, 495-502 (1996). Meyers 168

169.

S.S. Batsanov, F.D.S. Marquis, and M.A. Meyers, “Shock Synthesis of Mo and Nb Silicides,” in “Metallurgical and Materials Applications of Shock-Wave and High-Strain-Rate Phenomena,” eds. L.E. Murr, K.P. Staudhammer, and M.A. Meyers, Elsevier, 715-722 (1996). Meyers 169

170.

V.F. Nesterenko, M.A. Meyers, J.C. LaSalvia, M.P. Bondar, Y.J. Chen, and Y.L. Lukyanov, “Investigation of High-Strain, High-Strain-Rate Behavior of Tantalum Using the Collapse of a Thick-Walled Cylinder,” Matls. Sci. and Eng., A229 23-41 (1997). Meyers 170

171.

J.C. LaSalvia and M.A. Meyers, “Microstructure, Properties, and Mechanisms of TiC-Mo-Ni Cermets Produced by SHS,” Intl. J. Comb. Synth., 4 (1995) 43-57. Meyers 171

172.

H.C. Chen, M.A. Meyers, and V.F. Nesterenko, “Shear Localization in Granular and Comminuted Alumina,” in “Shock Compression of Condensed Matter 1995,” ed. S.C. Schmidt and W.C. Tao, AIP Press, (1996) 607-610. Meyers 172

173.

H.C. Chen, V.F. Nesterenko, and M.A. Meyers, “Shear-Induced Chemical Reactions in Controlled High-Strain-Rate Shear Bands,” in “Shock Compression of Condensed Matter 1995,” ed. S.C. Schmidt and W.C. Tao, AIP Press, (1996) 713-716. Meyers 173

174.

D. Benson, V.F. Nesterenko, F. Jonsdottir, and M.A. Meyers, “Quasistatic and Dynamic Regimes of Granular Material Deformation under Impulse Loading,” J. Mech. Phys. Solids, 45, No. 11/12, 1955-1999 (1997). Meyers 174

175.

L.E. Murr, M.A. Meyers, C-S. Niou, Y.J. Chen, S. Pappu and C. Kennedy, “Shock-Induced Deformation Twinning in Tantalum,” Acta Met. et. Mat., 45 (1997) 157-175. Meyers 175

176.

L.E. Murr, S. Pappu, C. Kennedy, C-S. Niou, and M.A. Meyers, “Tantalum Microstructures for High-Strain-Rate Deformation: Shock Loading, Shaped Charges, and Explosively Formed Penetrators,” in “Tantalum,” TMS-AIME, Warrendale, PA, (1996), 145-155. Meyers 176

177.

D.H. Lassila, M.M. LeBlanc, M.A. Meyers, “Effect of Shock Prestrain on the Mechanical Behavior of Tantalum and Tantalum-Tungsten Alloys,” in “Tantalum” TMS-AIME, Warrendale, PA, (1996), 185-190. Meyers 177

178.

J.C. LaSalvia, Y.J. Chen, M.A. Meyers, V.F. Nesterenko, M.P. Bondar, and Y.L. Lukyanov, “High-Strain, High-Strain-Rate Response of Annealed and Shocked Tantalum,” in “Tantalum,” TMS-AIME, Warrendale, PA, (1996) 139-144. Meyers 178

179.

S. Pappu, C. Kennedy, L.E. Murr, and M.A. Meyers, “Deformation Twins in a Shock-Loaded Ta-2.5 Precursor Plate and a Recovered, Ta-2.5 Explosively Formed Penetrator,” Scripta Mat., 35, No. 8 (1996) 959-965. Meyers 179

180.

T. Dümmer, J.C. LaSalvia, G. Ravichandran, and M.A. Meyers, “Effect of Strain Rate on Plastic Flow and Failure in Polycrystalline Tungsten,” Acta Materialia, 46 pp. 6267-6290 (1998). Meyers 180

181.

M.A. Meyers, J.C. LaSalvia, V.F. Nesterenko, and B.K. Kad, “Dynamic Recrystallization in High-Strain-Rate Deformation,” in “Recrystallization and Related Phenomena”, Ed. J.R. McNelley, Proc. Rex. 96, 279-286. Meyers 181

182.

Y.J. Chen, J.C. LaSalvia, V.F. Nesterenko, M.A. Meyers, M.P. Bondar, and Y.L. Lukyanov, “High-Strain, High-Strain-Rate Deformation, Shear Localization, and Recrystallization in Tantalum,” Proc. EURODYMAT, Sept. 1997, Toledo, Spain, pp. C-435-440. Meyers 182

183.

C.J. Shih, V.F. Nesterenko, and M.A. Meyers, “Shear Localization and Comminution of Granular and Fragmented Silicon Carbide,” J. Phys. IV, C3,  Proc. EURODYMAT, Sept. 1997, Toledo, Spain, pp. C3 - 577-582. Meyers 183

184.

C.J. Shih, V.F. Nesterenko, and M.A. Meyers, “Shear Localization and Commution in High-Strain-Rate Deformation of Silicon Carbide,” J. Appl. Phys., vol.83, 4660-4671 (1998). Meyers 184

185.

H.C. Chen, V.F. Nesterenko, J.C. LaSalvia, and M.A. Meyers, “Shear-Induced Exothermic Chemical Reactions,” J. Phys. IV, C3, Proc. EURODYMAT, Sept. 1997, Toledo, Spain, pp. C3 – 27-32. Meyers 185

186.

S.S. Batsanov, S.M. Gavrilkin, F.D. Marquis, and M.A. Meyers, “Thermodynamics and Kinetics of MSi2 Formation under Shock Compression,” Russian Journal of Inorganic Chemistry, Vol. 42, No. 1, 103-109 (1997). Meyers 186

187.

H.C. Chen, J.C. LaSalvia, V.F. Nesterenko, and M.A. Meyers, “Shear Localization and Chemical Reaction in High-Strain, High-Strain-Rate Deformation of Ti-Si Powder Mixtures,” Acta Mat., 46, 3033-3046 (1998). Meyers 187

188.

H.C. Chen, V.F. Nesterenko, and M.A. Meyers, “Shear Localization and Chemical Reaction in Ti-Si and Nb-Si Powder Mixtures: Thermochemical Analysis,” J. Appl. Phys., 84 (1998). Meyers 188

189.

H.C. Chen, V.F. Nesterenko, and M.A. Meyers, “Controlled High-Rate Deformation of Ti-Graphite and Ti-Ultrafine Diamond Mixtures,” Matls. Sci. and Eng., accepted (1998). Meyers 189

190

E.A. Olevsky, E. Kristofetz, C. Uzoigwe, and M.A. Meyers, “Optimization of the Combustion Synthesis/Quasi-Static Pressing processing Sequence in TiC-Based Cermets”, in “Advances in Powder Metallurgy and Particulate Materials –1997”, MPIF, pp. 3-43 - 3-49. Meyers 190

191.

E.A. Olevsky, E.R. Kristofetz, and M.A. Meyers, “Controlled Net Shape, Density, and Microstructure of TiC-NiTi Cermets Using Quasi-Isostatic Pressing,” Intl. J. Comb. Synth.,  7, 517-528 (1998). Meyers 191

192.

C.J. Shih, M.A. Meyers, and V.F. Nesterenko, “High-Strain-Rate Deformation of Granular Silicon Carbide,” Acta Mat., 46, 4037-4015 (1997). Meyers 192

193.

K. Hokamoto, S. Tanaka, M. Fujita, S. Itoh, M.A. Meyers, H.-C. Chen, “High Temperature Shock Consolidation of Hard Ceramic Powders,” Physica B, 239, 1-5 (1997). Meyers 193

194.

S.S. Batsanov, S.M. Gavrilkin, L.I. Kopaneva, I.I. Maksimov, M.A. Meyers, H.C. Chen, R. Prümmer, E.E. Seiko, and V.A. Vazyulin, “h-BN®w-BN Phase Transition Under Dynamic-Static Compression,” J. Matls. Sci. Ltrs., 16, 1625-1627 (1997). Meyers 194

195.

A.A. Hauer, J.S. Wark, D. Kalantar, B. Remington, R. Kopp, J. Cobble, B. Failor, G. Kyrala, M. Meyers, R. Springer, and T. Boehley, “Transient X-ray Diffraction and It’s Applications to Materials Science and X-ray Optics,” Proc. SPIE Conf., Vol. 3157, 72-83 (1998). Meyers 195

196.

V.I. Levitas, V.F. Nesterenko, and M.A. Meyers,  “Strain-Induced Structural Changes and Chemical Reactions. I. Thermomechanical and Kinetic Models,” Acta Mat., vol. 46, 5929-5945 (1998). Meyers 196

197.

V.I. Levitas, V.F. Nesterenko, and M.A. Meyers,  “Strain-Induced Structural Changes and Chemical Reactions. II Modeling of Reactions in Shear Band.”  Acta Mat., 46, 5947-5963 (1998). Meyers 197

198.

Y.–J. Chen, M.A. Meyers, and V.F. Nesterenko, “Spontaneous and Forced Shear Localization in High-Strain-Rate Deformation of Tantalum.” Mat. Sci. and Eng., A268, 70-82 (1999). Meyers 198

199.

V.A. Lubarda and M.A. Meyers, “A Note on Engineering Constants of Anisotropic Materials and Negative Poisson Ratio in Monocrystalline Zinc Scripta Mat., 40, No. 8, 975-977 (1999). Meyers 199

200.

C.J. Shih, M.A. Meyers, V.F. Nesterenko and S.J. Chen, “Damage Evolution in Dynamic Deformation of Silicon Carbide”  Acta Mat.,48, 2399-2420 (2000). Meyers 200

201.

M.A. Meyers, V.F. Nesterenko, K.S. Vecchio, S.S. Batsanov, “Shock and Shear Induced Chemical Reactions in Mo-Si, Nb-Si, and Ti-Si Systems” in “Molybdenum Alloys”, ed. A.N. Crowson , E. Chen, TMS-AIME. pp. 221-239 (1998) Meyers 201

202.

M.A. Meyers, D. Benson, and E.A. Olevsky, “Shock Consolidation: Microstructurally-Based Analysis and Computational Modeling”, Acta Mat., 47, 2089-2108 (1999). Meyers 202

203.

E.R. Strutt, E.A. Olevsky, and M.A. Meyers, “Combustion Synthesis/Quasi-Isostatic Pressing or TiC-NiTi and TiB2-NiTi Cermets; Microstructure and Shape Distortion”, Matls. Sci. and Eng., submitted (1998). Meyers 203

204.

M.A. Meyers, O. Vöhringer, and Y.J. Chen, “A Constitutive Description of the Slip-Twinning Transition in Metals”, in “Advances in Twinning,” TMS-AIME, eds. S. Ankem and C. S. Pande pp.43-65 (1999). Meyers 204

205.

H.O.K. Kirchner, R.W. Armstrong, and M.A. Meyers, “The Mechanics- Materials Linkage,” in “Mechanics and Materials: Fundamentals and Linkages,” eds., M.A. Meyers, R.W. Armstrong, and H.O.K. Kirchner, J.Wiley, N.Y., pp.1-18 (1999). Meyers 205

206.

M.A. Meyers, “Dynamic Deformation and Failure,” in “Mechanics and Materials: Fundamentals and Linkages,” eds., M.A. Meyers, R.W. Armstrong, and H.O.K. Kirchner, J. Wiley, N.Y., pp.489-594(1999). Meyers 206

207.

E.A. Olevsky, J.C. La Salvia, and M.A. Meyers, Modeling and Experimentation on Quasi-Isostatic Pressing, in “ Advances in Powder Metallurgy and Particulate Materials-1997, MPIF, (1997), pp. 20.13-20.19. Meyers 207

208.

E.A. Olevsky, E.R. Strutt, and M.A. Meyers, Modeling and Experimentation on Indentation of Combustion Synthesized Cermets, in “Advances in Powder Metallurgy and Particulate Materials –1998”, MPIF, pp.  3-93 - 3-100. Meyers 208

209.

M.A. Meyers, Q. Xue, V.F. Nesterenko, and J.C. LaSalvia, “ Shear localization in materials: Microstructural Evolution and Self-Organization’, Mat. Sci. and Eng., A317(2001)204-225.  Meyers 209

210.

H.C. Chen, V.F. Nesterenko, and M.A. Meyers, “Controlled High-Rate Deformation of Ti-Graphite and Ti-Ultrafine Diamond Mixtures,” Mat. Sci. and Eng., (2000) ACCEPTED. Meyers 210

211.

R. Menig, M.H. Meyers, M.A. Meyers, and K.S. Vecchio, “Quasi-Static and Dynamic Mechanical Response of Haliotis Rufescens (Abalone) Shells,” Acta Mat., 48,2383-2398 (2000). Meyers 211

212.

Q. Xue, D.J. Benson, M.A. Meyers, E.A. Olevsky, and V.F. Nesterenko, “Constitutive Response of Welded HSLA 100 Steel”, Matls. Sci. and Eng., 54, 166-179 (2003). Meyers 212

213.

M.A. Meyers, O. Vöhringer, and V.A. Lubarda, “The Onset of Twinning in Metals: A Constitutive Description,” Acta Mat., 49(2001)4025-4039.  Meyers 213

214.

R. Menig, M.H. Meyers, M. A. Meyers, and K.S. Vecchio, “Quasi-Static and Dynamic Mechanical Response of Strombus Gingas (Conch) Shells,” Mat. Sci. and Eng., A297, pp.203-211(2001). Meyers 214

215.

D.H. Kalantar, E.A. Chandler, J.D. Colvin, R. Lee, B.A. Remington, S.V. Weber, L.G. Wiley, A. Hauer, J.S. Wark, A. Loveridge, B.H. Failor, M.A. Meyers, and G. Ravichandran, “Transient X-Ray Diffraction Used to Diagnose Shock Compressed Si Crystals on the Nova Laser,” Review of Scientific Instruments, 70, No. 1, 629-632 (1999). Meyers 215

216.

M.A. Meyers, D.J. Benson, and H.-H. Fu, “Grain-Size-Yield Stress Relationship: Analysis and Computation”, in Advanced Materials for the 21st Century, Y-W Chung, D.C. Dunand, P.K. Liaw, and G.B. Olson,  TMS-AIME, Warrendale, Pa, pp.499-512 ( 1999). Meyers 216

217.

E.R. Strutt, E.A. Olevsky, and M.A. Meyers, “Combustion Synthesis/Densification of Ceramics and Cermets”, in Powder Materials: Current Research and Industrial Practices, ed. F.D.S. Marquis, TMS-AIME, Warrendale, PA, pp. 73-89 (1999). Meyers 217

218.

E.A. Olevsky, E.R. Strutt, and M.A. Meyers, “Characterization by Indentation of Combustion Synthesized Cermets”, Scripta Mat. 44(2001) 1139-1146. Meyers 218

219.

E.R. Strutt, E.A. Olevsky, and M.A. Meyers, “Combustion Synthesis and Quasi-Isostatic Densification of Powder Cermets”, Matls. Proc. Techn., (2001)157-166. Meyers 219

220.

Y.B. Xu, W.L. Zhong, Y.J. Chen, L.T. Shen, Q. Liu, Y.L. Bai, M.A. Meyers, “Shear Localization and Recrystallization in Dynamic Deformation of 8090 Al-Li Ally”, Mat. Sci. and Eng. A299, pp. 287-295(2001). Meyers 220

221.

D.H. Kalantar, B.A. Remington, E.A. Chandler, J.D. Colvin, D.M. Gold, K.O. Mikaelian, S.V. Weber, L.G. Wiler, J.S. Wark, A.A. Hauer, and M.A. Meyers, “High Pressure Solid State Experiments on the Nova Laser”, Int’l Journal of Impact Eng., 23, 409-419 (1999). Meyers 221

222.

C.J. Shih, M.A. Meyers, and V.F. Nesterenko, “Dynamic Behavior of Silicon Carbide”, “Fundamental Issues and Applications of Shock-Wave and High-Strain-Rate Phenomena”, ed. K. P. Staudhammer, L. E. Murr, and M. A. Meyers, Elsevier, pp. 209-217 (2001). Meyers 222

223.

J.C. LaSalvia, E.J. Horwath, E.J. Rapacki, C.J. Shin, and M.A. Meyers, Microstructural and Micromechanical Aspects of ceramic/Long-Rod Projectile Interactions: Dwell/Penetration Transitions in “Fundamental Issues and Applications of Shock-Wave and High-Strain-Rate Phenomena”, ed. K. P. Staudhammer, L. E. Murr, and M. A. Meyers, Elsevier, pp. 437-446 (2001). Meyers 223

224.

Q. Xue, V.F. Nesterenko, and M.A. Meyers, “Self-Organization of Shear bands in Stainless Steel: Grain Size Effects”, “Fundamental Issues and Applications of Shock-Wave and High-Strain-Rate Phenomena”, ed. K. P. Staudhammer, L. E. Murr, and M. A. Meyers, Elsevier pp. 549-559 (2001). Meyers 224

225.

M.A. Meyers, V.F. Nesterenko, J.C. LaSalvia, Y.B. Xu, and Q. Xue, “Observation and Modeling of Dynamic Recrystallization in High-Strain, High-Strain Rate Deformation of Metals”, J – Phys. IV France, 10(2000) PP. 9-51. Meyers 225

226.

V.F. Nesterenko, Q. Xue, and M.A. Meyers, “Self-Organization of Shear Bands in Ti, Ti-6%Al-4%V, and 304 Stainless Steel”, J – Phys. IV France. 10(2000) pp. 9-269. Meyers 226

227.

H.H. Fu, D.J. Benson, and M.A. Meyers, “Analytical and Computational Description of Effect of Grain Size on Yield Stress of Metals”, Acta Mat. 49(2001) 2567-2582. Meyers 227

228.

M.A. Meyers, D.J. Benson, O. Vöhringer, B.K. Kad, Q. Xue, H.H. Fu, and Y.J. Chen, “Constitutive Description of Dynamic Deformation: Physically-Based Mechanisms”, Matls. Sci. and Eng.322, (2002)194-216. Meyers 228

229.

D.H. Kalantar, B.A. Remington, J.D. Colvin, K.O. Mikaelian, S.V. Weber, L.G. Wiley, J.S. Wark, A. Loveridge, A.M. Allen, A. Hauer, and M.A. Meyers, “Solid State Experiments at High Pressure and Strain Rate”, Phys. Plasmas, 7(2000)1999-2006. Meyers 229

230.

D.J. Benson, H.H. Fu, and M.A. Meyers, “On the Effect of Grain Size on Yield Stress: Extension into Nanocrystalline Domain”, Matls. Sci. and Eng.A319(2001)854-861. Meyers 230

231.

V.A. Lubarda, D.J. Benson, and M.A. Meyers, “Strain-Rate Effects in One-Dimensional Rheological Models of Viscoplastic Response”, Int’l. J. of Plasticity, 19 ( 2003) 1097-1118. Meyers 231

232.

Q.Xue, V.F. Nesterenko, and M.A. Meyers, “Self-Organization of Adiabatic Shear Bands in Ti, Ti-6Al-4V and Stainless Steel”, in “Shock Compression of Condensed Matter”, 1999, AIP(2000), pp. 431-434. Meyers 232

233.

M.A. Meyers, “Shear Localization”, in Encyclopedia of Materials: Science and Technology”, Elsevier, 2001. Meyers 233

234.

M.A. Meyers, D. J. Benson, O. Vöhringer, B.K. Kad, Q. Xue, H.-H. Fu, and Y.-J. Chen, “Constitutive Description of Dynamic Deformation: Physically-Based Mechanisms”, Matls. Sci. and Eng. A322(2002)194-216. Meyers 234

235.

M.A. Meyers, Q. Xue, Y. Xu, and V.F. Nesterenko, “Microstructural Evolution and Self Organization of Shear Bands”, in “Impact Engineering and Application, eds. A. Chiba, S. Tanimura, and K. Hokamoto, “Proc. 4th International Symposium on Impact Engineering”, Kumamoto, Japan, 16-18 July 2001, Elsevier, pp. 123-130. Meyers 235

236.

M.A. Meyers, M.T. Perez-Prado, Q. Xue, Y. Xu, and T.R. McNelley, “Microstructural Evolution in Adiabatic Shear Localization in Stainless Steel”, in “Shock Compression of Condensed Matter”, 2001, (2002)571-574 , AIP. Meyers 236

237.

M.A. Meyers, Q. Xue, and V.F. Nesterenko, “Evolution in the Patterning of Adiabatic Shear Bands”, in Shock Compression of Condensed Matter”, 2001, (2002) 567-570, AIP. Meyers 237

238.

M.A. Meyers, V.F. Nesterenko, J.C. LaSalvia, and Q. Xue, “Shear Localization in Dynamic Deformation of Materials: Microstructural Evolution and Self-Organization”, Matls. Sci. and Eng. A317 (2001) 204-225. Meyers 238

239.

M.A. Meyers, F. Gregori, B.K. Kad, M.S. Schneider, D.H. Kalantar, B.A. Remington, G. Ravichandran, and T. Boehly, “Plastic Deformation in Laser-Induced Shock compression of Monocrystalline Copper”, in Shock Compression of Condensed Matter”, 2001, (2002)619-622 AIP.  Meyers 239

240.

M.A. Meyers, F. Gregori, B.K. Kad, M.S. Schneider, D.H. Kalantar, B.A. Remington, G. Ravichandran, and T. Boehly, “Laser-Induced Shock Compression of Monocrystalline Copper”, Acta Mat., 51(2003)1211-1229. Meyers 240

241.

Q. Xue, M.A. Meyers, and V.F. Nesterenko, “Self-Organization of Shear Bands in Titanium and Ti-6% Al-4% V Alloy”, Acta Mat., 50(2002)575-596. Meyers 241

242.

A. Loveridge-Smith, A.  Allen, J. Belak, T. Boehly , A. Hauer ,B.  Holian, D. Kalantar, G. Kyrala, R. W. Lee, P.  Lomdahl, M. A.  Meyers, D. Paisley, S. Pollaine ,B.  Remington, D. C.  Swift, S. Weber, J. S. Wark, “Anomalous Elastic Response of Silicon to Uniaxial Shock Compression on Nanosecond Time Scales”, Phys. Rev. Lett.,   86 (2001)2349-2352. Meyers 242

243.

M. A. Meyers, M. T. Perez-Prado, Q. Xue, Y. Xu, and T. R. McNelley, “Microstructural Evolution In Adiabatic Shear Localization In Stainless Steel”, Acta Materialia, 51(2003)1307-1325. Meyers 243

244.

Q. Xue, V.F. Nesterenko, and M.A. Meyers, “Evaluation of the Collapsing Thick-Walled Cylinder Technique for Shear-Band Spacing”,   Intl. J. of Impact Eng., 28 (2002)257-280.  Meyers 244

245.

Q. Xue, V. F. Nesterenko, and M. A. Meyers, “Self-Organization of Shear Bands in AISI 304 Stainless Steel”, Matls. Sci. and Eng. A384 (2004) 35-46. Meyers 245

246.

L. Krüger, F. Trommer, B. Wielage, S. Mücklich, L. W. Meyer, K. S. Vecchio, M. A. Meyers, “Brazing of Metal Intermetallic Laminate (MIL) TiAl3-Ti-6Al-4V Composites”, Proc. Welding and Brazing Conf., San Diego, 2003.  Meyers 246

247.

D. H. Lassila, T. Shen, and M. A. Meyers, “Effect of Low Temperature Shock Compression  on the Microstructure and Strength of Copper”, Met. and Mat. Trans., 2004, 35A, p. 2729-2740. Meyers 247

248.

F. Grignon, D. H. Benson, K. S. Vecchio, and M. A. Meyers, “Explosive Welding of Aluminum to Aluminum: Experiments, Analysis, ands Computations”, Intl. J. of Impact Eng., 30(2004)1333-1351. Meyers 248

249.

T. Li, F. Grignon, D. Benson, K.S. Vecchio, E. Olevsky, C.F. Jiang, and M.A. Meyers, “Mechanical Response of Al3Ti-Ti MIL Composites”, Matls. Sci., and Eng. A374 (2004) 10-26. Meyers 249

250.

V. A. Lubarda, M. A. Meyers, M. Schneider, B. Remington, and D. Kalantar, “Void Growth in Laser-Generated Tensile Pulses”, Acta Mat., 2004, 52, 1397-1408. Meyers 250

251.

B. Y. Cao, M. A. Meyers, V. F. Nesterenko, D. Benson, And Y.B. Xu,   Shear Localization-Martensitic Transformation Interactions In Fe-Cr-Ni Monocrystal, Proc. 2003 A. P. S. Topical Conference, Shock Compression Of Condensed Matter, Eds. M. D. Furnish, Y. M. Gupta, And J. W. Forbes, AIP  Conference Proceedings 706, 2004, P. 537-541. Meyers 251

252.

M. A. Meyers, B. Cao, V. F. Nesterenko, D. Benson, And Y.B. Xu, Shear Localization-Martensitic Transformation Interactions In Fe-Cr-Ni Monocrystal, Met. and Mat. Trans., 2004, 35A, 2575-2586. Meyers 252

253.

M. A.  Meyers, M. S. Schneider, B. K Kad, V. A. Lubarda, F. Gregori, D.H. Kalantar, B.A. Remington, Laser Shock Compression Of Copper Monocrystals: Mechanisms For Dislocation And Void Generation, J. de Physique IV, vol. 110, 2003, pp. 851-856. Meyers 253

254.

M. S. Schneider, F. Gregori, B. K. Kad, D. H. Kalantar, B. A. Remington, and M. A. Meyers Laser-Induced Shock Compression Of Copper And Copper Aluminum Alloys, Proc. 2003 A. P. S. Topical Conference, Shock Compression Of Condensed Matter, Eds. M. D. Furnish, Y. M. Gupta, And J. W. Forbes, AIP  Conference Proceedings 706, 2004, P. 605 Meyers 254

 255.

M. S. Schneider, B. K. Kad, F. Gregori, D. Kalantar, B. R. Remington, and M. A. Meyers, Laser-Induced Shock Compression of Copper: Orientationa and Pressure Decay Effects, Met. And Mat. Trans., 2004, 35A, p.2633. Meyers 255

256.

F. Grignon, D. Benson, K. S. Vecchio and M. A. Meyers, Explosive Welding of Aluminum To Aluminum: Analysis, Computations And Experiments, Proc. APS Topical Conf. on Shock Compression, 2003, Shock Compression Of Condensed Matter, Eds. M. D. Furnish, Y. M. Gupta, And J. W. Forbes, Aip  Conference Proceedings 706, 2004, P. 1098-1101. Meyers 256

 257.

L.P. Dávila, P. Erhart, E.M. Bringa, M.A. Meyers, V.A. Lubarda, M.S. Schneider, R. Becker, M. Kumar , Shock-induced Void Collapse in fcc Metals, Appl. Phys. Lett. , 2004, 86, 1619021-1619023. Meyers 257

258.

Hsueh-Hung Fu, David J. Benson, and Marc André Meyers, Computational Description Of Nanocrystalline Deformation Based On Crystal Plasticity, Acta Mat., 2004, 52, 4413-4425. Meyers 258

259.

M. S. Schneider, B.K. Kad, F. Gregori, D.H. Kalantar, B.A. Remington, and M.A. Meyers, Laser Induced Shock Defects in Copper Aluminum Alloys: Stacking Fault Energy Effects on the Slip-Twinning Transition, Materials Science Forum, 2004,465-466, 27-34. Meyers 259

260.

B.A. Remington, G. Bazan, J. Belak, E. Bringa, M. Caturla, J.D. Colvin, M.J. Edwards, S.G. Glendinning, D. Ivanov, B. Kad, D.H. Kalantar, M. Kumar, B.F. Lasinski, K.T. Lorenz,  J.M. McNaney, D.D. Meyerhofer, M.A. Meyers, S.M. Pollaine, D. Rowley, M. Schneider,J.S. Stölken, J.S. Wark, S.V. Weber, W.G. Wolfer, B. Yaakobi, Materials Science Under Extreme Conditions of Pressure and Strain Rate, Met. and Mat. Trans., 2004, 35A, p. 2587-2608. Meyers 260

261.

A. Lin and M. Meyers, Growth, Structure and Mechanical Properties of Abalone, Mat. Sci. And Eng.A, 2005, A390, 27-41. . Meyers 261

262.

M. S. Schneider, B. Kad, D. H. Kalantar, B. A. Remington, E. Kenik, V. Lubarda, and M. A. Meyers, “Laser Shock Compression of Copper and Copper-Aluminum Alloys,”, Int. J. Impact Eng., 2005, 32, 473-507 . Meyers 262

263.

M. A. Meyers, A. Mishra, and D. J. Benson, Mechanical Properties of Nanostructured Materials, Prog. Matls. Sci., 2006, 51, 427-556 . Meyers 263

264.

D. H. Kalantar, E. Bringa, M. Caturla, J. Colvin, K. T. Lorenz, M. Kumar, A. M. Allen, K. Rosolankova, J. S. Wark, M. A. Meyers, M. S. Schneider, T. R. Boehly, “Multiple Film Plane Diagnostic for Shocked Lattice Measurements,” Rev. Sci. Instrum. 74(2003) 1929-1934. Meyers 264

265.

Y. Seki, M. S. Schneider, and M. A. Meyers, Structure and Mechanical Properties of the Toucan Beak, Acta Mat., 2005, 53, 5281-5296 . Meyers 265

266.

A. Mishra, V. Richard, F. Grégori, R. J. Asaro, and  M.A. Meyers, Microstructural Evolution in Copper Processed by Severe Plastic Deformation, Mat. Sci. Eng., A, 2005, 410-441, p. 290-298 . Meyers 266

267.

A. Mishra, V. Richard, F. Grégori, B. Kad, and M. A. Meyers, Effect of Initial Grain Size, Die Angle and Pass Sequence on the Formation of Ultrafine Grain Structure in Cu by ECAP, Materials Science Forum, Nanomaterials by Severe Plastic Deformation, Trans Tech Publications, Switzerland 2005 (Proc. NanoSPD3-2005), 2006, vol. 503-504, pp.25-30.
Meyers 267

268.

B. K. Kad, J.-M. Gebert, M. T. Perez-Prado, M. E. Kassner, and M. A. Meyers, Ultrafine Grain-Sized Zirconium By Dynamic Deformation, Acta Mat., 2006, 54, 4111-4127. Meyers 268

269.

B. Y. Cao, M.A. Meyers, D.H. Lassila, M. S. Schneider, B. K. Kad, C. X. Huang, Y. B. Xu, D. H. Kalantar, B.A. Remington, Effect Of Shock Compression Method On The Defect Substructure In Monocrystalline Copper, Mat. Sci. and Eng A, 2005, 409, 270-281. Meyers 269

270.

Y. Seki, B. Kad, D. Benson, and M. A. Meyers, The Toucan Beak: Structure and Mechanical Response, Mat. Sci. and Eng. C, 2006, 26, 1412-1420 . Meyers 270

271.

A. Y. Lin, M. A. Meyers, and K. S. Vecchio, Mechanical Properties and Structure of Strombus Giga, Tridacna Gigas, and Haliotis Rufescens Sea Shells: A Comparative Study, Mat. Sci. and Eng. C, 2006, 26, 1380-1389. Meyers 271

272.

B. Y. Cao, M. A. Meyers, D. H. Lassila, M. S. Schneider, Y. B. Xu, D. H. Kalantar, B. A. Remington, Defect Substructures In Plate Impacted And Laser Shocked Monocrystalline Copper, Proc. 2005 APS Shock Compression Conf.. AIP Conference Proceedings ,2006 ,845, pp. 1145-1148. Meyers 272

273.

H. Jarmakani, J. M. Mc Naney, M. S. Schneider, D. Orlikowski, J. H. Nguyen, B. Kad, M. A. Meyers, Dynamic Response Of Copper Subjected To Quasi-Isentropic, Gas-Gun Driven Loading, Proc. 2005 APS Shock Compression Conf. 2006 Sep 06. Meyers 273

274.

A. Mishra, V. Richard, F. Gregori, B. Kad, R. J. Asaro and M. A. Meyers, Effect of Initial Grain Size, Die Angle and Pass Sequence on the Formation of Ultrafine Grain Structure in Cu by ECAP, Proc. 2005 APS Shock Compression Conf. Meyers 274

275.

T. Li, M. A. Meyers, C. Jiang, E. Olevsky , K. S. Vecchio, Damage Evolution in Ti-6-4-Al3Ti Metal Intermetallic Laminate Composites, Mat. Sci. and Eng. A, 2007 , 443, 1-15. Meyers 275

M. A. Meyers, A. Mishra, and D. J. Benson, The Deformation Physics of Nanocrystalline Metals: Experiments, Analysis, and Computations, JOM, April 2006, pp. 41-48. Meyers 276

M. A. Meyers, A. Y. Lin, Y. Seki, P. Chen, B. Kad and S. Bodde, Structural Biological Composites: An Overview, JOM, July, 2006. pp. 35-41. Meyers 277

A. Mishra, B. K. Kad, F. Gregori and M.A. Meyers, Microstructural Evolution in Copper Subjected to Severe Plastic Deformation: Experiments and Analysis, Acta Mat, 2007, 55, 13-28. Meyers 278

Y. M. Wang, E. M. Bringa, J. M. McNaney, M. Victoria, A. Caro, A. M. Hodge, R. Smith, B. Torralva, B. A. Remington, C. A. Schuh, H. Jamarkani, M. A. Meyers, Deforming Nanocrystalline Nickel at Ultrahigh Strain Rates, Applied Physics Letters 88 (6): Art. No. 061917 FEB 6 2006. Meyers 279

L.S. Morais, G. G. Serra, C. A. Muller, L. R. Andrade, E. F.A. Palermo, C. N. Elias and M. A. Meyers. Titanium Alloy Mini-Implants for Orthodontic Anchorage : Immediate Loading and Metal Ion Release. Acta Biomat. , 2007, 3, 331-339. Meyers 280

T. Li, E. A. Olevsky, and M. A. Meyers, The Development of Residual Stresses in Ti6Al4V-Al3Ti Metal-Intermetallic Laminate (MIL) Composites, Mat. Sci. and Eng. A, 2008, 473,49-57.Meyers 281

B. A. Remington, P. Allen, E. M. Bringa, J. Hawreliak, D. Ho, K. T. Lorenz, H. Lorenzana, J. M. McNaney, M. A. Meyers, S. W. Pollaine, K. Rosolankova, B. Sadik, M. S. Schneider, D. Swift, J. Wark, B. Yaakobi, Material Dynamics Under Extreme Conditions of Pressure and Strain Rate, Materials Science And Technology 22 (4): 474-488 APR 2006. Meyers 282

M. Cabibbo, E. Evangelista , M. E. Kassner, and M. A. Meyers, Transmission Electron Microscopy of the Strain Induced Low and High Angle grain Boundary development in Equal-Channel Angular Pressed Commercially Pure Aluminum, Ultrafine Grained Materials IV, eds. Y.T. Zhu et al., TMS 2006, pp. 237-244. Meyers 283

G. G. Serra, L. S.Morais, C. N. Elias, M.A. Meyers, Sequential Bone Response to Immediately Loaded Mini-Implants, in Vivo Study, Mater. Res. Soc. Symp. Proc, 2006, Vol 925. Meyers 284

E.A. Olevsky, J. Ma , J. C. LaSalvia and M.A. Meyers, Densification of Porous Bodies in a Granular Pressure-Transmitting Medium. Acta Mat. , 2007 , 55, 1351-1366. Meyers 285

J. Cai, S.M. Walley, R. J. A. Hunt, W.G. Proud, V.F. Nesterenko and M.A. Meyers, High-Strain, High-Strain-Rate Flow and Failure in PTFE/AL/W Granular Composites. Mat. Sci. and Eng. A, 2008, 472, 308-315. Meyers 286

M. Martin, A. Mishra, M.A. Meyers and N.N. Thadhani, Instrumented Anvil-On-Rod Tests for Constitutive Model Validation and Determination of Strain-Rate Sensitivity of Ultrafine-Grained Copper. Mat. Sci. and Eng. A , 2007, 464, 202-209. Meyers 287

H. Jarmakani, J. M. McNaney, B. Kad, D. Orlikowski, J. H. Nguyen and M. A. Meyers, Dynamic Response of Single Crystalline Copper Subjected to Quasi-Isentropic, Gas-Gun Driven Loading. Mat. Sci.and Eng. A , 2007, 463, 249-262. Meyers 288

M. A. Meyers, A. Y.M. Lin, P.Y.Chen and J. Muyco, Mechanical Strength of Abalone Nacre: Role of the Soft Organic Layer, J. Mech. Behav. Biomed. Mat. 2008, 1, 76-85. Meyers 289

M. A. Meyers, P.Y. Chen, A.Y. M. Lin and Y. Seki, Biological Materials: Structure and Mechanical Properties, Prog. Mat. Sci., 2008, 53, 1-206. Meyers 290

A.Y. M. Lin, P.Y. Chen and M.A. Meyers, The Growth of Nacre in the Abalone Shell. Acta Biomat., 2008, 4, 131-138.Meyers 291

M. A. Meyers, M. S. Schneider, H. Jarmakani, B. Kad, B. A. Remington, D. H. Kalantar, J. McNaney, B. Cao, and J. Wark, Deformation Substructures and Their Transitions in Laser-Shock-Compressed Copper-Aluminum Alloys, Met. Mat. Trans A, 39A, 304-321, 2008. Meyers 292

G. G. Serra, L. S. Morais, C. N. Elias, M.A. Meyers, L. Andrade, C. Müller, and M. Müller, Sequential bone healing of immediately loaded mini-implants. Amer. J. Ortho. & Dent. Orthoped, submitted 2007. Meyers 293

G.G. Serra, L.S. Morais, C.N. Elias, M.A. Meyers, L. Andrade, C. Müller, E.F. Palermo, and M. Müller, Systemic Levels of Metallic Ions Released from Orthodontic Mini-Implants, Amer. J. Ortho. & Dent. Orthoped, submitted 2007. Meyers 294

J. Cai, Y. Chen, V. F. Nesterenko and M. A. Meyers, Effect of Strain Rate on the Mechanical Properties of Aluminum Alloy Matrix Composite Filled with Discontinuous Carbon Fibers, Mat. Sci. and Eng. A, 485, 681-689, 2008. Meyers 295

Y. Xu, J. Zhang, Y. Bai and M. A. Meyers, Shear Localization in Dynamic Deformation: Microstructural Evolution. Met. Trans., 39A, 811-843, 2008. Meyers 296

M. Mishra, M. Martin, N.N. Thadhani, B.K. Kad, E.A. Kenik, and M.A. Meyers, High-Strain Rate Response of Ultra-Fine Grained Copper, Acta Mat., in press, 2008. Meyers 297

M. Meyers, H. Jarmakani, J. M. McNaney, M. Schneider, J. H. Nguyen, B. Kad, Dynamic Response of Single-Crystalline Copper Subjected to Quasi-Isentropic Laser and Gas-Gun Driven Loading, J. Phys. IV 2006, 134, 37-42.Meyers 298

B. Cao, E. M. Bringa, M. A. Meyers, Shock Compression of Monocrystalline Copper: Atomistic Simulations, Met. Mat. Trans. A, 2007, 38, 2681-2688. Meyers 299

H. Jarmakani, Y. M. Wang, E. Bringa, and M. A. Meyers, Modeling of the Slip-Twinning Transition in Nanocrystalline Nickel and Nickel-Tungsten under Shock Compression, APS Conference, 240-242, 2007. Meyers 300

S. Traiviratana, D. J. Benson, and M. A. Meyers, Void growth in Ductile Metals: Analysis and Computations, Acta mat., in press 2008. Meyers 301

Yongbo Xu, H.J. Yang, and Marc André Meyers, Dynamic recrystallization in the shear bands of Fe–Cr–Ni monocrystal: Electron backscatter diffraction characterization, Scripta Materialia, 58, 691-694, 2008. Meyers 302

Po-Yu Chen, Albert Yu-Min Lin, Joanna McKittrick and Marc André Meyers, Structure and Mechanical Properties of Crab Exoskeletons, Acta. Biomat., 4, 587-596, 2008. Meyers 303

P.Y. Chen, A.Y.M. Lin, Y.S. Lin, Y. Seki, A.G. Stokes, M.A. Meyers and J. McKittrick, Structure, Function and Mechanical Properties of Selected Biological Materials, J. Mech. Behav. Biomed. Mat., in press 2008. Meyers 304

M.A. Meyers, A.Y.M. Lin, Y.S. Lin, E.A. Olevsky and S. Georgalis, The cutting edge: Sharp biological materials, JOM, 60, 19-24, 2008. Meyers 305

Sirirat Traiviratana, Eduardo M. Bringa, David J. Benson, and Marc A. Meyers, Void Growth in Single and Bicrystalline Metals: Atomistic Calculations, APS Conference, 343-346, 2007. Meyers 306

Jing Cai, Fengchun Jiang, Kenneth S. Vecchio, Marc A. Meyers, and Vitali F. Nesterenko, Mechanical and Microstructural Properties of PTFE/Al/W System, APS Conference, 723-726, 2007. Meyers 307

A E Koniges, C S Debonnel, J Andrew, D Eder, D Kalantar, N
Masters, A Fisher, R Anderson, B Gunney, B Brown, K.Sain, F Bonneau,
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