Shear localization in metallic materials at high strain rates

[1]  On Further Applications of the Flow of Solids , 1878 .

[2]  B. Hopkinson A method of measuring the pressure produced in the detonation of high explosives or by the impact of bullets , 2022 .

[3]  Geoffrey Ingram Taylor,et al.  The Latent Energy Remaining in a Metal after Cold Working , 1934 .

[4]  Percy Williams Bridgman,et al.  Effects of High Shearing Stress Combined with High Hydrostatic Pressure , 1935 .

[5]  J. H. Hollomon,et al.  Effect of Strain Rate Upon Plastic Flow of Steel , 1944 .

[6]  J. C. Jaeger,et al.  Conduction of Heat in Solids , 1952 .

[7]  N. Mott,et al.  Fragmentation of shell cases , 1947, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.

[8]  R. Davies A critical study of the Hopkinson pressure bar , 1948, Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences.

[9]  A. Cottrell,et al.  Dislocation Theory of Yielding and Strain Ageing of Iron , 1949 .

[10]  H. Kolsky An Investigation of the Mechanical Properties of Materials at very High Rates of Loading , 1949 .

[11]  M. A. Jaswon,et al.  Distribution of solute atoms round a slow dislocation , 1949, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.

[12]  N. Welsh,et al.  Frictional Heating and Its Influence on the Wear of Steel , 1957 .

[13]  P. Decarli,et al.  Formation of Diamond by Explosive Shock , 1961, Science.

[14]  E. Teller On the Speed of Reactions at High Pressures , 1962 .

[15]  L. E. Malvern,et al.  Compression-impact testing of aluminum at elevated temperatures , 1963 .

[16]  S. C. Hunter,et al.  The Dynamic Compression Testing of Solids by the Method of the Split Hopkinson Pressure Bar , 1963 .

[17]  R. Recht Catastrophic Thermoplastic Shear , 1964 .

[18]  W. Johnson,et al.  On heat lines or lines of thermal discontinuity , 1964 .

[19]  C. Yew,et al.  Strain-Rate Effects in the Propagation of Torsional Plastic Waves , 1966 .

[20]  F. Hauser,et al.  Techniques for measuring stress-strain relations at high strain rates , 1966 .

[21]  R. Ham,et al.  Dislocation multiplication, vacancy accumulation, and the onset of jerky flow during forward and reverse 1 strain in Cu-3.2 at. % Sn , 1967 .

[22]  A. Dremin,et al.  Processes Occurring in Solids Under the Action of Powerful Shock Waves , 1968 .

[23]  L. M. Yeakley,et al.  High strain-rate testing: Tension and compression , 1968 .

[24]  Jens Lothe John Price Hirth,et al.  Theory of Dislocations , 1968 .

[25]  J. D. Campbell,et al.  The temperature and strain-rate dependence of the shear strength of mild steel , 1970 .

[26]  J. Craig,et al.  MICROSTRUCTURAL DAMAGE ADJACENT TO BULLET HOLES IN 70-30 BRASS, , 1970 .

[27]  W. P. Longo,et al.  WORK SOFTENING IN POLYCRYSTALLINE METALS. , 1970 .

[28]  T. Stock,et al.  Penetration of aluminum alloys by projectiles , 1970, Metallurgical and Materials Transactions B.

[29]  Hsun Hu,et al.  On the time exponent in isothermal grain growth , 1970, Metallurgical and Materials Transactions B.

[30]  J. Duffy,et al.  On the Use of a Torsional Split Hopkinson Bar to Study Rate Effects in 1100-0 Aluminum , 1971 .

[31]  Hsun Hu,et al.  INFLUENCE OF SOLUTES ON THE MOBILITY OF TILT BOUNDARIES , 1972 .

[32]  H. S. Chen,et al.  Plastic flow and fracture of metallic glass , 1972 .

[33]  R. Reed-hill,et al.  The significance of dynamic strain aging in titanium , 1972 .

[34]  F. W. Travis,et al.  An examination of the perforation of a mild steel plate by a flat-ended cylindrical projectile , 1973 .

[35]  R. S. Culver Thermal Instability Strain in Dynamic Plastic Deformation , 1973 .

[36]  M. E. Backman,et al.  The Propagation of Adiabatic Shear , 1973 .

[37]  A. Argon A theory for the low-temperature plastic deformation of glassy polymers , 1973 .

[38]  James G. Morris,et al.  Dynamic strain aging in aluminum alloys , 1974 .

[39]  Frans Spaepen,et al.  A microscopic mechanism for steady state inhomogeneous flow in metallic glasses , 1977 .

[40]  M. Meyers Work softening in shock-loaded nickel , 1977 .

[41]  G. E. Duvall,et al.  Phase transitions under shock-wave loading , 1977 .

[42]  S. Larouche,et al.  Shock hardening behavior of Cu-8.7Ge at very short pulse durations☆ , 1978 .

[43]  R. T. Sedgwick,et al.  Numerical investigations in penetration mechanics , 1978 .

[44]  C. C. Li,et al.  Effects of dynamic strain aging on the subsequent mechanical properties of carbon steels , 1978 .

[45]  M. Meyers An estimate of the nucleation time in the martensitic transformation , 1979 .

[46]  J. Duffy,et al.  The Effect of Loading Rate and Temperature on the Initiation of Fracture in a Mild, Rate-Sensitive Steel , 1979 .

[47]  A. Argon Plastic deformation in metallic glasses , 1979 .

[48]  B. P. Fairand,et al.  Laser generation of high‐amplitude stress waves in materials , 1979 .

[49]  H. Rogers Adiabatic Plastic Deformation , 1979 .

[50]  U. F. Kocks,et al.  New observations on the mechanisms of dynamic strain aging and of jerky flow , 1979 .

[51]  J. Lipkin,et al.  Criteria for impulsive rock fracture , 1980 .

[52]  Dennis E. Grady,et al.  Shock deformation of brittle solids , 1980 .

[53]  M. Staker,et al.  The relation between adiabatic shear instability strain and material properties , 1981 .

[54]  R. Komanduri,et al.  New observations on the mechanism of chip formation when machining titanium alloys , 1981 .

[55]  B. P. Fairand,et al.  Effects of Laser Induced Shock Waves on Metals , 1981 .

[56]  D. Shockey,et al.  METALLURGICAL INFLUENCES ON SHEAR BAND ACTIVITY , 1981 .

[57]  F. J. Humphreys,et al.  An in-situ optical investigation of the deformation behaviour of sodium nitrate — an analogue for calcite , 1981 .

[58]  Y. Bai A Criterion for Thermo-Plastic Shear Instability , 1981 .

[59]  L. Meyer,et al.  Metallurgical Effects on Impact Loaded Materials , 1981 .

[60]  S. Semiatin,et al.  Deformation and unstable flow in hot forging of Ti-6Ai-2Sn-4Zr-2Mo-0.1Si , 1981 .

[61]  T. G. Trucano,et al.  Instability in simple shear deformations of strain-softening materials , 1982 .

[62]  W. L. Elban,et al.  Adiabatic heating at a dislocation pile-up avalanche , 1982 .

[63]  M. Ashby,et al.  Deformation-Mechanism Maps: The Plasticity and Creep of Metals and Ceramics , 1982 .

[64]  Yi-long Bai Thermo-plastic instability in simple shear , 1982 .

[65]  G. R. Johnson,et al.  Response of Various Metals to Large Torsional Strains Over a Large Range of Strain Rates—Part 1: Ductile Metals , 1983 .

[66]  Y. Me-Bar,et al.  On the adiabatic shear of Ti6Al4V ballistic targets , 1983 .

[67]  J. Harding,et al.  A tensile testing technique for fibre-reinforced composites at impact rates of strain , 1983 .

[68]  G. R. Johnson,et al.  Strain-Rate Effects in Metals at Large Shear Strains , 1983 .

[69]  R. Clifton,et al.  Analysis of Shear Strain Localization in Thermal Visco-Plastic Materials. , 1983 .

[70]  J. Duffy,et al.  On critical conditions for shear band formation at high strain rates , 1984 .

[71]  U. F. Kocks,et al.  Strain aging and strain hardening in NiC alloys , 1985 .

[72]  Approximate linear stability analysis of a model of adiabatic shear band formation , 1985 .

[73]  R. Batra,et al.  FURTHER RESULTS ON THE INITIATION AND GROWTH OF ADIABATIC SHEAR BANDS AT HIGH STRAIN RATES , 1985 .

[74]  I. Hutchings,et al.  Initiation and growth of microfractures along adiabatic shear bands in Ti–6AI–4V , 1985 .

[75]  R. Batra,et al.  The initiation and growth of adiabatic shear bands , 1985 .

[76]  M. Meyers,et al.  Adiabatic shear localization in titanium and Ti-6 pct Al-4 pct V alloy , 1985 .

[77]  M. Meyers,et al.  Observation of an adiabatic shear band in titanium by high-voltage transmission electron microscopy , 1986 .

[78]  Bai Yilong,et al.  On evolution of thermo-plastic shear band , 1986 .

[79]  M. Meyers,et al.  Numerical modeling of the propagation of an adiabatic shear band , 1986 .

[80]  W. Gourdin Dynamic Consolidation of Metal Powders. , 1986 .

[81]  S. Timothy,et al.  The structure of adiabatic shear bands in metals: A critical review☆ , 1987 .

[82]  Alain Molinari,et al.  Instability and localization of plastic flow in shear at high strain rates , 1987 .

[83]  L. Anand,et al.  Onset of shear localization in viscoplastic solids , 1987 .

[84]  W. Johnson Henri Tresca as the originator of adiabatic heat lines , 1987 .

[85]  J. Derep Microstructure transformation induced by adiabatic shearing in armour steel , 1987 .

[86]  N. S. Enikolopyan,et al.  Explosive chemical reactions in solids , 1987 .

[87]  J. Duffy,et al.  Measurement of the temperature profile during shear band formation in steels deforming at high strain rates , 1987 .

[88]  M. Ashby,et al.  On dynamic recrystallisation , 1987 .

[89]  D. Grady,et al.  The growth of unstable thermoplastic shear with application to steady-wave shock compression in solids* , 1987 .

[90]  J. W. Walter,et al.  On stress collapse in adiabatic shear bands , 1987 .

[91]  A. Molinari,et al.  Analytical Characterization of Shear Localization in Thermoviscoplastic Materials , 1987 .

[92]  U. F. Kocks,et al.  A constitutive description of the deformation of copper based on the use of the mechanical threshold stress as an internal state variable , 1988 .

[93]  L. Sangoy,et al.  Steels for ballistic protection , 1988 .

[94]  J. Giovanola Adiabatic shear banding under pure shear loading Part I: direct observation of strain localization and energy dissipation measurements , 1988 .

[95]  R. Woodward,et al.  Instability during high strain rate compression of 2024 T351 aluminium , 1988 .

[96]  Jörg F. Kalthoff,et al.  Shadow Optical Analysis Of Dynamic Shear Fracture , 1988 .

[97]  M. Meyers,et al.  MARTENSITIC TRANSFORMATION INDUCED BY TENSILE STRESS PULSES , 1988 .

[98]  James M. Kelly,et al.  Effect of target bending in normal impact of a flat-ended cylindrical projectile near the ballistic limit , 1988 .

[99]  B. Rainford,et al.  Magnetic ordering in dilute YTb and YEr alloys , 1988 .

[100]  A. Molinari Shear Band Analysis , 1991 .

[101]  J. Duffy,et al.  An experimental study of the formation process of adiabatic shear bands in a structural steel , 1988 .

[102]  Yi-long Bai,et al.  Width of adiabatic shear bands formed under combined stresses , 1989 .

[103]  Paul S. Follansbee,et al.  An analysis of the low temperature, low and high strain-rate deformation of Ti−6Al−4V , 1989 .

[104]  Morris Azrin,et al.  Microvoid formation during shear deformation of ultrahigh strength steels , 1989 .

[105]  T. W. Wright,et al.  Approximate analysis for the formation of adiabatic shear bands , 1990 .

[106]  Marc A. Meyers,et al.  Observation of an adiabatic shear band in AISI 4340 steel by high-voltage transmission electron microscopy , 1990 .

[107]  J. F. Kalthoff,et al.  Transition in the Failure Behavior of Dynamically Shear Loaded Cracks , 1990 .

[108]  M. Meyers,et al.  Effect of metallurgical parameters on shear band formation in low-carbon (∼0.20 Wt Pct) steels , 1990 .

[109]  J. Duffy,et al.  Microscopic observations of adiabatic shear bands in three different steels , 1990 .

[110]  T. Vreeland,et al.  Correlation of shock initiated and thermally initiated chemical reactions in a 1:1 atomic ratio nickel‐silicon mixture , 1991 .

[111]  A. Molinari,et al.  Structures in shear zones due to thermal effects , 1991 .

[112]  Yi-long Bai,et al.  On post-instability processes in adiabatic shear in hot rolled steel , 1991 .

[113]  Brian Derby,et al.  The dependence of grain size on stress during dynamic recrystallisation , 1991 .

[114]  R. Batra,et al.  Dynamic adiabatic shear band development in a bimetallic body containing a void , 1991 .

[115]  Y. Lam,et al.  The use of velocity discontinuities to define shear failure trajectories in dynamic plastic deformation , 1991 .

[116]  H. Ockendon,et al.  A model for fully formed shear bands , 1992 .

[117]  James J. Mason,et al.  On the strain and strain rate dependence of the fraction of plastic work converted to heat: an experimental study using high speed infrared detectors and the Kolsky bar☆ , 1992 .

[118]  N. Thadhani,et al.  Shock-induced reaction synthesis (SRS) of nickel aluminides , 1992 .

[119]  D. Grady Properties of an adiabatic shear-band process zone , 1992 .

[120]  Marc A. Meyers,et al.  EXPLOMET 90 International Conference on Shock-Wave and High-Strain-Rate Phenomena in Materials , 1992 .

[121]  M. Meyers,et al.  Hot dynamic consolidation of hard ceramics , 1992, Journal of Materials Science.

[122]  F. Y. Sorrell,et al.  Ultrafast chemical reactions between nickel and aluminum powders during shock loading , 1992 .

[123]  N. Thadhani Shock-induced chemical reactions and synthesis of materials , 1993 .

[124]  Sunghak Lee,et al.  Adiabatic shear band formation in Al-SiCw composites , 1993 .

[125]  N. Thadhani,et al.  High-pressure shock activation and mixing of nickel-aluminium powder mixtures , 1993, Journal of Materials Science.

[126]  A. Shahan,et al.  Adiabatic shear bands in titanium and titanium alloys: a critical review , 1993 .

[127]  L. Meyer,et al.  Adiabatic shear failure under biaxial dynamic compression/ shear loading , 1994 .

[128]  J. Gilman Micromechanics of shear banding , 1994 .

[129]  R. Batra,et al.  On the Propagation of a Shear Band in a Steel Tube , 1994 .

[130]  K. Vecchio,et al.  SHOCK SYNTHESIS OF SILICIDES--II. THERMODYNAMICS AND KINETICS , 1994 .

[131]  A. Zurek The study of adiabatic shear band instability in a pearlitic 4340 steel using a dynamic punch test , 1994 .

[132]  D. Grady Dissipation in adiabatic shear bands , 1994 .

[133]  Marc A. Meyers,et al.  Evolution of microstructure and shear-band formation in α-hcp titanium , 1994 .

[134]  Marc A. Meyers,et al.  DYNAMIC RECRYSTALLIZATION IN HIGH-STRAIN, HIGH-STRAIN-RATE PLASTIC DEFORMATION OF COPPER , 1994 .

[135]  J. M. Lifshitz,et al.  Data processing in the split Hopkinson pressure bar tests , 1994 .

[136]  R. Armstrong,et al.  Dislocation mechanics aspects of plastic instability and shear banding , 1994 .

[137]  K. Vecchio,et al.  Shock synthesis of silicides—I. experimentation and microstructural evolution , 1994 .

[138]  M. Meyers,et al.  Controlled high‐rate localized shear in porous reactive media , 1994 .

[139]  Yilong Bai,et al.  Characteristics and microstructure in the evolution of shear localization in Ti-6A1-4V alloy , 1994 .

[140]  V. Nesterenko,et al.  Localization of deformation in collapse of a thick walled cylinder , 1994 .

[141]  J. R. Klepaczko,et al.  An experimental technique for shear testing at high and very high strain rates. The case of a mild steel , 1994 .

[142]  M. Meyers Dynamic Behavior of Materials , 1994 .

[143]  M. Meyers,et al.  The effect of grain size on the high-strain, high-strain-rate behavior of copper , 1995 .

[144]  Y. Bai,et al.  A modified split Hopkinson torsional bar in studying shear localization , 1995 .

[145]  M. Meyers,et al.  Effect of shock pressure and plastic strain on chemical reactions in NbSi and MoSi systems , 1995 .

[146]  F. J. Humphreys,et al.  Recrystallization and Related Annealing Phenomena , 1995 .

[147]  A. Needleman,et al.  Analysis of a brittle-ductile transition under dynamic shear loading , 1995 .

[148]  Q. Xue,et al.  Elimination of loading reverberation in the split hopkinson torsional bar , 1995 .

[149]  M. Meyers,et al.  The structure of controlled shear bands in dynamically deformed reactive mixtures , 1995 .

[150]  R. Batra,et al.  Effect of defect shape and size on the initiation of adiabatic shear bands , 1996 .

[151]  P. Hähner On the physics of the Portevin-Le Châtelier effect part 1: The statistics of dynamic strain ageing , 1996 .

[152]  H. Ockendon,et al.  A scaling law for the effect of inertia on the formation of adiabatic shear bands , 1996 .

[153]  P. Hähner On the physics of the Portevin-Le Châtelier effect. Part 2: from microscopic to macroscopic behaviour , 1996 .

[154]  Ares J. Rosakis,et al.  Dynamically propagating shear bands in impact-loaded prenotched plates—I. Experimental investigations of temperature signatures and propagation speed , 1996 .

[155]  A. Rosakis,et al.  Dynamically propagating shear bands in impact-loaded prenotched plates—II. Numerical simulations , 1996 .

[156]  Michael Ortiz,et al.  The two-dimensional structure of dynamic boundary layers and shear bands in thermoviscoplastic solids , 1996 .

[157]  Yichun Xu,et al.  Formation, microstructure and development of the localized shear deformation in low-carbon steels , 1996 .

[158]  A. Molinari Collective behavior and spacing of adiabatic shear bands , 1997 .

[159]  R. Komanduri,et al.  Modeling of thermomechanical shear instability in machining , 1997 .

[160]  Gérard Gary,et al.  On the use of a viscoelastic split hopkinson pressure bar , 1997 .

[161]  Amos Gilat,et al.  Plastic deformation of 1020 steel over a wide range of strain rates and temperatures , 1997 .

[162]  K. Vecchio,et al.  Recrystallization kinetics within adiabatic shear bands , 1997 .

[163]  N. Thadhani,et al.  Shock-induced chemical reactions in titanium-silicon powder mixtures of different morphologies: Time-resolved pressure measurements and materials analysis , 1997 .

[164]  Y. Estrin,et al.  The role of rate effects and of thermomechanical coupling in shear localization , 1997 .

[165]  Min Zhou The growth of shear bands in composite microstructures , 1998 .

[166]  J. Klepaczko Remarks on impact shearing , 1998 .

[167]  J. Duffy,et al.  Adiabatic shear bands in a TI-6Al-4V titanium alloy , 1998 .

[168]  A. Molinari,et al.  Steady-State shear band propagation under dynamic conditions , 1998 .

[169]  M. Meyers,et al.  Self-organization in the initiation of adiabatic shear bands , 1998 .

[170]  A. Molinari,et al.  Structure of adiabatic shear bands in thermo-viscoplastic materials , 1998 .

[171]  K. T. Ramesh,et al.  The high-strain-rate response of alpha-titanium: experiments, deformation mechanisms and modeling , 1998 .

[172]  Sia Nemat-Nasser,et al.  Microstructure of high-strain, high-strain-rate deformed tantalum , 1998 .

[173]  M. Meyers,et al.  High-strain-rate deformation and comminution of silicon carbide , 1998 .

[174]  Said Ahzi,et al.  A model for microstructure evolution in adiabatic shear bands , 1998 .

[175]  M. Meyers,et al.  High-strain-rate deformation of granular silicon carbide , 1998 .

[176]  M. Meyers,et al.  Spontaneous and forced shear localization in high-strain-rate deformation of tantalum , 1999 .

[177]  J. Jonas,et al.  Self-consistent polycrystal modelling of dynamic recrystallization during the shear deformation of a Ti IF steel , 1999 .

[178]  K. T. Ramesh,et al.  Recovery Experiments for Adiabatic Shear Localization: A Novel Experimental Technique , 1999 .

[179]  A. Molinari,et al.  Dynamic recrystallisation in adiabatic shear bands , 2000 .

[180]  J. F. Kalthoff Modes of dynamic shear failure in solids , 2000 .

[181]  N. Thadhani,et al.  Modeling the reaction synthesis of shock-densified titanium-silicon powder mixture compacts , 2000 .

[182]  S. Nemat-Nasser,et al.  A model for experimentally-observed high-strain-rate dynamic strain aging in titanium , 2000 .

[183]  Chi Feng Lin,et al.  The strain rate and temperature dependence of the dynamic impact properties of 7075 aluminum alloy , 2000 .

[184]  L. Shen,et al.  Dynamic recrystallization induced by plastic deformation at high strain rate in a Monel alloy , 2000 .

[185]  A. Rosakis,et al.  A thermodynamic internal variable model for the partition of plastic work into heat and stored energy in metals , 2000 .

[186]  H. Meyer,et al.  Modeling the high strain rate behavior of titanium undergoing ballistic impact and penetration , 2001 .

[187]  Yi-long Bai,et al.  Size-dependent inelastic behavior of particle-reinforced metal–matrix composites , 2001 .

[188]  Microstructural shear localization in plastic deformation of amorphous solids. , 2001, Physical review. E, Statistical, nonlinear, and soft matter physics.

[189]  M. Meyers,et al.  Shear localization and recrystallization in dynamic deformation of 8090 Al-Li alloy , 2001 .

[190]  W. Nix,et al.  Deformation Mechanisms of the Zr40Ti14Ni10Cu12Be24 Bulk Metallic Glass , 2001 .

[191]  W. Nix,et al.  Localized heating during serrated plastic flow in bulk metallic glasses , 2001 .

[192]  Ares J. Rosakis,et al.  Dynamic shear bands: an investigation using high speed optical and infrared diagnostics , 2001 .

[193]  Marc A. Meyers,et al.  Shear localization in dynamic deformation of materials: microstructural evolution and self-organization , 2001 .

[194]  M. Meyers,et al.  Self-organization of shear bands in titanium and Ti–6Al–4V alloy , 2002 .

[195]  L. Murr,et al.  Comparison of tungsten heavy-alloy rod penetration into ductile and hard metal targets: microstructural analysis and computer simulations , 2002 .

[196]  B. Kad,et al.  Texture effects on shear response in Ti–6Al–4V plates , 2002 .

[197]  G. Byrne,et al.  The mechanisms of chip formation in machining hardened steels , 2002 .

[198]  Matthew A. Davies,et al.  On repeated adiabatic shear band formation during high-speed machining , 2002 .

[199]  Response and failure of a double-shear beam subjected to mass impact , 2002 .

[200]  G. Ravichandran,et al.  A shear-compression specimen for large strain testing , 2002 .

[201]  Jong-Taek Yeom,et al.  Characterization of deformation stability in hot forging of conventional Ti–6Al–4V using processing maps , 2002 .

[202]  白以龙,et al.  Evolution of thermoplastic shear localization and related microstructures in Awl/SiCp composites under dynamic compression , 2002 .

[203]  B. Kad,et al.  Through thickness dynamic impact response in textured Ti–6Al–4V plates , 2002 .

[204]  A. Molinari,et al.  Analysis of the dynamic propagation of adiabatic shear bands , 2002 .

[205]  Weinong W Chen,et al.  Pulse shaping techniques for testing brittle materials with a split hopkinson pressure bar , 2002 .

[206]  A. Molinari,et al.  Adiabatic shear banding in high speed machining of Ti-6Al-4V: experiments and modeling , 2002 .

[207]  T. Nieh,et al.  Effect of strain rate on compressive behavior of a Pd40Ni40P20 bulk metallic glass , 2002 .

[208]  P. Perzyna,et al.  The Physics and Mathematics of Adiabatic Shear Bands , 2002 .

[209]  G. Ravichandran,et al.  Large strain mechanical behavior of 1018 cold-rolled steel over a wide range of strain rates , 2003 .

[210]  Marc A. Meyers,et al.  Evaluation of the collapsing thick-walled cylinder technique for shear-band spacing , 2003 .

[211]  M. Meyers,et al.  Microstructural evolution in adiabatic shear localization in stainless steel , 2002 .

[212]  J. Eckert,et al.  Difference in compressive and tensile fracture mechanisms of Zr59CU20Al10Ni8Ti3 bulk metallic glass , 2003 .

[213]  L. Dai,et al.  Strain Gradient Effects on Deformation Strengthening Behavior of Particle Reinforced Metal Matrix Composites , 2003 .

[214]  T. Wright On the speed of an unconstrained shear band in a perfectly plastic material , 2003 .

[215]  W. Jiang,et al.  The effect of compression and tension on shear-band structure and nanocrystallization in amorphous Al90Fe5Gd5: a high-resolution transmission electron microscopy study , 2003 .

[216]  Yeong Sung Suh,et al.  Quasi-static and dynamic loading responses and constitutive modeling of titanium alloys , 2004 .

[217]  K. T. Ramesh,et al.  Adiabatic shear localization in α-titanium: experiments, modeling and microstructural evolution , 2004 .

[218]  N. Thadhani,et al.  Investigation of shock-induced reaction behavior of as-blended and ball-milled Ni+Ti powder mixtures using time-resolved stress measurements , 2004 .

[219]  John W. Gillespie,et al.  Hopkinson bar experimental technique: A critical review , 2004 .

[220]  Stephen M. Walley,et al.  Review of experimental techniques for high rate deformation and shock studies , 2004 .

[221]  A. Shih,et al.  Machining of a Zr-Ti-Al-Cu-Ni metallic glass , 2004 .

[222]  Liwang Liu,et al.  Effect of Particle Size on the Formation of Adiabatic Shear Band In Particle Reinforced Metal Matrix Composites , 2004 .

[223]  Y. Bai,et al.  Formation of adiabatic shear band in metal matrix composites , 2004 .

[224]  M. Meyers,et al.  Self organization of shear bands in stainless steel , 2004 .

[225]  D. Lesuer,et al.  Severe plastic deformation through adiabatic shear banding in Fe–C steels , 2004 .

[226]  Albert J. Shih,et al.  Chip formation, cutting forces, and tool wear in turning of Zr-based bulk metallic glass , 2004 .

[227]  G. Ravichandran,et al.  Constitutive modeling of high-strain-rate deformation in metals based on the evolution of an effective microstructural length , 2005 .

[228]  L. Dai,et al.  Adiabatic shear banding instability in bulk metallic glasses , 2005 .

[229]  Bingchen Wei,et al.  Initiation and propagation of shear bands in Zr-based bulk metallic glass under quasi-static and dynamic shear loadings , 2005 .

[230]  H. Abe,et al.  Effects of shock compression on powder mixtures of nickel and boron , 2005 .

[231]  M. E. Kassner,et al.  Ultrafine-grain-sized zirconium by dynamic deformation , 2005 .

[232]  Minjie Wang,et al.  Characteristics of adiabatic shear bands in the orthogonal, cutting of 30CrNi3MoV steel , 2005 .

[233]  Gabi Ben-Dor,et al.  Ballistic Impact: Recent Advances in Analytical Modeling of Plate Penetration Dynamics–A Review , 2005 .

[234]  J. Eckert,et al.  Unified tensile fracture criterion. , 2005, Physical review letters.

[235]  John D. Clayton,et al.  Dynamic plasticity and fracture in high density polycrystals: constitutive modeling and numerical simulation , 2005 .

[236]  R. M'Saoubi,et al.  MODELLING OF MATERIAL FLOW STRESS IN CHIP FORMATION PROCESS FROM ORTHOGONAL MILLING AND SPLIT HOPKINSON BAR TESTS , 2005 .

[237]  George T. Gray,et al.  Formation mechanisms of nanostructures in stainless steel during high-strain-rate severe plastic deformation , 2005 .

[238]  N. Mott Fragmentation of Shell Casings and the Theory of Rupture in Metals , 2006 .

[239]  G. Ravichandran,et al.  The mechanical response of pure iron at high strain rates under dominant shear , 2006 .

[240]  F. Spaepen Metallic glasses: Must shear bands be hot? , 2006 .

[241]  N. F. Mott A Theory of Fragmentation: Application to Wire Wound Bombs such as the American 20 lb, F. , 2006 .

[242]  T. A. Mason,et al.  An experimental and numerical study of the localization behavior of tantalum and stainless steel , 2006 .

[243]  N. Mott Fragmentation of H.E. Shells: a Theoretical Formula for the Distribution of Weights of Fragments , 2006 .

[244]  P. A. M. Hotsenpiller,et al.  Glasses , 2020, CRC HANDBOOK of LASER SCIENCE and TECHNOLOGY.

[245]  G. Gray,et al.  Development of adiabatic shear bands in annealed 316L stainless steel: Part I. Correlation between evolving microstructure and mechanical behavior , 2006 .

[246]  Achim Pietzsch,et al.  Hugoniot properties for concrete determined by full-scale detonation experiments and flyer-plate-impact tests , 2006 .

[247]  J. Langer Shear-transformation-zone theory of deformation in metallic glasses , 2006 .

[248]  L. Hector,et al.  A predictive mechanism for dynamic strain ageing in aluminium–magnesium alloys , 2006, Nature materials.

[249]  D. Radford,et al.  The effect of aspect ratio on the compressive high rate deformation of three metallic alloys , 2006 .

[250]  A. L. Greer,et al.  Thickness of shear bands in metallic glasses , 2006 .

[251]  N. Mott A Theory of the Fragmentation of Shells and Bombs , 2006 .

[252]  G. Gray,et al.  Microstructural characteristics of post-shear localization in cold-rolled 316L stainless steel , 2007 .

[253]  Tomasz Wierzbicki,et al.  On the transition from adiabatic shear banding to fracture , 2007 .

[254]  P. Chevrier,et al.  Metallurgical study on chips obtained by high speed machining of a Ti–6 wt.%Al–4 wt.%V alloy , 2007 .

[255]  S. Walley Shear Localization: A Historical Overview , 2007 .

[256]  Wang Lu Numerical Simulation on the Penetrations of Long-rod Projectiles with Different Nose Shapes , 2007 .

[257]  M. Meyers,et al.  Microstructural evolution in copper subjected to severe plastic deformation: Experiments and analysis , 2007 .

[258]  A. Odeshi,et al.  Dynamic shear band formation in Aluminum 6061-T6 and Aluminum 6061-T6/Al2O3 composites , 2007 .

[259]  Wing Kam Liu,et al.  On criteria for dynamic adiabatic shear band propagation , 2007 .

[260]  J. Embury,et al.  Localised shear banding in Weldox steel plates impacted by projectiles , 2007 .

[261]  Q. Wei Strain rate effects in the ultrafine grain and nanocrystalline regimes—influence on some constitutive responses , 2007 .

[262]  Bin Wang,et al.  Microstructure evolution in adiabatic shear band in fine-grain-sized Ti-3Al-5Mo-4.5V alloy , 2008 .

[263]  Keith C. C. Chan,et al.  Instability of crack propagation in brittle bulk metallic glass , 2008 .

[264]  D. Rittel,et al.  Dynamic recrystallization as a potential cause for adiabatic shear failure. , 2008, Physical review letters.

[265]  Yi-Shao Lai,et al.  Stress–strain characteristics of tin-based solder alloys at medium strain rate , 2008 .

[266]  L. Dai,et al.  Energy dissipation in fracture of bulk metallic glasses via inherent competition between local softening and quasi-cleavage , 2008 .

[267]  Marc A. Meyers,et al.  High-strain-rate response of ultra-fine-grained copper , 2008 .

[268]  A. L. Greer,et al.  Shear band melting and serrated flow in metallic glasses , 2008 .

[269]  M. Meyers,et al.  Shear Localization in Dynamic Deformation: Microstructural Evolution , 2008 .

[270]  F. Girot,et al.  A new material model for 2D numerical simulation of serrated chip formation when machining titanium alloy Ti–6Al–4V , 2008 .

[271]  Ronald W. Armstrong,et al.  High strain rate properties of metals and alloys , 2008 .

[272]  A. Arias,et al.  Numerical simulations of impact behaviour of thin steel plates subjected to cylindrical, conical and hemispherical non-deformable projectiles , 2008 .

[273]  A. Rusinek,et al.  Influence of conical projectile diameter on perpendicular impact of thin steel plate , 2008 .

[274]  J. F. Löffler,et al.  Shear striations and deformation kinetics in highly deformed Zr-based bulk metallic glasses , 2008 .

[275]  N. Ranc,et al.  Temperature field measurement in titanium alloy during high strain rate loading—Adiabatic shear bands phenomenon , 2008 .

[276]  Y. Estrin,et al.  Strain localisation patterns under equal-channel angular pressing , 2009 .

[277]  M. Meyers,et al.  Analysis and characterization by electron backscatter diffraction of microstructural evolution in the adiabatic shear bands in Fe-Cr-Ni alloys , 2009 .

[278]  G. Gray,et al.  Mechanical Behavior and Microstructural Development of Low-Carbon Steel and Microcomposite Steel Reinforcement Bars Deformed under Quasi-Static and Dynamic Shear Loading , 2009 .

[279]  K. Kumar,et al.  Dynamic deformation response of a high-strength, high-toughness Fe–10Ni–0.1C steel , 2009 .

[280]  B. Song,et al.  Dynamic Characterization of Soft Materials , 2009 .

[281]  R. Raghavan,et al.  On factors influencing the ductile-to-brittle transition in a bulk metallic glass , 2009 .

[282]  K. Lu,et al.  Effect of the Zener-Hollomon parameter on the microstructures and mechanical properties of Cu subjected to plastic deformation , 2009 .

[283]  L. Murr,et al.  Microstructure evolution associated with adiabatic shear bands and shear band failure in ballistic plug formation in Ti―6Al―4V targets , 2009 .

[284]  N. Thadhani,et al.  Shock compression of reactive powder mixtures , 2009 .

[285]  D. Rittel A different viewpoint on adiabatic shear localization , 2009 .

[286]  L. Dai,et al.  On the origin of shear banding instability in metallic glasses , 2009 .

[287]  Jeffrey J. DeMange,et al.  Effects of material microstructure on blunt projectile penetration of a nickel-based super alloy , 2009 .

[288]  J. Clayton Modeling Effects of Crystalline Microstructure, Energy Storage Mechanisms, and Residual Volume Changes on Penetration Resistance of Precipitate-Hardened Aluminum Alloys , 2009 .

[289]  M. Meyers,et al.  Microstructural Characterization of the Shear Bands in Fe-Cr-Ni Single Crystal by EBSD , 2009 .

[290]  Wei Wang,et al.  Prediction of shear-band thickness in metallic glasses , 2009 .

[291]  G. Gray,et al.  The influence of microstructure on the mechanical response of copper in shear , 2009 .

[292]  X. Chen,et al.  On perforation of ductile metallic plates by blunt rigid projectile , 2009 .

[293]  M. Meyers,et al.  Deformation, Phase Transformation and Recrystallization in the Shear Bands Induced by High-Strain Rate Loading in Titanium and Its Alloys , 2009 .

[294]  W. Shao,et al.  Deformed microstructure evolution in AM60B Mg alloy under hypervelocity impact at a velocity of 5 km s−1 , 2010 .

[295]  I. Hurtado,et al.  Mechanical behavior and microstructural evolution of a Mg AZ31 sheet at dynamic strain rates , 2010 .

[296]  N. Gupta,et al.  Effect of projectile nose shape on the ballistic resistance of ductile targets , 2010 .

[297]  W. Sumelka,et al.  Nowacki's double shear test in the framework of the anisotropic thermo-elasto-vicsoplastic material model , 2010 .

[298]  Jan Peirs,et al.  The use of hat-shaped specimens to study the high strain rate shear behaviour of Ti–6Al–4V , 2010 .

[299]  W. Shao,et al.  Microstructure evolution of adiabatic shear bands in AM60B magnesium alloy under ballistic impact , 2010 .

[300]  Y. Yang,et al.  Observation of the microstructure in the adiabatic shear band of 7075 aluminum alloy , 2010 .

[301]  M. Dolinski,et al.  Modeling adiabatic shear failure from energy considerations , 2010 .

[302]  J. Eckert,et al.  Tensile fracture criterion of metallic glass , 2011 .

[303]  Z. Rosenberg,et al.  Electro-magnetic collapse of thick-walled cylinders to investigate spontaneous shear localization , 2011 .

[304]  J. Platt,et al.  Grainsize evolution in ductile shear zones: Implications for strain localization and the strength of the lithosphere , 2011 .

[305]  L. Meyer,et al.  Shear strength and shear failure, overview of testing and behavior of ductile metals , 2011 .

[306]  Y. Yang,et al.  Effect of phase composition on self-organization of shear bands in Ti-1300 titanium alloy , 2011 .

[307]  Xin Sun,et al.  Localized amorphism after high-strain-rate deformation in TWIP steel , 2011 .

[308]  Alain Molinari,et al.  Numerical and analytical modeling of orthogonal cutting: The link between local variables and global contact characteristics , 2011 .

[309]  Chengzu Ren,et al.  Finite element simulation of high-speed machining of titanium alloy (Ti–6Al–4V) based on ductile failure model , 2011 .

[310]  Xiaolei Wu,et al.  Microstructure and mechanical properties at different length scales and strain rates of nanocrystalline tantalum produced by high-pressure torsion , 2011 .

[311]  E. Zaretsky,et al.  Plastic flow in shock-loaded silver at strain rates from 104 s-1 to 107 s-1 and temperatures from 296 K to 1233 K , 2011 .

[312]  Gao Dong,et al.  Study of cutting deformation in machining nickel-based alloy Inconel 718 , 2011 .

[313]  Weinong W Chen,et al.  Conventional Kolsky bars , 2011 .

[314]  F. Lu,et al.  A technique for combined dynamic compression-shear test. , 2011, The Review of scientific instruments.

[315]  W. Shao,et al.  Characterization of adiabatic shear bands in AM60B magnesium alloy under ballistic impact , 2011 .

[316]  D. McDowell,et al.  A dislocation-based constitutive model for viscoplastic deformation of fcc metals at very high strain rates , 2011 .

[317]  L. Dai,et al.  Shear-band toughness of bulk metallic glasses , 2011 .

[318]  F. Yuan,et al.  Annealing effect on the evolution of adiabatic shear band under dynamic shear loading in ultra-fine-grained iron , 2012 .

[319]  Yilong Bai,et al.  Adiabatic shear localization: frontiers and advances , 2012 .

[320]  H. Cai,et al.  Microstructural evolution in adiabatic shear bands of copper at high strain rates: Electron backscatter diffraction characterization , 2012 .

[321]  Q. Liu,et al.  Characterization of adiabatic shear bands in the zirconium alloy impacted by split Hopkinson pressure bar at a strain rate of 6000 s−1 , 2012 .

[322]  J. Lambros,et al.  Relating inhomogeneous deformation to local texture in zirconium through grain-scale digital image correlation strain mapping experiments , 2012 .

[323]  A. Molinari,et al.  Contact variables and thermal effects at the tool–chip interface in orthogonal cutting , 2012 .

[324]  Yuli Chen,et al.  Micromechanical analysis of strain rate-dependent deformation and failure in composite microstructures under dynamic loading conditions , 2012 .

[325]  S. Hall,et al.  Grain-scale experimental investigation of localised deformation in sand: a discrete particle tracking approach , 2012 .

[326]  Chun‐Sing Lee,et al.  Shear band formation during hot compression of AZ31 Mg alloy sheets , 2012 .

[327]  L. Dai,et al.  Collective evolution dynamics of multiple shear bands in bulk metallic glasses , 2013 .

[328]  A. Molinari,et al.  This is a postprint version of the following published document: H. Miguélez, X. Soldani, A. Molinari(2013). Analysis of adiabatic shear , 2015 .

[329]  Ramón Zaera,et al.  Experimental and numerical analysis of the martensitic transformation in AISI 304 steel sheets subjected to perforation by conical and hemispherical projectiles , 2013 .

[330]  D. Mohr,et al.  Load-Inversion Device for the High Strain Rate Tensile Testing of Sheet Materials with Hopkinson Pressure Bars , 2013 .

[331]  Jian Zhao,et al.  A Review of Dynamic Experimental Techniques and Mechanical Behaviour of Rock Materials , 2014, Rock Mechanics and Rock Engineering.

[332]  S. Son,et al.  Transition from Impact-induced Thermal Runaway to Prompt Mechanochemical Explosion in Nanoscaled Ni/Al Reactive Systems , 2013 .

[333]  V. Shim,et al.  La-based bulk metallic glass failure analysis under static and dynamic loading , 2013 .

[334]  A. Molinari,et al.  Adiabatic shear banding and scaling laws in chip formation with application to cutting of Ti–6Al–4V , 2013 .

[335]  J. Peirs,et al.  Microstructure of adiabatic shear bands in Ti6Al4V , 2013 .

[336]  Evan Ma,et al.  Shear bands in metallic glasses , 2013 .

[337]  G. Gray,et al.  Microstructural examination of quasi-static and dynamic shear in high-purity iron , 2013 .

[338]  A. Molinari,et al.  Identification of the critical wavelength responsible for the fragmentation of ductile rings expanding at very high strain rates , 2013 .

[339]  R. Schneider,et al.  Shock experiments up to 30 GPa and their consequences on microstructures and magnetic properties in pyrrhotite , 2013 .

[340]  L. Dai,et al.  Modeling periodic adiabatic shear band evolution during high speed machining Ti-6Al-4V alloy , 2013 .

[341]  M L Qi,et al.  High speed synchrotron x-ray phase contrast imaging of dynamic material response to split Hopkinson bar loading. , 2013, The Review of scientific instruments.

[342]  Dezhi Zhu,et al.  Adiabatic shear failure of aluminum matrix composites and microstructural characteristics of transformed bands , 2014 .

[343]  S. Antolovich,et al.  Plastic strain localization in metals: origins and consequences , 2014 .

[344]  Kamel Fezzaa,et al.  In situ damage assessment using synchrotron X-rays in materials loaded by a Hopkinson bar , 2014, Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences.

[345]  Shiteng Zhao,et al.  Influence of severe plastic deformation on dynamic strain aging of ultrafine grained Al–Mg alloys , 2014 .

[346]  Partha Ghosal,et al.  Plastic flow behavior of 7017 and 7055 aluminum alloys under different high strain rate test methods , 2014 .

[347]  Hu-sheng Zhang,et al.  A modified split Hopkinson torsional bar system for correlated study of τ–γ relations, shear localization and microstructural evolution , 2014, Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences.

[348]  M. Rodríguez-Millán,et al.  Experimental Study on the Perforation Process of 5754-H111 and 6082-T6 Aluminium Plates Subjected to Normal Impact by Conical, Hemispherical and Blunt Projectiles , 2014 .

[349]  Fu-chi Wang,et al.  Effect of microstructures on ballistic impact property of Ti–6Al–4V targets , 2014 .

[350]  W. Arnold,et al.  A single shear band in a metallic glass: Local core and wide soft zone , 2014 .

[351]  G. Schleyer,et al.  Characterisation of aluminium matrix syntactic foams under drop weight impact , 2014 .

[352]  P. Yang,et al.  Prolonged work hardening range in high manganese TRIP steel during adiabatic shear band formation , 2014 .

[353]  A. K. Khan,et al.  A systematic study of grain refinement during impact of 4340 steel , 2014 .

[354]  K. Dahmen,et al.  Microstructures and properties of high-entropy alloys , 2014 .

[355]  A. Molinari,et al.  An extension of the linear stability analysis for the prediction of multiple necking during dynamic extension of round bar , 2014 .

[356]  A. K. Khan,et al.  Effect of microstructure on the nucleation and initiation of adiabatic shear bands (ASBs) during impact , 2014 .

[357]  Zezhou Li,et al.  An EBSD investigation on deformation-induced shear bands in a low nickel austenitic stainless steel under controlled shock-loading conditions , 2014 .

[358]  G. Germain,et al.  Experimental and numerical analysis of micromechanical damage in the punching process for High-Strength Low-Alloy steels , 2014 .

[359]  Mingtao Liu,et al.  A numerical model for adiabatic shear bands with application to a thick-walled cylinder in 304 stainless steel , 2013 .

[360]  David L. McDowell,et al.  Simulation of shock wave propagation in single crystal and polycrystalline aluminum , 2014 .

[361]  Major Steps in the Discovery of Adiabatic Shear Bands , 2014, Metallurgical and Materials Transactions A.

[362]  M. Li,et al.  Study on the characteristics and thermal stability of nanostructures in adiabatic shear band of 2195 Al–Li alloy , 2015 .

[363]  Ao Fu,et al.  Adiabatic shear localization in a near beta Ti–5Al–5Mo–5 V–1Cr–1Fe alloy , 2015 .

[364]  J. Platt Influence of shear heating on microstructurally defined plate boundary shear zones , 2015 .

[365]  E. Correa,et al.  The effect of microstructure on abrasive wear of a Fe–Cr–C–Nb hardfacing alloy deposited by the open arc welding process , 2015 .

[366]  G. Wang,et al.  Progressive shear band propagation in metallic glasses under compression , 2015 .

[367]  Fuchi Wang,et al.  Underlying mechanism of periodical adiabatic shear bands generated in Ti–6Al–4V target by projectile impact , 2015 .

[368]  N. Kudryashov,et al.  Self-organization of adiabatic shear bands in OFHC copper and HY-100 steel , 2014, 1409.7173.

[369]  Chunsheng Lu,et al.  Joining of bulk metallic glass to brass by thick-walled cylinder explosion , 2015 .

[370]  L. Wang,et al.  Dynamic behaviour and shock-induced martensite transformation in near-beta Ti-5553 alloy under high strain rate loading , 2015 .

[371]  M. Meyers,et al.  Room Temperature Dynamic Strain Aging in Ultrafine-Grained Titanium , 2015, Metallurgical and Materials Transactions A.

[372]  Eduardo M. Bringa,et al.  Pressure and shear-induced amorphization of silicon , 2015 .

[373]  Liu Yang,et al.  Material transfer behaviour between a Ti6Al4V blade and an aluminium hexagonal boron nitride abradable coating during high-speed rubbing , 2015 .

[374]  Tao Chen,et al.  Adiabatic shear localization in pure titanium deformed by dynamic loading: Microstructure and microtexture characteristic , 2015 .

[375]  Qingming Zhang,et al.  Effect of Strain on Microstructure Evolution of 1Cr18Ni9Ti Stainless Steel During Adiabatic Shearing , 2015, Journal of Materials Engineering and Performance.

[376]  D. Rittel,et al.  Modification of the Shear-Compression Specimen for Large Strain Testing , 2015 .

[377]  D. Mohr,et al.  Compact SHPB System for Intermediate and High Strain Rate Plasticity and Fracture Testing of Sheet Metal , 2015 .

[378]  Minjie Wang,et al.  On adiabatic shear fracture in high-speed machining of martensitic precipitation-hardening stainless steel , 2016 .

[379]  Hongtao Wang,et al.  Influence of heat-treatment on the dynamic behavior of 3D laser-deposited Ti–6Al–4V alloy , 2016 .

[380]  Shmuel Osovski,et al.  The genesis of adiabatic shear bands , 2016, Scientific Reports.

[381]  Fu-chi Wang,et al.  Capturing of the propagating processes of adiabatic shear band in Ti–6Al–4V alloys under dynamic compression , 2016 .

[382]  M. Meyers,et al.  Directional amorphization of boron carbide subjected to laser shock compression , 2016, Proceedings of the National Academy of Sciences.

[383]  Xiaoyong Zhang,et al.  Shear localization and microstructure in coarse grained beta titanium alloy , 2016 .

[384]  D. Eakins,et al.  On the formation of adiabatic shear bands in textured HCP polycrystals , 2016 .

[385]  Yang Yang,et al.  Effect of heat treatment on adiabatic shear susceptibility in ZK60 magnesium alloy , 2016 .

[386]  Qingming Zhang,et al.  Diffusive transformation at high strain rate: On instantaneous dissolution of precipitates in aluminum alloy during adiabatic shear deformation , 2016 .

[387]  K. Vecchio,et al.  Compact forced simple-shear sample for studying shear localization in materials , 2016 .

[388]  Eduardo M. Bringa,et al.  Amorphization and nanocrystallization of silicon under shock compression , 2016 .

[389]  Bernd Gludovatz,et al.  Exceptional damage-tolerance of a medium-entropy alloy CrCoNi at cryogenic temperatures , 2016, Nature Communications.

[390]  Chong-xiang Huang,et al.  Adiabatic shear localization in nanostructured face centered cubic metals under uniaxial compression , 2016 .

[391]  D. Rittel,et al.  A Shear-Tension Specimen for Large Strain Testing , 2016 .

[392]  Chaoyi Zhu,et al.  Determination of geometrically necessary dislocations in large shear strain localization in aluminum , 2016 .

[393]  K. Vecchio,et al.  Dynamic deformation and failure of ultrafine-grained titanium , 2017 .

[394]  M. Meyers,et al.  High-velocity deformation of Al0.3CoCrFeNi high-entropy alloy: Remarkable resistance to shear failure , 2017, Scientific Reports.

[395]  Yongfeng Li,et al.  The fabrication of Cu nanowire/graphene/Al doped ZnO transparent conductive film on PET substrate with high flexibility and air stability , 2017 .

[396]  Guangyao Li,et al.  Microstructure investigations on 2A10 aluminum alloy bars subjected to electromagnetic impact upsetting , 2017 .

[397]  M. Meyers,et al.  Deformation and failure in extreme regimes by high-energy pulsed lasers: A review , 2017 .

[398]  J. Platt,et al.  Stress dependence of microstructures in experimentally deformed calcite , 2017 .

[399]  Evolution of precipitates in ZK60 magnesium alloy during high strain rate deformation , 2017 .

[400]  F. Huang,et al.  A novel method in dynamic shear testing of bulk materials using the traditional SHPB technique , 2017 .

[401]  Zhiyong Chen,et al.  Quasi-static and dynamic forced shear deformation behaviors of Ti-5Mo-5V-8Cr-3Al alloy , 2017 .

[402]  R. Austin Elastic precursor wave decay in shock-compressed aluminum over a wide range of temperature , 2017 .

[403]  M. Meyers,et al.  Generating gradient germanium nanostructures by shock-induced amorphization and crystallization , 2017, Proceedings of the National Academy of Sciences.

[404]  S. Walley,et al.  A review on the strain rate dependency of the dynamic viscoplastic response of FCC metals , 2017 .

[405]  F. Yuan,et al.  Enhanced quasi-static and dynamic shear properties by heterogeneous gradient and lamella structures in 301 stainless steels , 2017 .

[406]  Zhang Xu,et al.  Microstructural mechanism in adiabatic shear bands of Al-Cu alloy bars using electromagnetic impact upsetting , 2017 .

[407]  Chong-xiang Huang,et al.  On adiabatic shear localization in nanostructured face-centered cubic alloys with different stacking fault energies , 2017 .

[408]  Chong-xiang Huang,et al.  Mechanical responses and dynamic failure of nanostructure Cu–Al alloys under uniaxial compression , 2017 .

[409]  D. Rittel,et al.  Dynamic large strain characterization of tantalum using shear-compression and shear-tension testing , 2017 .

[410]  F. Huang,et al.  On shear failure behaviors of an armor steel over a large range of strain rates , 2018, International Journal of Impact Engineering.

[411]  Haibo Hu,et al.  Microstructure evolution within adiabatic shear band in peak aged ZK60 magnesium alloy , 2018 .

[412]  N. Bassim,et al.  Microstructural evolution of adiabatic shear bands in pure copper during impact at high strain rates , 2018 .

[413]  S. J. Cimpoeru,et al.  Mechanical and microstructural properties of 2024-T351 aluminium using a hat-shaped specimen at high strain rates , 2018 .

[414]  Y. Liu,et al.  Adiabatic shear localization in the CrMnFeCoNi high-entropy alloy , 2018, Acta Materialia.

[415]  T. Sun,et al.  Dynamic shear localization of a titanium alloy under high-rate tension characterized by x-ray digital image correlation , 2018 .

[416]  Qingping Sun,et al.  Grain refinement and amorphization in nanocrystalline NiTi micropillars under uniaxial compression , 2018, Scripta Materialia.

[417]  D. Raabe,et al.  Effects of strain rate on mechanical properties and deformation behavior of an austenitic Fe-25Mn-3Al-3Si TWIP-TRIP steel , 2018 .

[418]  Y. Liu,et al.  Mechanical Properties and Shear Localization of High Entropy Alloy CoCrFeMnNi Prepared by Powder Metallurgy , 2018 .

[419]  F. Yuan,et al.  Dynamic Shear Deformation of a CrCoNi Medium-Entropy Alloy with Heterogeneous Grain Structures , 2018, Heterostructured Materials.

[420]  A. Gilat,et al.  Full-Field Determination of the Taylor-Quinney Coefficient in Tension Tests of Ti-6Al-4V at Strain Rates up to s蜢1 , 2018, Conference Proceedings of the Society for Experimental Mechanics Series.

[421]  S. Walley,et al.  Inertial and Frictional Effects in Dynamic Compression Testing , 2018 .

[422]  M. Meyers,et al.  Shock-induced amorphization in silicon carbide , 2018, Acta Materialia.

[423]  N. Thadhani,et al.  Laser shock compression induced crystallization of Ce3Al metallic glass , 2018, Journal of Applied Physics.

[424]  C. Bronkhorst,et al.  Dynamic recrystallization in adiabatic shear banding: Effective-temperature model and comparison to experiments in ultrafine-grained titanium , 2018, International Journal of Plasticity.

[425]  M. Meyers,et al.  Shock-induced Amorphization in Covalently Bonded Solids , 2018 .

[426]  P. Longère Respective/combined roles of thermal softening and dynamic recrystallization in adiabatic shear banding initiation , 2018 .

[427]  B. Claus,et al.  In Situ Observation of Adiabatic Shear Band Formation in Aluminum Alloys , 2020, Experimental Mechanics.

[428]  I. Szlufarska,et al.  Plasticity without dislocations in a polycrystalline intermetallic , 2019, Nature Communications.

[429]  Shmuel Osovski,et al.  Reassessment of the Dynamic Thermomechanical Conversion in Metals. , 2019, Physical review letters.

[430]  D. Fang,et al.  Temperature Rise Associated with Adiabatic Shear Band: Causality Clarified. , 2019, Physical review letters.

[431]  P. Skemer,et al.  Rates of Dynamic Recrystallization in Geologic Materials , 2019, Journal of Geophysical Research: Solid Earth.

[432]  L. Wang,et al.  Omega phase formation and deformation mechanism in heat treated Ti-5553 alloy under high strain rate compression , 2019, Materials Letters.

[433]  C. Bronkhorst,et al.  Strain localization and dynamic recrystallization in polycrystalline metals: Thermodynamic theory and simulation framework , 2018, International Journal of Plasticity.

[434]  Mutasem A. Shehadeh,et al.  Modeling the temperature and high strain rate sensitivity in BCC iron: Atomistically informed multiscale dislocation dynamics simulations , 2019, International Journal of Plasticity.

[435]  S. Walley Highways and Byways in the History of High Rate Mechanical Testing , 2020, Journal of Dynamic Behavior of Materials.