Estimating the strength of single-ended dislocation sources in micron-sized single crystals
暂无分享,去创建一个
D. Dimiduk | C. Woodward | M. Uchic | T. Parthasarathy | S. Rao | M. Tang
[1] H. Espinosa,et al. Dislocation escape-related size effects in single-crystal micropillars under uniaxial compression , 2007 .
[2] Michael D. Uchic,et al. Overview of experiments on microcrystal plasticity in FCC-derivative materials: selected challenges for modelling and simulation of plasticity , 2007 .
[3] Michael D. Uchic,et al. Contribution to size effect of yield strength from the stochastics of dislocation source lengths in finite samples , 2007 .
[4] C. A. Volkert,et al. Size effects in the deformation of sub-micron Au columns , 2006 .
[5] Vasily V. Bulatov,et al. A hybrid method for computing forces on curved dislocations intersecting free surfaces in three-dimensional dislocation dynamics , 2006 .
[6] D. Dimiduk,et al. Scale-Free Intermittent Flow in Crystal Plasticity , 2006, Science.
[7] K. Schwarz,et al. Modelling of dislocations intersecting a free surface , 2005 .
[8] Michael D. Uchic,et al. Size-affected single-slip behavior of pure nickel microcrystals , 2005 .
[9] Michael D. Uchic,et al. A methodology to investigate size scale effects in crystalline plasticity using uniaxial compression testing , 2005 .
[10] Julia R. Greer,et al. Size dependence of mechanical properties of gold at the micron scale in the absence of strain gradients , 2005 .
[11] D. Dimiduk,et al. Sample Dimensions Influence Strength and Crystal Plasticity , 2004, Science.
[12] Peter Gumbsch,et al. Dislocation sources and the flow stress of polycrystalline thin metal films , 2003 .
[13] R Madec,et al. From dislocation junctions to forest hardening. , 2002, Physical review letters.
[14] E. Nembach. Order strengthening : recent developments, with special reference to aluminium-lithium-alloys , 2000 .
[15] A. Parasnis,et al. Dislocations in solids , 1989 .
[16] J. R. Beeler,et al. Computer Simulation in Materials Science , 1988 .
[17] J. Hirth,et al. Theory of Dislocations (2nd ed.) , 1983 .
[18] B. Pichaud,et al. Calculation of critical shapes and stresses of surface sources of dislocations , 1978 .
[19] E. Wintner,et al. Non-parallel dissociation of dislocations in thin foils , 1975 .
[20] J. Bogdanoff,et al. On the Theory of Dislocations , 1950 .
[21] A. Götte,et al. Metall , 1897 .
[22] W. Eccleston,et al. Mater. Res. Soc. Symp. Proc. , 2006 .
[23] K. Schwarz,et al. Simulation of dislocations on the mesoscopic scale. I. Methods and examples , 1999 .
[24] L. Kubin,et al. Computer Simulation in Materials Science , 1991 .
[25] A. P. Parker. Fundamentals of deformation and fracture: (Eshelby Memorial Symposium, Sheffield, 2–5 April 1984) edited by B.A. Bilby, K.J. Miller, J.R. Willis, Cambridge University Press, 1985. ISBN 0-521-26735-8, xxii + 630 pages, hard-cover, £45 , 1989 .
[26] David Bacon,et al. Anisotropic continuum theory of lattice defects , 1980 .
[27] F. Nabarro,et al. Dislocations in solids , 1979 .