Application of micro-sample testing to study fundamental aspects of plastic flow

[1]  Michael D. Uchic,et al.  Size-affected single-slip behavior of pure nickel microcrystals , 2005 .

[2]  Gerard Mourou,et al.  Femtosecond laser micromachining of a single-crystal superalloy , 2005 .

[3]  Michael D. Uchic,et al.  A methodology to investigate size scale effects in crystalline plasticity using uniaxial compression testing , 2005 .

[4]  P. Sammonds Plasticity goes supercriticial , 2005, Nature materials.

[5]  Julia R. Greer,et al.  Size dependence of mechanical properties of gold at the micron scale in the absence of strain gradients , 2005 .

[6]  D. Dimiduk,et al.  Sample Dimensions Influence Strength and Crystal Plasticity , 2004, Science.

[7]  E. Aifantis,et al.  Self-affine surface morphology of plastically deformed metals. , 2004, Physical review letters.

[8]  David Marsan,et al.  Three-Dimensional Mapping of Dislocation Avalanches: Clustering and Space/Time Coupling , 2003, Science.

[9]  M. A. Haque,et al.  Application of MEMS force sensors for in situ mechanical characterization of nano-scale thin films in SEM and TEM , 2002 .

[10]  W. Knauss,et al.  A new microtensile tester for the study of MEMS materials with the aid of atomic force microscopy , 2002 .

[11]  J. G. Sevillano,et al.  Intrinsic size effects in plasticity by dislocation glide , 2001 .

[12]  Alessandro Vespignani,et al.  Intermittent dislocation flow in viscoplastic deformation , 2001, Nature.

[13]  M. A. Haque,et al.  Microscale materials testing using MEMS actuators , 2001 .

[14]  William N. Sharpe,et al.  Effect of specimen size on Young's modulus and fracture strength of polysilicon , 2001 .

[15]  Shi Hyoung Ryu,et al.  Micro electrochemical milling , 2005 .

[16]  Horacio Dante Espinosa,et al.  A methodology for determining mechanical properties of freestanding thin films and MEMS materials , 2003 .