Dislocations in Solids

Dislocations are lines of irregularity in a very bad carpet. Like these bumps, they can be moved, and they can be the most important mechanism. They also have a strong presence on the electronic objects of semiconductors.

· Influence of dislocations on piezoelectric behavior
· New mechanisms for hardening in twinned crystals
· Bringing theories of martensite recycling into agreement
Atomic scale motion of dislocations in electron microscopy
· Dislocation patterns deduced from X-ray diffraction
· Role of dislocations in friction
· Dislocation motion in quasicrystals

Preface


71. Discrete Dislocation plasticity Modeling of Contact and Friction (VS Deshpande, A. Needleman and E. Van der Giessen)


72. Dislocation Ffields in Piezoelectrics (JP Nowicki and VI Alshits)


73. Statistical and Non-linear Dynamic Approaches to Collective Behavior of Materials (G. Ananthakrishna)


74. Topological Modeling of Martensitic Transformations (RC Pond, JP Hirth, X. Ma and YW Chou)


75. Dislocations and Twinning in Face Centered Cubic Crystals (M. Niewczas)


76. Elasticity Dislocations and their Motion in Quaicristals (K. Edagawa and S. Takeuchi)


77. Experimental Studies of Dislocation Core Effects (JCH Spence)


78. In Situ Nanoindentation in a Transmission Electron Microscope (A. Minor, EA Stach and JW Morris, Jr.)


79. White Beam Microdiffraction and Dislocation Gradients (GE Ice and RI Barabash)


80. X-ray Imaging of phonon Interaction with dislocations (D. Shilo and E. Zolotoyabko)