A Method for the Analysis of the Growth of Short Fatigue Cracks
A.J. McEvily |
p3 |
|
Studies of SCC and Hydrogen Embrittlement of High Strength Alloys Using Fracture Mechanics Methods
Wolfgang Dietzel, Michael Pfuff, Guido G. Juilfs |
p11 |
|
A Model for Crack-Induced Nucleation of Dislocations, Complex Stacking Faults and Twins
Glenn E. Beltz, Margherita Chang, Anna Machová |
p17 |
|
Ideal Strength of Nano-Components
Takayuki Kitamura, Yoshitaka Umeno, Akihiro Kushima |
p25 |
|
Theoretical Strength of Metals and Intermetallics from First Principles
Mojmír Šob, Jaroslav Pokluda, Miroslav Černý, Pavel Šandera, V. Vitek |
p33 |
|
Nanoscale Measurement of Stress and Strain by Quantitative High-Resolution Electron Microscopy
Martin J. Hÿtch, Jean-Luc Putaux, Jean-Michel Pénisson |
p39 |
|
Atomic Force Microscopy Study of the Early Fatigue Damage
Jaroslav Polák, Jiří Man, Karel Obrtlík |
p45 |
|
Mechanical Response of Semi-Brittle Nano Particles under an Imposed Cyclic Field
Y. Katz, W. Mook, R. Mukherjee, A. Gidwani, J. Deneen, William W. Gerberich |
p51 |
|
Prediction and Control of Grain Boundary Fracture in Brittle Materials on the Basis of the Strongest-Link Theory
Tadao Watanabe, Sadahiro Tsurekawa |
p55 |
|
Anisotropic Behaviour of Grain Boundaries
Václav Paidar, Pavel Lejček |
p63 |
