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Strength, Fracture and Complexity 7 (2011/2012) 391392 IOS Press multiplication method acoustic emission active method adhesion test Al thin films atomic diffusion ball-loading 215 53, 71 43 195 61 61 253 ferritic heat-resisting steel ferroelectric materials finite element analysis finite element method fractology fracture mechanics fragmentation Gr. 92 steel graded porous biocomposite structure grain boundary grain size number grain-boundary sliding hardness heat resistant steel heat treatment high-pressure hydrogen gas high-strength low alloy steel hillock formation holistic hydrogen content hydrogen diffusion analysis hydrogen embrittlement hydrogen environment embrittlement in-situ IN738LC interdisciplinary approach to fracture internal stress inverse analysis inverse problems J-integral EBSD electric potential method electrodeposited tin film element evolution elevated temperature energy dispersive X-ray spectroscopy failure failure assessment diagram fatigue fatigue crack growth fatigue life fatigue test FEM 123, 157, 321 43 99 13 375 13 273 309 185, 375 205, 341 273 177, 195 137 K (stress intensity factor) low-cycle low-cycle fatigue LSI MansonCoffin relation mechanical response mechanical strength melting microstructure misorientation Mod.9Cr-1Mo steel 375 33 253 205 1 169 333 137 241 273 87 61 273 123 273 87 87 61 1 87 215 79, 215 87 157 157 1 99 53 43 353 341 375 147
Strength, Fracture and Complexity – IOS Press
Published: Jan 1, 2012
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