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TEM Study of Microcrack Nucleation and Propagation for 310 Stainless Steel

TEM Study of Microcrack Nucleation and Propagation for 310 Stainless Steel
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摘要 TEM in situ tensile tests of 310 stainless steel show that a dislocation free zone (DFZ) forms if the displacement keeps constant after dislocations are emitted from a crack tip. The elastic DFZ is gradually thinned and the stress in the DFZ will reach the cohesive strength, resulting in nucleation of nanocracks in it and their bluntness into voids. If continuously tensioning, the inhomogeneously thinning ahead of the crack tip, initiating and connecting of microcracks or microvoids will be observed rather than a DFZ, nanocracks' initiation and bluntness into voids. The inverse pile-up ahead of a loaded crack tip can move back to the crack tip when unloading. TEM in situ tensile tests of 310 stainless steel show that a dislocation free zone (DFZ) forms if the displacement keeps constant after dislocations are emitted from a crack tip. The elastic DFZ is gradually thinned and the stress in the DFZ will reach the cohesive strength, resulting in nucleation of nanocracks in it and their bluntness into voids. If continuously tensioning, the inhomogeneously thinning ahead of the crack tip, initiating and connecting of microcracks or microvoids will be observed rather than a DFZ, nanocracks' initiation and bluntness into voids. The inverse pile-up ahead of a loaded crack tip can move back to the crack tip when unloading.
出处 《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 1998年第2期100-103,共4页 矿物冶金与材料学报(英文版)
基金 Project supported by the National Foundation of Nature Science of China
关键词 310 stainless steel in situ TEM tension dislocation free zone initiation of nanocrack 310 stainless steel, in situ TEM tension, dislocation free zone, initiation of nanocrack
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