Titlebook: Low Cycle Fatigue and Elasto-Plastic Behaviour of Materials—3; Volume 3 K.-T. Rie,H. W. Grünling,T. Seeger Book 1992 Elsevier Science Publi

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Cyclic Deformation and Low-Cycle Failure of Graphitese strength, some other specific properties. The problem of graphite structural members design stimulated wide experimental investigations to study deformation behavior and strength of these materials. On this foundation many attempts were made by a number of authors (see, for example, [1]) to formul

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Low Cycle Fatigue of Nitrogen Alloyed Martensitic Stainless Steelst is shown that silicon also influences the fatigue properties. High cyclic stress values can be obtained in nitrogen plus silicon rich steel which does not exhibit a good fatigue resistance. In such alloy, the plasticity is strongly dependent not only on the precipate state but also on the interact

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Low Cycle Fatigue of a Duplex Stainless Steel Alloyed with Nitrogenic stainless steel. The observed improvement in fatigue resistance by Nitrogen alloying is attributed to the planar dislocation slip, favoured by Nitrogen in the austenitic phase. The duplex steel exhibits, at all strain levels, a hardening-softening accommodation behaviour, which is characteristic

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Microstructurally-Based Simulation of Multiaxial Low-Cycle Fatigue Damage of 316L Stainless Steel insity which was determined experimentally. These microcracks propagate with a velocity which was also derived from metallographical observations. They subsequently coalesce to lead to final fracture when the calculated “plastic zone” sizes at the tip of two neighbouring cracks are overlapping. This m

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Study on Metallography of Low Cycle Creep Fatigue Fracture of Type 316 Stainless Steels The creep fatigue lives depend on the grainboundary precipitation during creep fatigue. Coarse carbides in SUS316 would cause grainboundary embrittlement, while very fine Laves phase in 316MN may have no influence. Since carbide precipitation by aging results in loss of matrix strength of SUS316, c

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