An estimation of stress intensity factor in a clamped SE(T) specimen through numerical simulation and experimental verification:case of FCGR of AISI H11 tool steel 被引量：4

An estimation of stress intensity factor in a clamped SE(T) specimen through numerical simulation and experimental verification:case of FCGR of AISI H11 tool steel

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摘要 A finite element analysis of stress intensity factors （KI） in clamped SE（T）c specimens （dog bone profile） is presented. A J-integral approach is used to calculate the values of stress intensity factors valid for 0.125≤a/W≤0.625. A detailed comparison is made with the work of other researchers on rectangular specimens. Different boundary conditions are explored to best describe the real conditions in the laboratory. A sensitivity study is also presented to explore the effects of variation in specimen position in the grips of the testing machine. Finally the numerically calculated SIF is used to determine an FCGR curve for AISI Hll tool steel on SE（T）c specimens and compared with C（T） specimen of the same material. A finite element analysis of stress intensity factors （KI） in clamped SE（T）c specimens （dog bone profile） is presented. A J-integral approach is used to calculate the values of stress intensity factors valid for 0.125≤a/W≤0.625. A detailed comparison is made with the work of other researchers on rectangular specimens. Different boundary conditions are explored to best describe the real conditions in the laboratory. A sensitivity study is also presented to explore the effects of variation in specimen position in the grips of the testing machine. Finally the numerically calculated SIF is used to determine an FCGR curve for AISI Hll tool steel on SE（T）c specimens and compared with C（T） specimen of the same material.

作者 Masood Shah Catherine Mabru Farhad Rezai-Aria Ines Souki Riffat Asim Pasha

机构地区 Mechanical Engineering Department Department of Mechanics of Structures and Materials INSA ICA(Institute Cl'ement Ader) DMSM Research Group of Surfaces INSA Campus Jarlard

出处《Acta Metallurgica Sinica(English Letters)》 SCIE EI CAS CSCD 2012年第4期307-319,共13页 金属学报（英文版）

关键词 Fatigue crack propagation Stress intensity factor J-INTEGRAL Paris law Fatigue crack propagation Stress intensity factor J-Integral Paris law

分类号 TG142.45 [金属学及工艺—金属材料]

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参考文献10

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同被引文献12

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An estimation of stress intensity factor in a clamped SE(T) specimen through numerical simulation and experimental verification:case of FCGR of AISI H11 tool steel 被引量：4

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