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EFFECTS OF MICROSTRVCTURE ON FATIGUE CRACK GROWTH BEHMIOR IN Ni-BASE SUPERALLOY GH586

S.S. Xie , X.F. Pan , T.L. Wang , Z.X. Wang , H.C. Yang and Q. Wang ( School of Materials and Metallurgy , Northeastern Universityl Shenyang 110006 , China)( School of Materials and Metallurgy , Northeastern Universityl Shenyang 110006 , China)( School of Materials and Metallurgy , Northeastern Universityl Shenyang 110006 , China)( School of Materials and Metallurgy , Northeastern Universityl Shenyang 110006 , China)( Institute of Metal Research , The Chinese Academy of Science , Shenyang 110015 , China)( Liaoning Machinery Industry Foreign Trade Co. Ltd. , Shenyang 110002 , China)

金属学报(英文版)

Threshold stress values, muging from ~8 to 16MPa·m1/2 can be obtained in a Ni-base alloy GH586 by varying the microstructure through heat treatments. The threshold and low crack growth rate behaviors at room temperature, with varying groin size and γ'-distribution, have been investigated. The results indicate that grain size is an important microstructurol parameter that affects fatigue crack growth threshold and propagation behaviors, as the values of △Kth increase with increasing grain size, but the γ' -distribution also has important effect. Analyses show that the effects of groin size on threshold and low crack-growth rate behavior result from heterogeneous deformation and roughness-induced crack closure due to crystallographic slipping and cracking in coarse microstructure. The higher △Kth and lower fatigue crack growth rate with increasing amounts of fine γ' phases are closely related to less damage accumulation level in deformation zone of crack-tip resulted from heterogeneous deformation due to dislocations' shearing γ' precipitates.

关键词: superalloy GH586; fatigue crack growth; threshold; grain size;γ'-distribution

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