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Stress-level dependency of creep ageing behavior for friction stir welded Al-Cu alloy 被引量:5
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作者 WANG Dong-yao ZHAN Li-hua +3 位作者 ZHONG Jue TANG Zhi-mao ZENG Quan-qing GAN Ke-fu 《Journal of Central South University》 SCIE EI CAS CSCD 2022年第9期3030-3053,共24页
Creep ageing forming(CAF)has been widely used in the aerospace engineering,but how to optimize the processing conditions,especially under complex stress state of the CAF process for large-size components produced by f... Creep ageing forming(CAF)has been widely used in the aerospace engineering,but how to optimize the processing conditions,especially under complex stress state of the CAF process for large-size components produced by friction-stir welding is still a great challenge to now.In this work,the creep ageing behaviors and underlying microstructure evolution of a thick friction-stir welded Al-Cu alloy plate after CAF process under different stress levels are systematically investigated.The creep strain and the strength of the joint are both significantly increased when the stress is close to the average yield strength of the initial weld joint.The grain size reduces while the local strain and dislocation density increase from top to bottom of the NZ;hence,the bottom layer of the weld joint exhibits higher creep strain and steady-stage creep strain rate during the CAF process.The results reveal that the gradient microstructures sensitive to the stress level effectively govern the creep-ageing performance from the upper to the bottom layer in a thick friction stir welded Al-Cu alloy plate.Rationally increasing the initial dislocation density of the weld joint can both enhance the tensile properties and promote the creep deformation of the weld joint for CAF process. 展开更多
关键词 creep age forming friction stir welding inhomogeneous gradient microstructure thick Al-Cu alloy plate precipitation microstructure evolution mechanical property
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Effect of post weld heat treatment on grain boundary character distribution and corrosion resistance of friction stir welded armourgrade nickel and molybdenum-free high-nitrogen austenitic stainless steel
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作者 Arun Kumar Gurrala Raffi Mohammed G Madhusudhan Reddy 《Defence Technology(防务技术)》 2025年第9期246-261,共16页
This study examines the effects of friction stir welding(FSW)and post-weld heat treatment(PWHT)on the grain boundary character distribution and corrosion resistance of cross sectional(top and bottom)regions of nickel-... This study examines the effects of friction stir welding(FSW)and post-weld heat treatment(PWHT)on the grain boundary character distribution and corrosion resistance of cross sectional(top and bottom)regions of nickel-and molybdenum-free high-nitrogen austenitic stainless steel(HNASS).FSW at 400 rpm and 30 mm/min resulted in finer grains(4.18μm)and higher coincident site lattice(CSL)boundaries(32.3%)at the top of the stir zone(SZ)due to dynamic recrystallization(DRX).PWHT at 900℃for 1 h led to grain coarsening(12.91μm the bottom SZ)but enhanced CSL boundaries from 24.6%to 30.2%,improving grain boundary stability.PWHT reduced the kernel average misorientation(KAM)by 14.9%in the SZ-top layer and 20.4%in the SZ-bottom layer,accompanied by a 25%decrease in hardness in the SZ-top layer and 26.7%in the SZ-bottom layer,indicating strain recovery and reduced dislocation density.Potentiodynamic polarization tests(PDP)showed a 18%increase in pitting potential and a 76%reduction in corrosion rate after PWHT.The improvement in corrosion resistance is attributed to the increase inΣ3 twin boundaries,which enhance grain boundary stability and reduce susceptibility to localized corrosion.These findings highlight the role of PWHT in refining the microstructure and strengthening corrosion resistance,making HNASS a promising material for demanding applications. 展开更多
关键词 Nickel and molybdenum free high-nitrogen austenitic stainless steel Friction stir welding Post-weld heat treatment Electron backscattered diffraction Microstructural gradients Pitting corrosion resistance Coincident site lattice Grain boundary characteristic distribution
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