Friction time effect on joint strength of AISI 316 using con-tinuous drive friction welding
简介:The present study investigates the influence of friction time on the microstructural and mechanical properties of friction-welded joints for Ni-Cr-Mo steel(AISI 316)using the continuous drive friction welding(CDFW)process.The research encompasses macro-and microstructural analysis,microhardness measurements along the axial direction and at the interface,tensile testing with effect-ive diameters of 4 mm and 6 mm,and compression testing at angles of 0°,45°,and 90° using specimens with dimensions of 4 mm in diameter and 6.5 mm in length.Additionally,impact tests were performed in symmetric and non-symmetric positions.The findings reveal that increasing friction time leads to the formation of a pronounced flash on the stationary side compared to the rotating side.Microstructural analysis shows fine grains in the highly plastically deformed zone(HPDZ)at the interface and elongated grains in the thermo-mechanically affected zone(TMAZ).At longer friction times(10 s),microhardness values reached approximately 300 HV0.1 at the welding interface,decreasing to 240-230 HV0.1 in adjacent regions.At shorter friction times(6.5 s),microhardness values were moderately lower,ranging from 260 HV0.1 to 240 HV0.1 at the interface and neighboring areas.For 6 mm diameter specimens,ulti-mate tensile strength(UTS)decreased with increasing friction time,reaching its lowest value at 8.5 s,while 4 mm diameter speci-mens exhibited a linear reduction in UTS with longer friction times.Compression tests demonstrated the highest yield strength at 0°,with values decreasing as friction time increased,indicating anisotropy in AISI 316 under friction time influence.Impact strength de-clined in non-symmetric positions compared to symmetric ones as friction time increased.展开
学者:RamziLechelahAmmarJabbarhassanTaoufikBoukharoubaBillelChenitiBrahimBelkessaNacer-EddineTitoucheDjamelMiroud
关键词:Friction timeaustenitic stainless steelMicrostructureMechanical properties
分类号:TJ55(爆破器材、烟火器材、火炸药、军用器材)
在线出版日期:2025-04-24 (网站首发日期)
