Effects of Strain Hardening on the Fatigue Strength of Cold Rolling 301L Stainless Steel Resistance Spot Welding Joint
摘 要
将应变硬化程度不同、厚度均为1.5 mm的国产和进口301L不锈钢冷轧板采用相同的焊接工艺分别制成标准电阻点焊试样,进行了疲劳试验和微观结构分析.结果表明:应变硬化程度较高的国产板点焊试样疲劳极限低于应变硬化程度较低的进口板点焊试样;国产板点焊试样焊点边缘产生了折叠变形,该部位同时存在再结晶组织和应变硬化组织, 所以不但有结构应力集中而且出现了组织性能不均匀所造成的应力集中,折叠变形和应力集中是造成疲劳极限降低的主要原因.
Abstract
Two kinds of standard resistance spot welding fatigue specimens were respectively prepared from 1.5 mm thick domestic and imported commercial grades of cold rolled 301L stainless steel with different strain hardening degrees,by adopting the same resistance spot welding procedure parameters.Fatigue test and microstructure analysis on the two kinds of spot welding specimens were performed.The fatigue limit of the higher strain hardening domestic specimen was lower.There was folding deformation on the edge of spot welding joint of domestic specimen.Recrystallized microstructure and strain hardening microstructure were simultaneously found in the same area,which resulted in not only structural stress concentration but also the one resulting from non-uniform texture.Therefore,folding deformation and stress concentration are the main reasons of fatigue limit decrease.
中图分类号 TG142.7 TG113.25
所属栏目
基金项目 铁道部科技发展基金资助项目(2002J021)
收稿日期 2006/6/9
修改稿日期 2006/8/24
网络出版日期
作者单位点击查看
备注何俊(1981-),女,山西运城人,硕士研究生.
引用该论文: HE Jun,LIU Wei,LU Pei-de,SHAO Li. Effects of Strain Hardening on the Fatigue Strength of Cold Rolling 301L Stainless Steel Resistance Spot Welding Joint[J]. Materials for mechancial engineering, 2007, 31(4): 21~24
何俊,刘伟,陆培德,邵立. 应变硬化对冷轧301L不锈钢点焊接头疲劳强度的影响[J]. 机械工程材料, 2007, 31(4): 21~24
共有人对该论文发表了看法,其中:
人认为该论文很差
人认为该论文较差
人认为该论文一般
人认为该论文较好
人认为该论文很好
参考文献
【1】李刚卿,韩晓辉.不锈钢车体的焊接工艺及发展[J].机车车辆工艺,2004,2(1):1-4.
【2】孙春方,王成龙.TLVW1114Ti钢疲劳特性研究[J].机械工程材料,2003,27(2):52-54.
【3】高镇同.疲劳应用统计学[M].北京:国防工业出版社,1986.
【4】赵麦英,张家义,陈冬青,等.08Al深冲镀锌薄钢板单点焊试件的疲劳特性[J].钢铁研究,1997(5):27-31.
【5】拉达伊.焊接结构疲劳强度[M].北京:机械工业出版社,1994.
【6】张旺峰,陈瑜眉,朱金华.亚稳态奥氏体钢的形变硬化[J].钢铁,2000,35(9):52-55.
【7】付瑞东,邱亮,王存宇,等.氮强化高锰奥氏体低温钢的拉伸应变硬化行为[J].材料研究学报,2005,19(2):193-199.
【8】程晓农,戴起勋.奥氏体钢设计与控制[M].北京:国防工业出版社,2005.
【9】Byun T S.Temperature dependence of strain hardening and plastic instability behaviors in austenitic stainless steels[J].Acta Materialia,2004,52:3889-3899.
【10】丁剑,张 荻,西田新一,等.应力控制条件下奥氏体不锈钢的低周疲劳性能[J].金属学报,2002,38(12):1261-1265.
【2】孙春方,王成龙.TLVW1114Ti钢疲劳特性研究[J].机械工程材料,2003,27(2):52-54.
【3】高镇同.疲劳应用统计学[M].北京:国防工业出版社,1986.
【4】赵麦英,张家义,陈冬青,等.08Al深冲镀锌薄钢板单点焊试件的疲劳特性[J].钢铁研究,1997(5):27-31.
【5】拉达伊.焊接结构疲劳强度[M].北京:机械工业出版社,1994.
【6】张旺峰,陈瑜眉,朱金华.亚稳态奥氏体钢的形变硬化[J].钢铁,2000,35(9):52-55.
【7】付瑞东,邱亮,王存宇,等.氮强化高锰奥氏体低温钢的拉伸应变硬化行为[J].材料研究学报,2005,19(2):193-199.
【8】程晓农,戴起勋.奥氏体钢设计与控制[M].北京:国防工业出版社,2005.
【9】Byun T S.Temperature dependence of strain hardening and plastic instability behaviors in austenitic stainless steels[J].Acta Materialia,2004,52:3889-3899.
【10】丁剑,张 荻,西田新一,等.应力控制条件下奥氏体不锈钢的低周疲劳性能[J].金属学报,2002,38(12):1261-1265.
相关信息