湖南大学学报(自然科学版)
湖南大學學報(自然科學版)
호남대학학보(자연과학판)
JOURNAL OF HUNAN UNIVERSITY(NATURAL SCIENCES EDITION)
2014年
10期
7-13
,共7页
张屹%王刚%刘西霞%杨雄
張屹%王剛%劉西霞%楊雄
장흘%왕강%류서하%양웅
车身用镀锌钢%激光焊接%材料添加%力学性能
車身用鍍鋅鋼%激光銲接%材料添加%力學性能
차신용도자강%격광한접%재료첨가%역학성능
galvanized steel sheets to vehicle body%laser welding%material addition%mechanical prop-erty
采用4 kW 光纤激光器对2片1.2 mm厚 H220YD镀锌钢板间添加不同质量分数铜粉进行了激光搭接焊.对工艺参数优化后所得到的焊接接头进行了焊缝表面成形、力学性能、断口形貌、成分分布和主要物相等分析.结果表明:添加铜粉质量分数为2.82%时,焊接接头的平均抗拉强度和延伸率分别为382.5 MPa和32.5%;添加铜粉质量分数不大于3.46%时,拉伸断裂于母材,属于韧性断裂,而添加铜粉质量分数大于3.46%时,拉伸断裂于焊缝区,属于韧性断裂为主脆性断裂为辅的混合断裂;夹层铜粉的加入,改变了镀锌钢界面的元素分布及物相组成,焊接接头焊缝区域 C,Al,Mn,Fe,Zn,Cu 元素的混合区宽度较大;当添加铜粉质量分数为2.82%时,Cu 元素变化比较稳定,因铜能固溶于锌中形成锌铜固溶体,起到很好的固溶强化作用,故增强了焊缝的强度;当添加铜粉质量分数为8.06%时,Cu元素会向热影响区扩散,易形成 Cu5 Zn8脆性金属间化合物,使得拉伸易断裂于焊缝区.
採用4 kW 光纖激光器對2片1.2 mm厚 H220YD鍍鋅鋼闆間添加不同質量分數銅粉進行瞭激光搭接銲.對工藝參數優化後所得到的銲接接頭進行瞭銲縫錶麵成形、力學性能、斷口形貌、成分分佈和主要物相等分析.結果錶明:添加銅粉質量分數為2.82%時,銲接接頭的平均抗拉彊度和延伸率分彆為382.5 MPa和32.5%;添加銅粉質量分數不大于3.46%時,拉伸斷裂于母材,屬于韌性斷裂,而添加銅粉質量分數大于3.46%時,拉伸斷裂于銲縫區,屬于韌性斷裂為主脆性斷裂為輔的混閤斷裂;夾層銅粉的加入,改變瞭鍍鋅鋼界麵的元素分佈及物相組成,銲接接頭銲縫區域 C,Al,Mn,Fe,Zn,Cu 元素的混閤區寬度較大;噹添加銅粉質量分數為2.82%時,Cu 元素變化比較穩定,因銅能固溶于鋅中形成鋅銅固溶體,起到很好的固溶彊化作用,故增彊瞭銲縫的彊度;噹添加銅粉質量分數為8.06%時,Cu元素會嚮熱影響區擴散,易形成 Cu5 Zn8脆性金屬間化閤物,使得拉伸易斷裂于銲縫區.
채용4 kW 광섬격광기대2편1.2 mm후 H220YD도자강판간첨가불동질량분수동분진행료격광탑접한.대공예삼수우화후소득도적한접접두진행료한봉표면성형、역학성능、단구형모、성분분포화주요물상등분석.결과표명:첨가동분질량분수위2.82%시,한접접두적평균항랍강도화연신솔분별위382.5 MPa화32.5%;첨가동분질량분수불대우3.46%시,랍신단렬우모재,속우인성단렬,이첨가동분질량분수대우3.46%시,랍신단렬우한봉구,속우인성단렬위주취성단렬위보적혼합단렬;협층동분적가입,개변료도자강계면적원소분포급물상조성,한접접두한봉구역 C,Al,Mn,Fe,Zn,Cu 원소적혼합구관도교대;당첨가동분질량분수위2.82%시,Cu 원소변화비교은정,인동능고용우자중형성자동고용체,기도흔호적고용강화작용,고증강료한봉적강도;당첨가동분질량분수위8.06%시,Cu원소회향열영향구확산,역형성 Cu5 Zn8취성금속간화합물,사득랍신역단렬우한봉구.
Experiments of laser lap welding of two 1 .2 mm thick galvanized steel planks with different Cu powder concentrations were performed by using a 4 kW fiber laser.The transverse weld topography, the mechanical properties,fracture morphology,component distribution and the main phase of the welded j oint regional were studied under the optimal welding process parameters acquired through process optimi-zation.It is shown that,when Cu powder concentration is 2.82%,the average tensile strength and elon-gation of the welding joints is 382.5 MPa and 32.5% respectively.When Cu powder concentration is not more than 3.46%,the tensile specimens are broken in the base material due to ductile fracture.On the contrary,the tensile specimens are broken in weld area due to the mixture of predominant ductile fracture and subordinate brittle fracture.Element distribution and phase in the galvanized steel interface are changed with the addtion of Cu powder added.In the weld area,the width of mixing zone of C,Al,Mn, <br> Fe,Zn,Cu elements is larger.When Cu powder concentration is 2.82%,Cu element changes stably and Cu element in the weld area plays an important role in solid fusion reinforcement with the formation of Cu-Zn solid solution,and therefore,the strength of the weld area is improved.When Cu powder concentration is 8.06%,Cu element may spread from weld area to heat affected zone and is therefore prone to form brit-tle intermetallic compound Cu5 Zn8 ,making specimens easily fractured in the weld area.
