航天制造技术
航天製造技術
항천제조기술
HANGTIAN ZHIXAO JI SHU
2014年
6期
29-33,68
,共6页
刘东宇%李东%李凯斌%陈倩倩
劉東宇%李東%李凱斌%陳倩倩
류동우%리동%리개빈%진천천
电子束焊接%异种钢%组织%性能
電子束銲接%異種鋼%組織%性能
전자속한접%이충강%조직%성능
electron beam welding%dissimilar steel%microstructure%properties
对E36高强钢和304奥氏体不锈钢进行了电子束焊对焊,采用光学显微镜(OM)、扫描电镜(SEM)、能谱仪(EDS)和X射线仪对焊接接头的金相组织进行了分析,并测试了接头处的显微硬度。结果表明:电子束焊接接头焊缝成形良好,无焊接缺陷产生。304侧热影响区变化不明显而在熔合区位置析出的少量的δ铁素体。经修饰焊后,从E36的熔合区到焊缝中心逐渐由树枝晶向胞状树枝晶与胞状晶转变,304侧则由平面晶向胞状树枝晶与胞状晶转变。焊缝主要是由马氏体组织和少量碳化物组成。焊缝区成分较均匀,两侧的熔合区存在成分梯度。E36侧热影响区生成了板条马氏体、铁素体和珠光体组织。最高硬度出现在焊缝区,约430HV,304侧熔合区硬度有所增大, E36侧靠近焊缝区域随着深度的增大硬度减小。
對E36高彊鋼和304奧氏體不鏽鋼進行瞭電子束銲對銲,採用光學顯微鏡(OM)、掃描電鏡(SEM)、能譜儀(EDS)和X射線儀對銲接接頭的金相組織進行瞭分析,併測試瞭接頭處的顯微硬度。結果錶明:電子束銲接接頭銲縫成形良好,無銲接缺陷產生。304側熱影響區變化不明顯而在鎔閤區位置析齣的少量的δ鐵素體。經脩飾銲後,從E36的鎔閤區到銲縫中心逐漸由樹枝晶嚮胞狀樹枝晶與胞狀晶轉變,304側則由平麵晶嚮胞狀樹枝晶與胞狀晶轉變。銲縫主要是由馬氏體組織和少量碳化物組成。銲縫區成分較均勻,兩側的鎔閤區存在成分梯度。E36側熱影響區生成瞭闆條馬氏體、鐵素體和珠光體組織。最高硬度齣現在銲縫區,約430HV,304側鎔閤區硬度有所增大, E36側靠近銲縫區域隨著深度的增大硬度減小。
대E36고강강화304오씨체불수강진행료전자속한대한,채용광학현미경(OM)、소묘전경(SEM)、능보의(EDS)화X사선의대한접접두적금상조직진행료분석,병측시료접두처적현미경도。결과표명:전자속한접접두한봉성형량호,무한접결함산생。304측열영향구변화불명현이재용합구위치석출적소량적δ철소체。경수식한후,종E36적용합구도한봉중심축점유수지정향포상수지정여포상정전변,304측칙유평면정향포상수지정여포상정전변。한봉주요시유마씨체조직화소량탄화물조성。한봉구성분교균균,량측적용합구존재성분제도。E36측열영향구생성료판조마씨체、철소체화주광체조직。최고경도출현재한봉구,약430HV,304측용합구경도유소증대, E36측고근한봉구역수착심도적증대경도감소。
E36 high-strength steel and 304 stainless steel were welded by electron beam welding. Microstructure was investigated by means of optical microscope (OM), scanning electron microscopy (SEM), energy disperse spectroscopy (EDS) and X-ray diffraction (XRD), and the micro-hardness of joint was also tested. The results show that electron beam welding is well used to dissimilar steel’s welding. There was no significant change on HAZ of 304 stain steel while a fewδ-ferrites are separated out on the fusion zone. After the modification welding, microstructure is transformed from dendritic crystals to cellular dendrites and cellular crystals from fusion zone to the middle of weld zone of E36, but for 304 stain steel, microstructure is transformed from planar crystals to cellular dendrites and cellular crystals. The weld zone mainly consists of martensitics and a few carbides, while the lath martensites, ferrites and pearlites are formed on HAZ of E36. There are composition gradient on both sides of the fusion zone. The highest hardness value of weld zone is about 430HV, the hardness value of 304 fusion zone is lager than before while nearby weld zone of E36 becomes lower with the increase of the depth.
