5083铝合金/E36钢熔钎焊接头组织及力学性能

文中采用Zn-Al22药芯焊丝实现了4 mm厚5083铝合金与E36钢异种材料的TIG熔钎焊。重点研究了焊接电流对铝/钢熔钎焊接头成形、界面金属间化合物以及抗拉强度的影响。结果表明,熔钎焊接头钢侧界面生成了η-Fe2Al5Znx金属间化合物层,其中还分布有少量δ-FeZn10相;随着焊接电流逐渐增大,焊缝金属在E36钢表面的润湿铺展逐渐提升,熔宽逐渐增大,η-Fe2Al5Znx金属间化合物层增厚,δ-FeZn10相也随之增多;当焊接电流超过120 A时,界面层生成Fe-Zn金属间化合物层;较薄的η-Fe2Al5Znx金属间化合物层和分布在η-Fe2Al5Znx层中的δ-FeZn10有助于提高接头抗拉强度;铝/钢熔钎焊接头均断裂于钢侧界面,当焊接电流为110 A时,接头抗拉强度达到最大值120 MPa。

焊丝对T2紫铜/316L不锈钢GTAW接头组织及性能的影响

采用钨极氩弧焊,分别填充纯铜焊丝和307Si焊丝对T2紫铜/316L不锈钢异种金属进行对接焊,探究焊丝对铜/不锈钢异种金属接头微观组织、力学性能和耐蚀性的影响.结果表明,铁-铜液相分离对焊缝组织的形成起主导作用,但由于过冷度不同,填充两种焊丝制备焊缝的液相分离程度不同:铜焊丝制备焊缝中生成了初次液相分离富铁球,其内部又发生二次液相分离现象,生成富铜相;307Si焊丝制备焊缝中生成了初次液相分离富铜相,但富铜相并未呈现二次液相分离特征.两种焊丝制备接头在拉伸试验中均断裂于铜侧热影响区,抗拉强度均超过铜母材强度的80%.拉伸断口分布着韧窝和延伸区,呈现典型的韧性断裂特征.腐蚀及电化学试验结果表明,与307Si焊丝制备接头相比,铜焊丝制备接头的腐蚀深度差更大,腐蚀电流密度更高,耐蚀性更差.

液相分离对T2紫铜/316L不锈钢接头组织及性能的影响

采用钨极氩弧焊填充纯铜焊丝进行T2紫铜/316L不锈钢异种金属焊接工艺试验,分析了接头微观组织的形成机制.结果表明,使用纯铜焊丝时,铁-铜液相分离对铜/钢焊缝组织的形成起主导作用.以铜为基体的焊缝中分布着大量由铁-铜初次液相分离形成的富铁球,在其内部还分布有标志着铁-铜二次液相分离的富铜相.富铁球内的析出相在表面能梯度和密度差的作用下,向富铁球中心呈球状聚集.由于成分和所处区域的冷却速率不同,富铁球呈现不同的形貌.基于熔池边界凝固理论,分析了接头铜/钢界面未混溶区宏观偏析机制.填丝焊时,熔池边缘形成非等温边界.纯铜焊丝制备接头铜/钢界面处液态钢母材的温度高于熔池主体,导致岛状和半未混溶区的形成.接头的铜侧存在由粗大晶粒和正常尺寸晶粒组成的软化区,拉伸试样均断裂于此,抗拉强度达到铜母材的81.7%.

Texture and mechanical properties of metal inert gas welded 6082-T651 aluminum alloy joints

Metal inert gas(MIG)welding was conducted with 12 mm thick 6082-T651 aluminum alloy plate to investigate the microstructure and mechanical properties of welded joint.The microstructure and element distribution of weld seam were characterized by electron backscattered diffraction(EBSD)and electron probe microanalysis(EPMA).The weld seam has typical cube texture({001}<100>)characteristics.The closer to the center of weld seam,the weaker the texture feature,the higher the proportion of high-angle grain boundaries.The average tensile strength of joint was 232 MPa which is up to 72%of 6082 aluminum alloy base metal,and the bending angle for the root bend test sample reached 90°without cracks.The lack of strengthening phase and the existence of welding pores and inclusions in the weld seam caused the degradation of mechanical properties of resultant joint.The microhardness increased from the weld center to the base metal,but the overaging zone caused by welding thermal cycle was softening part of the joint,which had lower hardness than the weld seam.