Al/Ni异种金属超声波点动焊接工艺及界面组织分析

对1060铝合金和N4镍合金异种金属进行了超声波点动焊接,优化了焊接工艺,分析了接头界面组织,焊接接头组织微观形貌和力学性能.结果表明,超声波焊接能够实现1060铝合金和N4镍合金异种金属的有效连接,能够得到韧性和强度都很高的焊接接头;确定了铝镍异种金属超声波焊接的焊接工艺参数为焊接压力25.2~36.0 MPa,焊接时间75~85 ms;当焊接压力为32.4 MPa,焊接时间为85 ms时,抗剪强度超过铝侧母材.焊接接头界面的XRD和EDS分析结果表明,接头界面存在由Al,Ni两种元素互扩散而形成的2 μm厚的反应扩散层.     

Effects of Insert Metal Type on Interfacial Microstructure During Dissimilar Joining of TiAl Alloy to SCM440 by Friction Welding

Although the welding zone of direct bonding between a TiAl alloy and SCM440 can be obtained by friction welding, martensitic transformation and the formation of intermetallic compounds (IMCs) and cracks result in a lower tensile strength of the joints relative to those of other welding techniques. Insert metals were used as a buffer layer to relieve stress while increasing the bond strength. In this study, the microstructure and mechanical properties on welded joints of a TiAl alloy and SCM440 with various insert metals, were investigated. The TiAl/Cu/SCM440 and TiAl/Ni/SCM440 joints were fabricated using a servo-motor-type friction welding machine. As a result, it was confirmed that the formation of a welding flash was dependent on the insert metal type, and the strength of the base metal. At the TiAl/Cu/SCM440 interface, the formation of IMCs CuTiAl and Cu₂TiAl was observed at TiAl/Cu, while no IMC formation was observed at Cu/SCM440. On the other hand, at the TiAl/Ni/SCM440 interface, several IMCs with more than 100 μm thickness were found, and roughly two compositions, viz., Ti₂NiAl₃ and TiNi₂Al, were observed at the TiAl/Ni interface. At the Ni/SCM440 interface, 10 μm-thick FeNi and others were found.     

Microstructures and Mechanical Properties of Electron Beam-Welded Titanium-Steel Joints with Vanadium,Nickel, Copper and Silver Filler Metals

Electron beam welding experiments of titanium alloy to stainless steel with V, Ni, Cu and Ag filler metals were carried out. The interfacial microstructures of the joints were examined by optical microscopy, scanning electron microscopy, and x-ray diffraction analysis. Mechanical properties of the joints were evaluated according to tensile strength and microhardness. The results showed that all the filler metals were helpful to restrain the Ti-Fe intermetallics formed in the Ti/Fe joint. The welds with different filler metals were all characterized by solid solution and interfacial intermetallics. And the type of solid solution and interfacial intermetallics were depended on the metallurgical reactions between the filler metals and base metals. The interfacial intermetallics were Fe₂Ti + Ni₃Ti + NiTi₂, TiFe, Ti₂Ag, and Cu₂Ti + CuTi + CuTi₂ in the joints welded with Ni, V, Ag, and Cu filler metals, respectively. The tensile strengths of the joints were primarily determined by the hardness of the interfacial intermetallics. The highest tensile strength was obtained in the joint welded with silver filler metal, which is about 310 MPa.     

TC4钛合金窄间隙激光填绞股焊丝焊接接头组织及性能

采用实心绞股焊丝,通过窄间隙激光填丝焊对TC4钛合金进行焊接,分析了激光填丝焊接头各区域的微观组织及形貌,并测试了焊接接头的显微硬度、室温拉伸性能及冲击性能等力学性能。结果表明,焊缝截面整体成形良好,无明显未熔合和气孔等缺陷;母材由等轴α+β相组成,热影响区晶粒比母材稍大,热影响区由针状α′马氏体+初生α相组成,焊缝由粗大的原始β柱状晶和内部网篮状α′马氏体组成;焊接接头的抗拉强度平均值达940 MPa,拉伸断裂在母材,断口韧窝较浅,主要表现为韧性断裂特征;焊缝的显微硬度平均值为375 HV,高于母材及热影响区。创新点： 采用高熔敷效率的绞股焊丝作为填充金属,对 20 mm 厚 TC4 钛合金板进行激光填丝焊,探究了厚板钛合金焊接接头的组织与性能分布规律,为厚板钛合金焊接结构的实际应用提供基础数据支撑。     

Interface morphology and microstructure of high-power ultrasonic spot welded Mg/Al dissimilar joint

High-power ultrasonic welding technology, which has the excellent characteristics of low-energy input and high efficiency, can effectively shorten the welding time, reduce the formation of intermetallic compounds (IMCs), and improve the strength of Mg/Al dissimilar welded joints in the future manufacturing industry. Mg/Al dissimilar metal ultrasonic welded joints with favourable mechanical properties were obtained through reasonable selection of sonotrode patterns and optimisation of welding parameters. The connection mechanisms of joints were discussed based on the analysis of weld interface morphology, microstructure evolution, and the composition and distribution of Mg–Al IMCs that varied with welding energy. The mechanical interlocking phenomenon and discontinuously distributed Mg₁₇Al₁₂ with low thickness were observed at the weld interface, which helped to improve the joint performance.     

钛钢复合板搅拌摩擦焊接接头组织与力学性能

采用搅拌摩擦焊对接工艺焊接厚度为2 mm的TA2-Q235B钛钢复合板。采用光学显微镜和扫描电子显微镜观察焊接接头显微组织及断口形貌,并采用拉伸试验机和显微硬度计测试焊接接头力学性能及不同区域的显微硬度。结果表明,钛钢复合板焊接接头从上到下分为上部钢焊接区,中部钛钢混合区及下部钛焊接区3个区域,其中钛钢混合区呈交替层叠状结构。当轴肩旋转速度为300 r/min,焊接速度为40 mm/min时,焊接接头的抗拉强度为386 MPa,达到母材强度的80%以上,焊接区域的硬度平均值为243.5 HV,焊接接头断裂源于结合较弱的前进侧热机影响区域。     

齿形对超声波焊接泡沫镍薄板与实体铝薄板的影响

采用超声波点焊工艺成功焊接了电池电极及催化剂载体所使用的泡沫镍薄板与纯铝实体薄板,在与泡沫镍接触的砧座处采用了粗细两种齿形设计,对比了不同齿形引起的不同塑性形变程度对焊接性能的影响. 分析了齿形及工艺参数对拉伸性能及断口形貌的影响. 结果表明,细齿形砧座30 J试样拉伸性能最优,拉伸载荷与断裂能分别达到泡沫镍母材的58.0%与69.1%. 测试了两种齿形砧座焊接的接头在3.5%NaCl溶液中的阳极极化曲线,对比了其耐腐蚀性能. 能谱分析结果表明,跨过界面扩散的元素含量极少,焊接界面没有明显金属间化合物层产生,焊接过程属于固态过程.     

Microstructure and Mechanical Properties of Cold Metal Transfer Welding Similar and Dissimilar Aluminum Alloys

Integrating structures made from aluminum alloys in automotive industry requires a large amount of joining. As a consequence, the properties of the joints have a significant influence on the overall performance of the whole structure.Robot cold metal transfer welding is a relatively new joining technique and has been used in this work to join 6082-T4 and5182-O aluminum alloy sheets by using ER5356 and ER4043 filler metals. Microstructure characterization was performed by optical microscopy and energy dispersive X-ray spectroscopy, and the mechanical properties were measured by tensile and hardness tests. A correlation is made between welding variables, mechanical properties and the microstructure of welded joints. Results indicate that robot cold metal transfer welding provides good joint efficiency with high welding speed, good tensile strength, and ductility. Owing to the low heat input of robot cold metal transfer welding process, the heat affected zone microstructure was quite similar to base metals, and weld metal microstructure was the controlling factor of joint efficiency. The best performing were the 5182/5182 joints welded with ER5356 and these had mechanical property coefficients of 100%, 98%, and 85% for yield strength, ultimate tensile strength, and elongation, respectively.     

填充金属对钛合金与不锈钢电子束焊接的影响(英文)

采用Ni、V、Cu等填充材料进行钛合金与不锈钢的电子束焊接实验。采用光学显微镜、扫描电镜及X射线衍射对接头的微观组织进行分析。通过抗拉强度和显微硬度评价接头的力学性能,分析讨论填充材料对钛/钢电子束焊接接头微观组织和力学性能的影响。结果表明:填充材料有助于抑制Ti-Fe金属间化合物的产生。所有接头均由固溶体和界面化合物组成。对于不同的填充材料,固溶体和界面化合物种类取决于填充材料与母材之间的冶金反应。对于Ni、V及Cu填充材料,界面化合物分别为Fe2Ti+Ni3Ti+NiTi2,TiFe和Cu2Ti+CuTi+CuTi2。接头抗拉强度主要取决于金属间化合物的脆性。采用Cu填充金属的接头抗拉强度最高,约为234 MPa。     

Laser roll welding of dissimilar metal joint of titanium to aluminium alloy

Recently, the demand for dissimilar metal joints of titanium to aluminium alloy has arisen in industry, especially in the transportation vehicle industry. However, it is well known that fusion welding of titanium to aluminium alloy is difficult because of generating the brittle intermetallic compound at the joint interface. Therefore, new welding processes with high reliability and productivity for these dissimilar materials are demanded. In the present work, Laser roll welding of titanium to aluminium alloy using a 2 kW fibre laser was tried to investigate the effects of the process parameters on the formation of the interlayer and the mechanical properties of the joint. As a result, the cross-section of the joint shows partial melting of the aluminium sheet and spreading of molten aluminium alloy on the titanium sheet occurs during the welding thermal cycle. Various types of intermetallic compound were confirmed at the interlayer of the welded joint. The specimen with a bonding width of 2.8 mm failed in the base metal of titanium in the tensile shear test. In Erichsen cupping tests, the Erichsen value was 5.7 mm. This value was 89% of the base metal of aluminium sheet.     

激光焊接对SPF/DBTi-6Al-4V合金疲劳性能的影响

研究了SPF/DB Ti-6Al-4V合金及其激光焊接接头静态拉伸性能和疲劳性能,并获得S-N曲线.通过观察组织特征和疲劳断口形貌,分析了激光焊接对SPF/DB Ti-6Al-4V合金疲劳性能的影响.结果表明,SPF/DB T-6Al-4V合金激光焊接接头的抗拉强度略低于母材抗拉强度,而疲劳强度明显低于母材疲劳强度,约为其抗拉强度的40%.SPF/DB Ti-6Al-4V合金组织为α+β等轴细晶组织,其焊接接头组织为含α,针状马氏体α'和少量β相的魏氏组织结构.焊接接头组织结构的不均匀性,以及组织的粗大化是导致激光焊接接头疲劳性能下降的重要原因.SPF/DB Ti-6Al-4V合金疲劳断裂为塑性断裂,其焊接接头疲劳断裂为准解理断裂,这显著降低激光焊接接头的疲劳性能.而焊接气孔等焊缝表层微小几何不连续缺陷的存在往往成为激光焊接接头疲劳断裂的裂纹源.     

Incoloy 825镍基高温合金电子束焊工艺及接头组织与力学性能分析

采用电子束焊,对空冷器管箱Incoloy 825镍基高温合金进行对接焊试验. 通过对焊接接头的组织观察,并结合拉伸力学性能以及接头的冲击韧性等试验,分析镍基高温合金电子束焊接头的组织和力学性能. 结果表明, 采用电子束焊焊接镍基高温合金可以得到良好的焊接接头,焊缝区组织由大片等轴晶和少量柱状晶组成;焊缝区没有出现明显的元素烧损现象;焊缝、热影响区硬度达到母材硬度值;焊缝接头抗拉强度达到600 MPa,接近母材抗拉强度,接头断裂形式为韧性断裂;焊缝和热影响区的冲击吸收能量高于母材区,其中焊缝区的冲击吸收能量达到了262 J,冲击断口形貌为韧窝状.     

铝/铜异种金属电阻热辅助超声波缝焊工艺特性

1060纯铝箔作为中间层,通过电阻热辅助超声波缝焊的方式实现1 mm厚度6061铝合金和T2紫铜异种金属焊接,分析了焊接过程中电阻热对铝/铜焊接接头焊缝成形、界面形貌、温度场以及力学性能的影响. 结果表明,采用单独超声波缝焊焊接铝/铜异种金属时,因产生的焊接能量较小,接头连接界面处仅局部区域位置形成连接,接头拉剪强度为45 MPa. 但在电阻热辅助超声波缝焊过程中,电阻热的加入能够有效预热工件,令待焊材料表面发生软化,在高频振动作用下,接头连接界面处形成有效连接. 同时,引入电阻热提高了铝/铜界面处温度,由单独超声波缝焊的140 ℃增加至190 ℃,界面处原子扩散距离增加,获得焊接接头的拉剪强度增加至75 MPa,相对前者接头拉剪强度提高67%.     

铝/钛异种金属冷金属过渡熔钎焊接头分析

以ER4043的铝焊丝对6061铝合金和TA2纯钛进行CMT熔钎焊,采用金相显微镜、扫描电镜(SEM)和能谱分析仪(EDS)分析了焊接接头的微观组织特征,并通过拉伸试验对接头进行了力学性能的评定. 结果表明,焊接接头具有熔焊和钎焊双重性质:铝母材局部熔化,与熔化的焊丝金属混合后凝固形成焊缝;而没有熔化的钛母材通过Ti原子的扩散与焊缝金属形成金属间化合物结合层的钎焊界面. 钎焊界面处反应层可分为靠近钛板一侧的连续层Ti₃Al和向焊缝内部生长的锯齿状的反应层TiAl₃. 当钛板坡口角度为30°时,钎焊界面化合物生长均匀良好,接头会断裂在铝母材的热影响区,最高抗拉强度达到197.5 MPa.     

工业纯钛光纤激光-MIG复合焊接工艺及性能

采用光纤激光与熔化极惰性气体保护电弧焊(MIG焊)复合焊接工业纯钛,分别对激光焊、MIG焊和复合焊接头的焊缝表面成形、横断面进行了观察,并进行了激光焊和复合焊接头的拉伸试验及杯突试验.结果表明,复合焊的电弧稳定性比MIG焊显著提高,焊接速度可提高7倍;复合焊与激光焊接头的抗拉强度高于母材;复合焊接头的杯突值优于激光焊接头的杯突值,这是因为复合焊焊缝的微观组织有利于接头的塑性.因此,采用光纤激光-MIG电弧复合焊接方法很好地实现了工业纯钛的高速焊接,焊缝成形良好,接头的塑性优于单一激光焊的塑性.

Abstract：

Fiber laser-metal inert gas (MIG) arc hybrid welding was used to weld the commercial pure titanium (CP-Ti). The weld appearance, cross section, tensile strength, Erichsen value and microstructure of the CP-Ti welded joints were studied. The results show that the arc stability is substantially improved and the welding speed can be increased to 7 times by fiber laser-MIG hybrid welding. The welded joints by laser welding and the hybrid welding exhibit the higher ultimate tensile strength than those of the base metal. In addition, the welded joint by the fiber laser-MIG hybrid welding has higher Erichsen values than that by laser joints. The difference in plasticity is attributed to the microstructure changes in the welded joint of hybrid welding. Thus, the fiber laser-MIG hybrid welding of CP-Ti can be carried out suecessfully at higher welding speed with a good combination of weld bead appearance and plasticity.     

921A钢激光-MAG复合焊接头组织及性能

针对6 mm厚的921A钢板,采用激光-MAG复合焊接工艺进行对接焊试验,并对焊接接头的显微组织、硬度、拉伸性能、耐腐蚀性能等进行了分析。结果表明,采用激光-MAG复合焊工艺可获得成形连续美观的焊接接头,无未熔合、裂纹、气孔等缺陷;焊缝组织为针状铁素体、少量沿晶界析出的先共析铁素体及长条状贝氏体,热影响区组织为马氏体;焊接接头的拉伸性能和冲击性能均符合国家标准要求,焊缝强度高于母材,但塑韧性低于母材。峰值硬度在热影响区,为315 HV,焊缝硬度约为280 HV,符合最高硬度不得超过410 HV的规定。焊缝耐电化学腐蚀性能最强,母材次之,热影响区最低;激光和MAG电弧2种热源共同作用区域的组织分布更加均匀,硬度及耐腐蚀性能较激光单独作用区域有了明显改善。创新点： 采用激光-MAG复合焊实现了6 mm厚度921A钢板无缺陷对接焊的一次焊接成形。焊缝晶粒更加细化,分布更加均匀;焊缝抗拉强度、硬度、电化学腐蚀性能均高于母材,冲击吸收能量满足船级社要求。     

Keyhole stability in disc laser welding of AZ31B and AZ61A magnesium alloys and weld metal properties

Abstract

To confirm the process potential and limitations of laser welding of magnesium alloys, a newly developed disc laser of 16 kW in maximum power was used to weld thin plates of AZ31B and AZ61A alloys. Melting characteristics and weld metal properties were studied under different process parameters. The very high power density of the applied beam caused the keyhole and the molten pool to be unstable. Underfill was the main welding defect limiting the process window and its formation was closely related to the keyhole instability. A process diagram indicating areas of sound and defected welds could be constructed. Sound welded joints could be obtained for AZ31B alloy with similar mechanical properties as that of the base material. The brittle intermetallics network present along the grain boundaries in AZ61A weld metals required a higher energy input to alleviate its detrimental effect on the mechanical properties of the welded joints.     

辅助电流对Cu/Al大功率超声波焊接的影响

为获得更高质量的Cu/Al异质金属接头,开展了Cu/Al电流辅助大功率超声波焊接工艺试验,研究了辅助电流对Cu/Al超声波焊接的界面温度、材料塑性流动、界面中间相(IMC)分布及接头力学性能的影响。结果表明,复合焊件成型良好,其接头抗拉剪力为3030N,接头的断裂模式为韧性-脆性复合断裂。在同样的焊接时间0.2s内,随着电流的增大,Cu/Al界面温度增加,金属塑性流动以及界面扩散也随之增强,这说明辅助电流能明显促进界面冶金;相比长时间0.4 s的超声波焊接,辅助电流能在保证界面温度、材料塑性变形的前提下,能明显减薄界面IMC层的厚度,这是电流增强Cu/Al接头的主要物理机制。研究结果为优化Cu/Al复合焊接头强度提供了参考。     

DH36高强度钢摩擦柱塞焊工艺与接头组织性能

对高强度船体结构钢DH36钢板进行了摩擦柱塞焊工艺试验研究,对焊接接头微观组织、显微硬度、抗拉强度及连接界面处冲击吸收功进行了观察与测试,对连接界面处拉伸断口进行了扫描电镜观察.结果表明,采用优化摩擦柱塞焊工艺可成功实现DH36高强度钢和柱塞的冶金连接,焊缝区出现明显的硬化倾向,其显微硬度最高可达333 MPa;焊接接头抗拉强度高于母材,连接界面处拉伸断口具有微小等轴韧窝和解理断裂的混合特征,但接头连接界面处冲击吸收功为37 J±5 J,明显低于母材205 J.这是由于焊接热循环过程中在母材与柱塞连接界面附近产生了大量贝氏体及魏氏体铁素体组织导致的韧性降低造成的.     

Static tensile strength characteristics of fillet welding lap joints assisted with bonding

A series of tensile tests were carried out on fillet welded lap joints assisted with bonding for investigating the static tensile strength characteristics of the joints from the viewpoints of stress reduction effect around the welded part due to bonding. It was confirmed that the mechanical properties of epoxy resin bonding used in this study were not deteriorated by heating to less than 150°C. When the fillet welded lap joints with bonding were assembled, the bond layer 20 mm from the weld toe was subjected to heating to over 150°C. In other words, the mechanical properties in that region deteriorated. The strengths of the elastic limits of specimens with welding and bonding were higher than those of specimens with only welding by from 60 to 100 MPa. The ultimate tensile strengths of them were almost the same because they were broken at the base plate. The strains around the weld toe and the root of specimens with welding and bonding were smaller than those of specimens with welding by around 13% in the elastic region. The strengths of specimens with only bonding were 170 MPa, which could be explained by a theory of elastic stress distribution. Even if the bond layer 20 mm from weld toe of the specimens with welding and bonding was thermally damaged, the possibility was confirmed that the residual bond layer had around 100 MPa in strength. It could be concluded that the strength of the residual bonding assisted to decrease the stress around the welded part of the specimens with welding and bonding.