搅拌头及工艺参数对厚板7050铝合金搅拌摩擦焊成形的影响

探索了搅拌头及工艺参数对7050铝合金搅拌摩擦焊接焊缝成形的影响.试验结果表明:搅拌头设计不合理及工艺参数选取不当都将导致焊缝成形不良.轴肩尺寸过大是导致焊缝出现隧道型孔洞的主要原因.工艺规范过强时,焊缝易产生飞边和隧道型孔洞等缺陷.在本试验条件下,采用Ⅲ号搅拌头、旋转速度300 r/min和焊接速度95 mm/min...     

超声振动对6061-T4铝合金搅拌摩擦焊接头组织和性能的影响

利用自主研制的试验装置,通过工具头将超声振动能量施加在搅拌头前方的待焊工件上,研究了超声振动能量对减少焊接缺陷、改善搅拌摩擦焊接头组织和力学性能的影响.对6 mm厚度6061-T4铝合金板进行了超声振动强化搅拌摩擦焊工艺试验,并与相同工艺条件下的常规搅拌摩擦焊进行了对比.结果表明,超声振动能够减小焊速/转速比较大时的焊缝内部隧道型缺陷,增大材料对接混合区宽度和焊核区体积,细化焊核区和热力影响区微观组织,提高接头抗拉强度和焊核区显微硬度.     

附加超声对6061-T6铝合金/Q235钢搅拌摩擦焊搭接工艺优化

采用超声振动强化搅拌摩擦焊接工艺实现了6061-T6铝合金和Q235钢异种金属的有效连接,考察了超声能量对焊缝成形、接头组织、力学性能以及焊接载荷的影响.结果表明,施加超声能量可以显著改善焊缝表面成形,增加铝/钢界面区和焊核区的宽度.超声振动细化了焊核区和热力影响区的晶粒组织,改变了搭接接头的断裂机制和断裂位置,提高了...     

铝合金搅拌摩擦焊热源模型建模专家系统

在铝合金搅拌摩擦焊三维体积热源模型建模过程中,轴肩、搅拌针侧面以及搅拌针底面摩擦产热的热流密度加载范围存在不确定性,需校核确定,增加了建模难度与工作量.针对该问题,建立三维搅拌摩擦焊热源模型,并确定其不确定热源模型参数,研究了这些参数变化对模拟焊缝温度的影响规律.在此基础上,基于参数变化影响规律建立了搅拌摩擦焊热源模型...     

AA5083铝合金的搅拌摩擦焊接工艺参数对搅拌头受力和热输入的影响(英文)

采用系统实验设计方法研究AA5083铝合金搅拌摩擦焊接工艺参数对搅拌头受力和热量输入的影响,得到了用来设计搅拌摩擦焊搅拌头和焊机的经验模型。当采用计算机来控制搅拌摩擦焊接时,这些模型可用来确定AA5083这类铝合金的摩擦焊接工艺参数、编制焊接程序及工艺参数控制。结果表明:影响轴向力和热量输入的重要参数是搅拌头转速、焊接速度和搅拌头轴肩直径,而影响纵向应力的重要参数是焊接速度和探头直径。     

Microstructure,mechanical properties and residual stresses as a function of welding speed in aluminium AA5083 friction stir welds

Friction stir welding (FSW), like other friction welding techniques, has the advantage that many of the welding parameters, e.g. tool design, rotation speed and translation speed, can be controlled in a precise manner, thus controlling the energy input into the system. However, the effect of different welding speeds on the weld properties remains an area of uncertainty. In this paper, we report the results of microstructural, mechanical property and residual stress investigations of four aluminium AA5083 friction stir welds produced under varying conditions. It was found that the weld properties were dominated by the thermal input rather than the mechanical deformation by the tool.     

Comparative study on fatigue properties of friction stir and MIG-pulse welded joints in 5083 Al-Mg alloy

The objective of this investigation was to compare the fatigue properties of friction stir welds with those of MIG-pulse welds. The 5083 Al-Mg alloy was welded by single pass friction stir welding（FSW） and double-sided MIG-pulse welding. The results show that friction stir（FS） welds have a better appearance than MIG-pulse welds for the lack of voids, cracks and distortions. Compared with the parent plate, FSW welds exhibit similar fine grains, while MIG-pulse welds display a different cast microstructure due to the high heat input and the addition of welding wire. The S-N curves of FSW and MIG-pulse joints show that the fatigue life of FS welds is 18 - 26 times longer than that of MIG-pulse welds under the stress ratio of 0.1 and the calculated fatigue characteristic values of each weld increase from 38.67 MPa for MIG-pulse welds to 53.59 MPa for FSW welds.     

LF21超声搅拌摩擦焊接头组织及性能分析

利用超声波对金属塑性成形作用对LF21铝合金进行了超声搅拌摩擦焊接试验,并对常规搅拌摩擦焊与超声搅拌摩擦焊接头的微观组织、断口形貌进行了对比分析.结果表明,超声能量通过搅拌头有效地导入焊缝底部,在增加焊缝底部搅拌强度的同时,提高了搅拌针周围金属原子的运动和扩散能力,焊核区的金属组织有明显的晶粒细化和组织均匀化.超声搅拌摩擦焊断口韧窝数量与深度均不及常规搅拌摩擦焊,撕裂棱不明显;超声搅拌摩擦焊可以提高接头力学性能,但平均断后伸长率相比常规搅拌摩擦焊有所下降.     

Microstructure and Mechanical Properties of Dissimilar Double-Side Friction Stir Welds Between Medium-Thick 6061-T6 Aluminum and Pure Copper Plates

It is difficult to achieve Al/Cu dissimilar welds with good mechanical properties for medium-thick plates due to the inherent high heat generation rate at the shoulder-workpiece contact interface in conventional friction stir welding. Thus, double-side friction stir welding is innovatively applied to join 12-mm medium-thick 6061-T6 aluminum alloy and pure copper dissimilar plates, and the effect of welding speeds on the joint microstructure and mechanical properties of Al/Cu welds is systematically analyzed. It reveals that a sound Al/Cu joint without macroscopic defects can be achieved when the welding speed is lower than 180 mm/min, while a nonuniform relatively thick intermetallic compound (IMC) layer is formed at the Al/Cu interface, resulting in lots of local microcracks within the first-pass weld under the plunging force of the tool during friction stir welding of the second-pass, and seriously deteriorates the mechanical properties of the joint. With the increase of welding speed to more than 300 mm/min void defects appear in the joint, but the joint properties are still better than the welds performed at low welding speed conditions since a continuous uniform thin IMCs layer is formed at the Al/Cu interface. The maximum tensile strength and elongation of Al/Cu weld are, respectively, 135.11 MPa and 6.06%, which is achieved at the welding speed of 400 mm/min. In addition, due to the influence of welding distortion of the first-pass weld, the second-pass weld is more prone to form void defects than the first-pass weld when the same plunge depth is applied on both sides. The double-side friction stir welding is proved to be a good method for dissimilar welding of medium-thick Al/Cu plates.     

超声功率对2219-T351铝合金搅拌摩擦焊接头组织与性能的影响

采用搅拌摩擦焊和不同功率的超声辅助搅拌摩擦焊对2219-T351铝合金进行焊接试验,测量焊接温度和焊接压力,对焊接接头的微观组织、显微硬度和力学性能进行分析,研究了加入不同超声功率后焊缝的组织性能和材料流动性. 结果表明,超声能降低焊接温度,随着超声功率增加减小的幅度越大. 加入了超声后,焊缝微观组织更加均匀,底部材料的流动情况得到改善,焊缝区有更多的强化相残留,焊接接头的显微硬度、抗拉强度及断后伸长率在加入超声后均有提高,在加入2.25 kW的超声功率时达到最高,最高拉伸强度为331 MPa,可达到母材的80%左右.     

2014铝合金搅拌摩擦焊接头缺陷分析

采用搅拌摩擦焊方法对8mm厚的2014铝合金进行了焊接，分析了接头缺陷的种类及形成原因。研究结果表明：搅拌头形状及焊接工艺参数对接头缺陷的形成具有重要影响；缺陷主要有孔洞、裂纹、飞边和沟槽四种；焊接缺陷的产生是由于在搅拌摩擦焊接过程中焊缝金属经历了不同的热机过程所致，过热或者塑性材料流动不足都会导致焊接缺陷的形成。     

35mm厚板铝合金搅拌摩擦焊接头组织和性能

采用搅拌摩擦焊双面焊工艺,对35 mm厚板6005A-T6铝合金型材进行了搅拌摩擦焊接,获得成形良好、表面光滑、无隧道孔和沟槽缺陷的焊接接头.应用光学显微镜、扫描电镜、显微硬度仪及电子拉伸试验机等对搅拌摩擦焊接头组织与性能进行研究.结果表明,接头焊核区组织为细小等轴晶;前进侧出现明显的螺旋纹及清晰的结合线,热力影响区晶粒被明显拉长呈条状组织,热影响区受热晶粒粗大;后退侧未见螺旋纹,晶粒比前进侧细小,过渡区较前进侧宽.在搅拌头旋转频率为650 r/min,焊接速度为200 mm/min工艺条件下接头抗拉强度为213 MPa,达到母材强度的84.8%,断裂起始于焊缝前进侧的热影响区,扩展至双面焊接重合区时,沿着焊缝后退侧热影响区直至断裂;接头显微硬度最低值出现在前进侧热影响区,最低值为50 HV.     

Process–microstructure–property correlations in Al–Li AA2199 friction stir welds

Abstract

This paper examines the effect of three friction stir welding process parameters on the residual stresses, hardness and distortion for butt welded aluminium–lithium AA2199 alloy, a novel, low density high strength alloy with potential in the aerospace sector. A systematic set of nine trial welds is examined at different tool rotation and traverse speeds as well as tool downforces. The tensile residual stresses (～50% of parent material yield strength) and the hardness drop in the weld line varied little with any of the friction stir welding process parameters. However, their breadth increased with rotation speed and downforce and decreased with increasing translation speed, which is consistent with increasing heat input. Weld distortion took the form of a saddle with the longitudinal bending distortion correlating strongly with the width of the tensile zone consistent with it being driven by the magnitude of the tensile buckling forces in the weld region.     

铝合金超声搅拌复合焊接

铝合金的搅拌摩擦焊（FSW）通常在焊接区形成上高下低”浅漏斗状”的温度场,使焊缝厚度方向的组织性能差异较大．为了得到更好的焊接效果,文中提出超声搅拌复合焊思想,将超声波通过搅拌头导入焊缝纵深处,以改善焊缝组织性能．试验采用2．5mm厚的2219铝合金分别用上述两种方法进行焊接,并对焊缝的微观组织和力学性能进行了分析比较...     

A thermal model of friction stir welding applied to Sc-modified Al–Zn–Mg–Cu alloy extrusions

A thermal model of friction stir welding is presented that proposes an energy-based formulation of the Johnson–Cook plasticity model in order to account for heat generation due to plastic deformation. The proposed formulation is derived from an empirical, linear relationship observed between the ratio of the maximum welding temperature to the solidus temperature of the alloy and the welding energy. The thermal model is applied to Sc-modified Al–Zn–Mg–Cu alloy extrusions joined by friction stir welding at 225, 250, 300 and 400 RPM (all other weld parameters held constant). With the incorporation of heat generation due to plastic deformation, the thermal model accurately predicts the maximum weld temperatures and temperature profiles at the higher energy weld conditions, i.e. 300 and 400 RPM. At the lower energy welds (i.e. 225 and 250 RPM) where plastic deformation contributes a larger portion to the total heat generation, the model under-predicts the maximum weld temperatures under the tool shoulder but shows good agreement with the remaining experimental temperature data.     

Q235钢板与6082铝合金搅拌摩擦焊工艺

通过对Q235钢板和6082铝合金进行搅拌摩擦焊接,并用正交试验对搅拌摩擦焊工艺参数进行优化. 结果表明,焊接过程中,将钢板放在返回侧,铝板放在前进侧[1],离搅拌针较近的钢侧金属发生软化,并且在轴肩横向切应力作用下形成短"钉子",最终在搅拌针的旋转作用下填充到搅拌针后方形成的空腔内,当下压量为0.2 mm时,比较容易得到优质的焊缝;搅拌针旋转速度为260 r/min,焊接速度为16 mm/min,针头偏向铝侧0.2 mm时,所得焊缝的抗拉强度为141.204 MPa,断裂发生在铝侧焊核区与热力影响区的交界处;钢侧热机影响区的硬度比母材高,而铝侧热机影响区比母材低.     

基于温度场分析的航空铝合金薄壁件搅拌摩擦焊工艺参数优化设计

目前已经有对于不同厚度的铝合金的搅拌摩擦焊接(friction stir welding,FSW)进行研究,并研发出一系列的焊接设备和工艺保证焊接质量的可靠与有效.但对于超薄的铝合金焊接,搅拌摩擦焊还存在一定的限制,如由于工艺参数选取不当造成焊接温度的太低或过高,严重降低焊缝的力学性能.通过分析搅拌摩擦焊传热机理,研究薄壁件徽搅拌摩擦焊接工艺参数选取的计算模型,并对模型计算出的工艺参数进行DEFORM焊接温度场分析,最后通过设计基于立式加工中心的微搅拌摩擦焊试验来验证计算模型和焊接温度场分析的合理性.     

铝/钢异质金属搅拌摩擦焊技术研究进展

铝/钢异质金属复合结构具有轻质节能、降低成本、可以满足不同的工作条件等特点,在航空航天、船舶制造等领域的应用日益受到重视。由于铝和钢的物理化学性质存在巨大差异,铝和钢的连接成为焊接领域的难点问题。搅拌摩擦焊作为一种固相连接方法,具有热输入低、高温停留时间短、焊接变形小等特点,对克服铝/钢异质金属性能差异带来的焊接困难具有优势,已成为铝/钢异质金属焊接的研究热点。综述了铝/钢异质金属搅拌摩擦焊国内外研究现状,主要涉及搅拌头材料选择与结构设计、焊缝成形、焊接工艺窗口、力学性能、接头冶金结合、连接机制以及外源辅助搅拌摩擦焊新技术,可以为铝/钢异质金属结构的轻量化设计提供新思路,最后对其发展趋势进行了展望。     

20mm厚2219铝合金可回抽搅拌摩擦焊接及接头组织和性能分析

为了解决封闭环缝的焊接匙孔问题,研究了采用可回抽搅拌摩擦焊接进行匙孔消除的焊接工艺. 在厚板可回抽焊接过程中,搅拌针末端的瞬时空腔问题受体积效应影响将更为显著且更难控制. 研究了不同回抽焊接长度下20 mm中厚板2219铝合金可回抽焊接接头的内部质量、组织形貌和力学性能. 结果表明,在焊接速度100 mm/min、搅拌头转速400 r/min的参数组合下,回抽焊接区长度为200 ~ 500 mm时,可获得无内部缺陷的可回抽搅拌摩擦焊焊缝;回抽焊接区接头横截面上存在2个焊核,靠近焊缝上表面的焊核大小随着回抽过程不断减小;一次焊接、重复焊接和可回抽焊接接头的拉伸性能依次降低,且可回抽焊接接头的力学性能随着回抽距离的增长而有所提升;在实际工程应用中回抽距离500 mm为较优的参数选择.     

Relationships between weld parameters,hardness distribution and temperature history in alloy 7050 friction stir welds

Abstract

Aluminium alloy 7050 was friction stir welded using three different ratios of tool rotation rate to weld travel speed. Welds were made using travel speeds of between 0·85 and 5·1 mm s^?1. Weld power and torque were recorded for each weld. An FEM simulation was used to calculate the time–temperature history for a subset of the welds. For each weld the hardness distribution with and without post-weld heat treatment was determined. The hardness distributions within the welds are rationalised based on the friction stir welding parameters and the resulting temperature histories. The analysis provides a basis for manipulation of weld parameters to achieve desired properties.