Self-organizing map based quality assessment for resistance spot welding with featured electrode displacement signals

To classify the quality of the resistance spot welding process, a relationship between the welder electrode displacement curve characteristics and the weld shear force has been explored. Eleven statistical features of the displacement signals are extracted to represent the welding quality. Self-organizing map (SOM) neural networks have been employed to discover their quantitative relationship. In order to identify the influence of various displacement curve features, all of the available combinations have been used as inputs for SOM neural networks. Further we analyze the impact of each feature on the classification results, yielding the best quality-indicative combination of characteristics. There is no determinant relationship between the welding quality and the level of expulsion rate. The quality of welding is most impacted by the maximum electrode displacement, the span of welding process and the centroid of the electrode displacement curve. The experiments show that SOM is feasible to assess the welding quality and can render the visualized intuitive evaluation results.     

Microstructure and property of friction stir welding joint of 7075Al and AZ31BMg

Microstructure and forming quality of friction stir welding joints of 7075Al and AZ31BMg with different welding parameters were analyzed. The results show that, good welded joint is obtained when the rotating frequency is 13 r/s and the welding speed is 30 mm/min. An irregular area is formed in the welding center. Meanwhile, the river pattern and eddy-like distribution are found in the weld nugget zone. Besides, brittle intermetallic compounds Al₁₂Mg₁₇ and Al₃Mg₂ are found in the welded joint. They cause the increase of microhardness of welded joint. The maximum tension stress of welded joint is 112MPa.     

钢轨加压铝热焊的研究

为了提高钢轨常规铝热焊的接头质量,作者对钢轨加压铝热焊工艺进行了试验研究.结果表明,这种工艺使铸态焊缝变窄,母材产生一定塑性变形,接头韧性大幅度提高,是既能保证接头质量又便于现场生产使用的一种工艺.     

激光参数对高强度不锈钢搭接焊接结构和断裂行为的影响

通过焊接和拉伸试验及微观组织分析,研究了焊接参数对高强度301L-HT板搭接非熔透激光焊接接头结构、断裂行为和力学性能的影响.结果表明：激光焊缝的硬度为HV215,δ铁素体比电阻点焊少,热影响区硬度更接近于母材;焊缝几何结构对激光参数敏感,熔深变化的规律性更明显,特定部位的熔宽与焊接参数耦合有关;板材厚度相同的焊接接头变形刚度接近,焊缝的几何结构决定最后的变形和断裂行为,焊接内板的弯曲变形角度比外板大,两板的弯曲角度差随熔深增加而减小;焊接板弯曲角度和焊接强度随焊缝尺寸同步升高;焊缝硬度低于母材和热影响区导致拉伸变形集中在很窄的区域,焊接接头的断裂位移都小于2mm.     

Numerical Simulation of Projection Welding Processes for Door Hinge of Automobile Based on Coupled Fields Analysis

Projection welding is a variation of electric resistance welding with the dynamic changes of the flow paths for heat and electrical properties with changing temperature caused by the large plastic deformation collapse of projection. As the joint type between the auto door hinge and the inner plate, projection welding may bring welding distortions and would affect the assembly quality of auto body. A comprehensive electric-thermal-mechanical numerical simulation was performed to quantitatively simulate the processes of projection welding by using a coupled finite element method. The mechanism of projection collapse and the formation process of nugget were discussed and good conclusions have been achieved comparing with the test results.     

Prediction of Welding Residual Stress in 2. 25Cr-1Mo Steel Pipe

Introduction2.25Cr-1Mo-steel is widely used in thepetroleum industry and in steam power generatingof both nuclear and conventional power plants be-cause of its excellent high-temperature strength,corrosion resistibility,and resistance to high-tem-perature hydrogen attack.Because several alloy el-ements are added into2.25Cr-1Mo-steel,marten-site is prone to form after welding.It has been rec-ognized that phase transformation can radically af-fect the development of residual stresses[1-2].Inor…     

碳迁移对T91／12Cr1MoV异种钢管接头持久强度的影响

用焊接热模拟方法确定了焊后热处理工艺参数，通过选择９％Ｃｒ和５％Ｃｒ的焊材，研究了接头熔合区碳迁移行为，分析了脱碳层的碳浓度、碳化物类型、分布特征及其对接头持久强度 的影响。     

WELDOX960E高强钢手工电弧焊焊接接头组织与力学性能

通过拉伸、弯曲、冲击、硬度和金相组织分析等试验,对手工电弧焊焊接WELDOX960E高强钢焊接接头组织和力学性能进行研究.研究结果表明：采用Phoenix SH Ni2 K130焊条、手工电弧焊焊接WELDOX960E高强钢时,可以获得拉伸、弯曲、冲击性能良好的接头;其焊缝组织为针状铁素体与粒状贝氏体的混合分布;熔合区及粗晶区组织为板条马氏体和少量白色M-A块区;正火区组织为块状铁素体、粒状贝氏体和珠光体;母材显微组织为回火索氏体;WELDOX960E高强钢焊缝硬度为270 ～ 300 HV,且距离熔合线30 mm处出现软化区.     

Modeling, identification and simulation of DC resistance spot welding process for aluminum alloy 5182

Currently the aluminum alloy resistance spot welding(AA-RSW) has been extensively used for light weight automotive body-in-white manufacturing.However the aluminum alloys such as AA5182 have inferior weldability for forming the joint due to their high reflectiveness to heat and light.Therefore it is necessary to further develop the high performance control strategy and the set-up of a new welding schedule.The welding process identification is the essential issue where the difficulty arises from the fact that the AA-RSW is a nonlinear time-varying uncertain process which couples the thermal,electrical,mechanical and metallurgical dynamics.To understand this complicated physical phenomenon a novel dual-phase M-series pseudo-random electrical pattern is adopted to excite the AA-RSW electrical-thermal process and the thermal response is recorded according to the welding power outputs.Based on the experimental information,the transfer function of an AA-RSW electrical- thermal mechanism is identified,and the optimum model order and parameters are determined.Subsequently a control-oriented DC AA-RSW model is established to explore the welding power control algorithm.The simulated results of the control model show agreement with the experimental data,which validates its feasibility for the corresponding welding control.     

点焊电极点焊镀锌钢板的失效分析

本文对Ｃｒ—Ｃｒ—Ｃｕ合金材料制造的电极在点焊镀锌钢板时的失效形式进行了分析．结果表明：Ｃｒ—Ｚｒ－Ｃｕ合金材料制造的电极在点焊镀锌钢板时的失效形式主要是电极头部的塑性变形、电极端面的合金化以及再结晶和粘附。点焊镀锌钢板时电极失效的主要原因是Ｃｒ—Ｚｒ—Ｃｕ名金材料的软化温度低，点焊温度下的硬度、强度低和端面的合金化。     

基于Marc和遗传算法的焊接工艺参数优化

焊接变形的大小主要受焊接速度、焊接电流、电压、送丝速度、焊接顺序等工艺参数的影响.根据焊接热加工特点和实际需要,针对设计变量数目繁多、类型多样的焊接工艺,采用遗传算法与有限元分析相结合的方式,对重点参数进行了优化.以二维平板对接焊的模型为例,以工件最小焊接变形量为优化目标,经过遗传算法进化后,结合有限元方法进行每组参数组合的焊接过程热力耦合分析,找出焊接能量和焊接速度的最优组合,为焊接工艺的优化和制定提供科学的评价和预测.     

LY12铝合金搅拌摩擦焊工艺研究

对LY12铝合金进行了搅拌摩擦焊接工艺试验,并对焊接接头进行了金相观察和力学性能检测.试验结果表明,合理的焊接参数匹配是取得性能优良焊接接头的前提.当旋转速度为905 r/min、焊接速度为33.6 mm/min、肩部压力为48 MPa时施焊,可获得成型良好无缺陷焊接接头,且焊缝区晶粒细小.搅拌摩擦焊焊接轧态LY12铝合金时,焊接时的热输入可部分消除接头处金属的冷作硬化.随着焊接速度的提高,焊接热输入量降低,消除冷作硬化的能力减弱,焊接接头抗拉强度提高.     

LY12铝合金搅拌摩擦焊工艺研究

对LY12铝合金进行了搅拌摩擦焊接工艺试验,并对焊接接头进行了金相观察和力学性能检测.试验结果表明,合理的焊接参数匹配是取得性能优良焊接接头的前提.当旋转速度为905 r/m in、焊接速度为33.6 mm/m in、肩部压力为48MPa时施焊,可获得成型良好无缺陷焊接接头,且焊缝区晶粒细小.搅拌摩擦焊焊接轧态LY12铝合金时,焊接时的热输入可部分消除接头处金属的冷作硬化.随着焊接速度的提高,焊接热输入量降低,消除冷作硬化的能力减弱,焊接接头抗拉强度提高.     

Study on the Formation of η Phase During TIG Welding

The paper studied the effect of Ni-Fe-C filler materials on the η phase formation during TIG welding of WC-30Co and 45 steel. ηphase's morphology and forming condition were discussed using BEI method. The properties of the weld joints were also measured using microhardness measurement and four-point bending measurement. The results show that the weld joints of WC-30Co/45 steel can be obtained by TIG welding using different Ni-Fe-C materials as filler materials, and ηphase formed in the joints is M6C, M12C type carbides. The poor carbon content of the W-Co-C system resulted from the C diffusion and the high ingredient Fe are the two vital factors inducing to ηphase formation. It can be restricted by the addition of C element into Ni-Fe material. When carbon content is 0.01 % in filler material, bend strength σbb of weld joint is 908 MPa. However, when carbon content increases to 0. 41% in filler material, bend strength σbb is 1 260 MPa.     

焊接热场的三维有限元分析

为了进行焊接热场的三维分析,设计了一个考虑材料物理常数的温度依赖性和更合理的熔池模型的计算程序。为了考核这一程序,以真实管线环焊缝为例,进行了计算.证实了计算程序的准确性、实用性。     

海洋平台KK型管节点的疲劳性能试验研究

以某自升式海洋平台为研究对象,进行了空间KK型管节点在轴力作用下的疲劳性能的试验研究.通过对管节点模型的试验测试,得到了KK节点在轴力作用下沿着焊缝周围的热应力区内的热点应力分布及节点的应力集中系数,并采用S-N曲线法对KK型管节点的疲劳寿命进行估算.通过对比分析,指出了试验方法与规范计算方法在管节点疲劳性能分析上的差异性.     

点焊镀锌钢板时球形电极表面熔敷TiC涂层对电极失效的分析

利用SEM、EDX和XRD等方法分析了在点焊镀锌钢板时球形电极表面熔敷TiC涂层对电极失效的影响。结果表明:点焊镀锌钢板时,球形电极的失效机制,主要是电极和镀锌板之间局部焊接的断裂发生在电极表面而导致的电极磨损,以及电极和镀锌板表面的锌之间的合金化。表面涂敷TiC的CuCrZr电极的寿命(1200点)是CuCrZr电极寿命(500点)的2.4倍,表面处理能提高电极寿命的主要原因是,在点焊镀锌钢板时表面涂敷的TiC层能阻碍电极和镀锌板之间的局部焊接和阻碍电极和镀锌板表面的锌之间的合金化。     

客车顶蒙皮焊接半自动化设备的设计与调试

客车顶盖蒙皮自动点焊设备开发的成功,解决了客车顶盖蒙皮生产工艺落后的问题。如果采用电铆焊的方法对蒙皮与骨架进行连接,具有质量好、成本低、操作方便、焊件受热变形小及成形美观等优点。可扩展到侧围蒙皮与骨架的焊接。     

主梁新细节的疲劳寿命预测及参数分析

为研究沪通铁路长江大桥主梁新细节的过焊孔半径、过焊孔形状、焊脚尺寸对大桥疲劳性能的影响,采用热点应力法预测疲劳寿命,并将其与9个试件的疲劳实验结果进行比较,在此基础上建立有限元模型进行相关参数分析.研究表明:基于热点应力法预测的主梁新细节的疲劳寿命与试验测试值存在一定差异,但均小于15%;主梁新细节过焊孔附近的翼缘板网格尺寸对其热点应力影响较小,小于1.6%,对此焊接细节采用两点外推法与三点外推法计算热点应力均是可行的;焊脚尺寸、过焊孔半径对热点应力、翼缘板的最大应力有一定的影响,但变化幅度均不超过10%;热点应力、腹板、翼缘板最大应力受长短半轴比的影响显著,腹板最大应力的变化幅度达21.6%,而其他两者均未超过10%.建议在有条件时可采用椭圆形过焊孔的焊接细节,且长短轴之比适当取大些.      

6005A铝合金焊接接头的腐蚀行为

采用浸泡试验和电化学方法研究了6005A铝合金焊接接头在不同介质环境中的腐蚀行为,采用光学显微镜、扫描电子显微镜、电子能谱分析了焊缝微观组织和成分的变化．结果表明,由于ER5356焊丝Mg含量较高,致使焊缝中Mg含量高于母材,因此焊缝耐蚀性能低于母材;在浸泡试验中焊缝发生均匀腐蚀,表面呈多孔形貌,其对光线的反射明显弱于仅发生点蚀的母材,表现出焊缝发黑的现象;焊接接头在0．1MNaCl、0．1MNa2SO4和0．1MNaNO3溶液中的腐蚀速度为VNaCl〉VNa2SO4〉VNaNO3.