硫酸盐还原菌对EH40焊接钢海水腐蚀的影响

目的研究无菌和SRB体系中EH40钢焊接接头的母材区、热影响区和焊缝区腐蚀差异。方法利用金相显微镜观察、失重法、电化学测试、扫描电镜和X射线光电子能谱仪等分析手段。结果焊缝区微观组织由块状铁素体(BLF)和魏氏组织(W)组成;热影响区可再分为粗晶区(CGHAZ)和细晶区(FGHAZ)两个区;母材区主要由BLF、AF和少量珠光体组成。在无菌对照体系中,焊缝区腐蚀速率为0.0026 mm/a,混合区次之,为0.0023 mm/a,母材区最小,为0.0019 mm/a。含SRB体系中,各区的腐蚀速率为:焊缝区(0.0037 mm/a)混合区(0.0034 mm/a)母材区(0.0030 mm/a)。热影响区腐蚀产物形貌粗大,点蚀孔也较大。结论焊缝区比母材区容易腐蚀,由此易造成小阳极大阴极加速腐蚀,热影响区容易发生点蚀。SRB能促进三个区域试样腐蚀加速。     

超级钢闪光对焊电热耦合过程温度场分布的有限元分析

为研究超级钢闪光对焊闪光阶段焊件的温度场分布 ,建立了轴对称有限元模型。运用单元死活技术解决闪光时液体过梁爆破引起物质烧损的模拟问题 ,提出了闪光焊过程中电热耦合作用的模拟方法。考虑单元死活的有限元分析结果与试验结果更加吻合 ,为选择和优化闪光焊焊接参数以及为闪光焊过程顶锻阶段的热力耦合过程的模拟提供了有效的分析手段     

铝合金LC52对接焊海洋大气应力腐蚀研究

在设计制作的恒载荷大气应力腐蚀试验装置上，进行了铝合金LC52对接焊拉伸试样的海洋大气应力腐蚀试验研究。，对海洋大气应力腐蚀试验中断裂的、加载应力为0.5σ。的试样分析表明．铝合金LC52焊接件在海南海洋大气环境下存在应力腐蚀开裂：Cl^-富集于SCC部分的含钙和／或含硫的第二相质点，促进了应力腐蚀开裂．获得了铝合金LC52焊接的海洋大气SCC失效特征。     

电热管焊接接头挤压裂纹的分析

针对电热管焊接接头挤压产生的裂纹 ,通过采用金相显微镜观察其金相组织并用直读光谱对原材料成分进行化学成分分析 ,排除了成分、焊接工艺规范等的影响。经过对挤压过程分析 ,发现应力集中点是产生裂纹的主要原因 ,并提出了改进的方法     

弧焊机器人用数控焊接变位机的研制

依据现有进口弧焊机器人的技术特点和工作要求 ,研制了与之配套的数控焊接变位机。该机工作台可进行旋转和倾斜两个运动 ,可使工件在最佳的位置进行焊接 ,与弧焊机器人一起构成了柔性加工单元。在实际焊接应用中 ,效果良好     

典型焊接结构CAD专家系统的研究与应用

论述了典型焊接结构CAD专家系统的内涵、设计思想和设计方法过程以及应用前景。     

变光焊接眼护具响应时间定义分析

通过对不同标准的变光焊接眼护具响应时间定义分析，提出各标准定义及计算值的区别，以利于帮助消费者进行产品选择和企业对产品设计的改进。     

Resistance mash welding for joining of copper conductors for electric motors

The automotive industry is developing designs and manufacturing processes for a new generation of electric motors intended for use in hybrid and electric vehicles. This paper is focused on using solid-state welding to join rectangular wires in the fabrication of motor stators. Resistance welding has not typically been applied to copper due to its very high electrical conductivity; however through optimization of the current and pressure profiles, excellent quality copper-to-copper joints have been demonstrated with a technique known as resistance mash welding. A better understanding of resistance mash welding characteristics will help advancements in its application for stators. The limitations of this application will be discussed.     

反应器引压端法兰焊接阀门断裂原因分析

通过对Z41H-160型阀体端法兰断裂件的宏观检查、化学成分分析、金相分析、断口形貌观察、EDS能谱分析和维氏硬度测试等研究,表明阀体热处理不当致使硬度超高,阀门结构不合理导致硫化物应力腐蚀是阀体断裂的主要原因。     

Vibrational energy loss analysis in battery tab ultrasonic welding

In ultrasonic metal welding processes, high-frequency ultrasonic energy is used to generate friction and heat at the interface between weld parts to produce solid-state bonds. It has been observed that sufficient energy is required to produce proper bonding, while excessive energy can cause such quality issues as weld fracture and perforation. Therefore, it is important to have a product/process design in ultrasonic welding to ensure efficient energy conversion from ultrasonics to welding energy, minimizing energy loss in the process. In this work, vibrational energy loss associated with the longitudinal and flexural vibrations of the Cu coupon during ultrasonic welding is studied by applying one-dimensional continuous vibration models. To facilitate our modeling, experimental results from the free response of Cu coupon were obtained to determine the damping characteristics of the Cu coupon in the welding process. Our analysis shows that substantial energy loss can occur during welding due to the flexural vibration of the Cu coupon, especially when the overhang (the upper part of the Cu coupon extended from the anvil) of the Cu coupon resonates at or close to the welding frequency (about 20 kHz), degrading the weld quality of battery tabs. This study contributes to understanding the fundamental dynamics of the Cu coupon during ultrasonic welding and its impact on weld quality.