Effect of the Welding Parameters on the Structural and Mechanical Properties of Aluminium and Copper Sheet Joints by Electromagnetic Pulse Welding

Aluminium-copper hybrid parts, as a substitution to copper parts, result in weight and cost reduction, and are relevant in applications related to the electronic, heating and cooling sector. However, aluminium to copper joined by thermal welding processes presents challenges in terms of achieving good joint quality. This is attributed to their dissimilar mechanical and thermal properties which result in large stress gradients during heating. This study investigated joining of aluminium to copper sheets by electromagnetic pulse welding, which is a solid-state process that uses electromagnetic forces for joining of dissimilar materials. Hybrid sheet welds were obtained for all parameters conditions, selected according to a Taguchi L18 design. The structural and mechanical characteristics were examined and related to the welding parameters by means of a Pareto analysis and response graphs. The welded zone started with a wavy interface with interfacial layers and defects and evolved to a flat interface without interfacial layers. The maximum transferable force depended on the minimum specimen thickness and the strength of the hybrid sheet weld. In case of aluminium sheet thickness reduction, the maximum transferable force was linearly correlated with the aluminium sheet thickness. High quality joints were obtained for no aluminium sheet thickness reduction and for a sheet weld strength which was at least as high as that of the base material. The most effective way to increase the transferable force was to lower the initial gap and to increase the free length, which resulted in no aluminium sheet thickness reduction. Alternatively, the use of a rounded spacer decreased the effect of the aluminium sheet thickness on the transferable force. An increase in weld width was achieved for an increase in capacitor charging energy and gap, whereas an increase in weld length was obtained for a decrease in gap. An increase in weld width did not necessarily result in an increase in the transferable force. In the regarded cases, a hybrid sheet with narrow weld width could therefore have higher quality.

Establishment of size-dependant constitutive model of micro-sheet metal materials

The inherent mechanism of size effect in micro-sheet material behavior of plastic forming was explained by the surface layer model and theory of metal crystal plasticity. A size-dependant constitutive model based on the surface layer model was established by introducing the scale parameters and modifying the classical Hall-Petch equation. The influence of the geometric dimensions and the grain size on the flow behavior of the material was discussed using the new material constitutive model. The results show that, the flow stress decreases while the sheet metal thickness decreases when the grain size keeps constant, and the micro-sheet metal with a larger grain size is more easily to be influenced by the size effects. The material constitutive model established is validated by the stress-strain curve of the micro-sheet metal with different thicknesses derived from the tensile experiments. The rationality of the material model is verified by the fact that the calculation results are consistent with the experimental results.

基于力场原理的有轨电车地面供电模块的故障分析与对策

针对基于力场原理的有轨电车地面供电模块频繁出现的正极触指烧损的故障,通过对触指工作状态的测试,掌握了其工作瞬间的电气特性。结合触指负载能力的分析,指出容性电流引发的电弧和受电靴电流不均衡是导致触指烧损的直接原因。通过针对性的措施,实现了故障的消除。

国外某铜钼混合精矿磁选分离工艺试验研究

以国外某铜钼选厂含铜、钼品位分别为15.98%和9.25%的铜钼混合精矿作为研究对象,针对该混合精矿的矿物学特征,基于前期探索试验结果,确定采用“SLon-立环脉动高梯度磁选机一粗一扫”的工艺流程处理该铜钼混合精矿。通过流程试验结果表明:获得了含Cu品位26.04%,Mo 3.33%的铜精矿;含Mo品位14.52%,含Cu 7.02%的钼精矿。本研究实现了铜钼混合精矿的高效分离,可为铜钼绿色分离提供技术支撑。

紫铜止水片在水工建筑物中的应用研究

紫铜止水片作为一种建筑材料,主要由紫铜(纯铜)或铜合金制成,因材质具有良好的延展性、耐腐蚀性和密封性能,适合用作止水材料。文章以安徽省某灌区渠下涵为例,在明确紫铜止水片在该渠下涵分缝位置防渗漏的关键作用后,对紫铜片展开性能试验。立足试验结果,提出紫铜止水片在该水工建筑中的应用设计思路,以供参考。

普陀山观音圣坛工程技术创新

文章介绍了国内首个“毗卢观音”造型为建筑形态的复杂宗教文旅建筑——普陀山观音圣坛的技术创新与技术突破,重点包括“须弥山”多曲面双层斜交空间网格清水混凝土结构、“如意塔”巨型复杂空间曲面劲性混凝土结构、“毗卢观音”复杂佛教建筑造型装饰等多项技术攻关,解决了大型复杂现代宗教文旅建筑工程施工难题。

卷绕镀铜工艺对复合集流体电学性能影响研究

为改善锂离子电池用镀铜复合集流体的电学性能,通过控制卷绕磁控溅射走带速度、阴极功率、工艺压强、线性离子源前处理参数、NiCr打底层厚度等工艺条件,在有机基材表面沉积铜膜,通过四探针方阻测量仪测定镀铜层方阻值,得到了不同工艺参数对镀铜层方阻的影响规律。结果表明:随走带速度增加,方阻值呈二次方增大;随阴极功率增加,方阻值呈幂次方降低;工艺压强0.13~0.45Pa范围内,方阻值在0.2Pa时达到最低;离子源电流0~0.7A范围内,方阻值随离子源电流增大线性降低;NiCr打底层能够改善镀铜层的方阻,6.7nm厚的NiCr打底样品较无打底层样品方阻值降低23.2%。

焦化液化气脱硫醇装置存在问题分析及技术改造

焦化液化气脱硫醇装置经过技术改造,解决了脱硫后焦化液化气铜片腐蚀不合格、碱液氧化塔前后温差过大、脱硫后液化气中羰基硫含量高等问题,使脱硫后的焦化液化气达到进气分装置提炼丙烯的质量要求,顺利进入气分装置回炼,具有较大的经济价值。

剪切间隙对紫铜薄板剪切加工影响的实验和仿真研究

对0.5 mm的T2紫铜板进行了剪切加工实验,并采用Deform-2D有限元软件进行了模拟仿真,研究了剪切间隙对铜板剪切断面形貌、边缘加工硬化及剪切过程中的剪切力的影响,实验结果和仿真结果有很好的一致性。结果发现,剪切间隙对剪切断面特征和加工硬化程度有直接影响,在相对间隙为8%时,具有最大的硬度值和最大的加工硬化影响深度;剪切断面形貌特征与加工硬化密切相关,加工硬化最大值出现在剪切带与断裂带的分界处;剪切间隙的变化影响了剪切力,在间隙较大时,加工硬化比较严重,裂纹更容易萌生和扩展,使剪切带高度和最大剪切力减小。

排插全自动智能组装线的设计与实现

为了更好解决排插生产现场人工短缺问题,该文在结合现场生产实际情况和分析产品特点基础上,设计出排插的全智能化组装线的解决方案。此方案运用机器人和上料、加工、组装、检测等多种机构的综合应用代替了现场人工操作,实现了排插生产线的无人化生产,取得了良好的经济效益。

超薄紫铜板激光焊接的建模与仿真(英文)

采用激光焊接了超薄紫铜板,在试验基础上确立了激光焊接超薄紫铜板的合理的工艺参数,并对焊接接头做了三维影像分析。利用有限元软件ANSYS对焊接进行了动态模拟。建立了激光焊接的热源模型。仿真结果表明:激光焊接超薄紫铜板的温度场梯度大,热影响区小;热源后方的等温线稀疏,温度梯度小;在热源前方的等温线密集,温度梯度大;焊缝正面宽度的仿真结果与试验结果相一致。

超薄紫铜激光焊接工艺研究

针对超薄紫铜片的激光焊接工艺进行研究,分析了激光工艺参数对超薄紫铜片焊接的影响。结果表明,在合适的工艺参数下,超薄紫铜片焊缝成形良好,焊接接头基本与母材等强。对于薄板激光焊接,脉冲工作电流和脉冲频率对焊接成形影响很大。

铜合金同种和异种板材压印连接研究

采用试验方法研究了铜合金同种板材H62-H62、异种板材H62-SPCC和SPCC-H62压印接头的截面结构特征,并通过拉伸-剪切试验测试了三种接头的力学性能。结果表明,H62-H62和H62-SPCC两种接头截面颈部厚度和镶嵌量相当,SPCC-H62接头镶嵌量略小。H62-H62和H62-SPCC压印接头拉伸-剪切力约为4000 N,接头失效形式为上板颈部剪断失效;SPCC-H62压印接头强度较低,有上板颈部剪断失效和上板拉脱失效两种失效模式,拉伸位移和能量吸收值最大。H62和SPCC进行压印连接时,应将材料强度较大的H62作为上板。

铜-钢-铜三层复合板室温轧制成形工艺及结合机制的研究

研究了铜合金 - Q195 -铜合金三层复合板室温轧制成形工艺 ,借助金相显微镜、扫描电镜。

尺寸效应下的紫铜薄板力学性能试验研究

通过对0.1、0.2、0.4、0.6、0.8和1.0 mm厚的T2紫铜薄板在不同温度(450、650和850℃)下的热处理,获得不同的晶粒尺寸的试样,并采用数字图像相关性(DIC)方法对单向拉伸试验中的变形进行了测量,获得了相关力学性能参数(屈服强度、抗拉强度、最大均匀应变和断裂应变)与晶粒尺寸和板料厚度之间的关系.实验结果表明:所考察的退火T2紫铜薄板的力学性能参数均表现出明显的尺寸效应,抗拉强度、最大均匀应变和断裂应变均随材料厚度的减小或晶粒尺寸的增大而减小,且与厚度晶粒尺寸比呈近似指数关系.

某难选硫化铜矿石选矿工艺流程研究

针对某热液蚀变的接触变质原生硫化铜矿床矿石进行了选矿合理工艺流程和药剂制度的研究。试验研究表明,采用两次粗选、三次精选、两次扫选工艺流程可以获得含铜22.66%、回收率89.14%的技术指标。该工艺流程简单,铜的品位和回收率指标高,且易于工业化生产。

影响阳极铜浇铸模使用寿命的因素探讨

介绍了阳极铜模失效的基本形式和机理,对影响铜模使用寿命的主要因素进行了分析,指出阳极铜里杂质的存在、浇铸气孔的产生、模温控制及脱模剂性能的单一是影响铜模使用寿命的主要因素,并探讨了提高模具使用寿命的措施。

铜电解始极片压纹轿平装置的分析及改进

本文主要介绍了铜电解始极片的压纹矫平原理及加工装置的改进,使得始极片的应力得到很好的消除,增加了刚性,更好地满足了生产实践需要。

铜电解始极片剥片机的设计

铜电解所用的始极片,是在电解槽中生产出来后再经加工而成的。在生产过程中,钛种板做为阳极,以硫酸铜和硫酸的混合液为电解液,通电后,铜从电解液中向阴极移动,到达阴极后获得电子而在阴极析出纯铜,最终形成始极片。长久以来,铜电解始极片的生产过程已经实现自动化作业,然而始极片的剥离工序仍为人工作业,工人的工作量和劳动强度非常高,而且人工剥离会使得铜始极片产生弯曲变形以及破损,严重制约着始极片铜质量的提高。为此,利用气动技术,采用真空吸盘,设计了一台铜始极片剥离机,使得铜始极片的剥离能够实现自动化,从而减轻工人劳动强度,提高生产效率。

连铸机结晶器铜板电镀镍-钴(Ni-Co)合金工艺

介绍了国内目前采用的连铸机结晶器铜板电镀工艺和美国 AG公司连铸机结晶器铜板电镀 Ni-Co合金新工艺。通过对比 ,阐述了连铸机结晶器铜板电镀 Ni-Co合金新工艺的经济性。