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Deep penetration laser welding temperature field of 5A06 aluminum alloy canister structure was simulated using the surface-body combination heat source model by ANSYS, which was made up of Gauss surface heat source model and Gauss revolved body heat source model. Convection, radiation and conduction were all considered during the simulation process. The thermal cycle curves of the points both on the shell outer surface and in the seam thickness direction were calculated. Simulated results agreed well with the experiment results. It concluded that the surface-body combination heat source model was fit for the temperature field simulation of deep penetration laser welding of the aluminum alloy canister structure. This method was proved to be an efficient way to predict the shape and dimension of welded joint for deep penetration laser welding of the aluminum alloy canister structure. 相似文献
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为了能够更好的指导复合材料焊接工艺的制定,采用自熔等离子弧焊、埋弧焊和钨极气体保护焊3种焊接方法进行组合焊接。焊后通过金相显微镜、扫描电子显微镜、X射线能谱仪等分析方法,分析了轧制复合板及其接头的微观组织、界面元素分布、显微硬度及拉伸性能。结果表明,基材和覆材(复合材料的耐腐蚀层)界面元素扩散层厚度约10μm,由于增碳层和脱碳层的存在,显微硬度值随之升高和降低,抗拉强度达665 MPa,断口形貌呈韧脆混合断裂特征。焊接后,基材与过渡层焊缝界面扩散层厚度约5μm,基材与覆层焊缝界面扩散层厚度约3μm;第一道覆层焊缝由于受到多道焊缝焊接热的作用,铁素体体积分数含量达65%,平均显微硬度约380 HV0.2;接头抗拉强度与复合板相比降低约11%,断口韧窝大小、深度明显减小,断裂在焊缝处。 相似文献
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