排序方式: 共有38条查询结果,搜索用时 15 毫秒
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板料激光弯曲成形是一种利用激光成形工件的柔性成形技术。研究激光成形过程中板料变形与扫描路径之间的关系对该技术的应用尤为重要。文章以板料激光扫描成形过程为研究对象,对激光曲线扫描中较为普遍的正弦路径进行了有限元模拟分析。结果表明,在相同工艺参数下,正弦扫描时,光斑在板料边缘停留时间相对较长,温度峰值攀升更为迅速;由于板料成形中只受热应力作用,变形区域的形状、大小与扫描路径有关。由于约束的影响,正弦扫描成形时,板料加热区表现为一个半径较大的圆弧状区域,并且由于板料中间部位受到的刚端抑制作用相对较大,使两端产生翘曲。随着弦高的减小,翘曲现象减轻,渐呈准直线。 相似文献
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差厚拼焊管胀形减薄率不均匀性分析 总被引:1,自引:1,他引:1
结合有限元数值模拟和试验,研究差厚拼焊管胀形减薄率分布规律,并从应变状态和应变历史角度分析减薄率不均匀性产生的原因,进而研究厚度比、长度比及硬化指数n对减薄率分布的影响。结果表明差厚拼焊管胀形时薄、厚管不同部位始终处于不同的轴向应变状态,导致在发生相同的环向应变时,厚向应变分布不均。厚管愈靠近焊缝区域减薄率愈小,薄管愈靠近焊缝减薄率愈大。厚度比和硬化指数n对壁厚分布影响明显,厚度比越大、n值越低,胀形后薄、厚管的壁厚差越大;但厚度比影响主要集中在焊缝附近,n值影响整个胀形区的壁厚分布。 相似文献
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差厚拼焊管内高压胀形塑性变形规律 总被引:3,自引:0,他引:3
为揭示差厚拼焊管内高压胀形的变形规律,采用有限元数值模拟和实验并结合力学分析,研究了差厚拼焊管胀形时薄壁管、厚壁管的变形差异,及塑性区的发生、发展过程和促进变形协调的力学和几何因素,分析了差厚变形条件下薄壁管、厚壁管的应力、应变发展历史.结果表明:差厚拼焊管内高压胀形时,厚壁管的变形始终落后于薄壁管.薄壁管中部最先屈服,塑性区白中部向两端逐渐扩展,厚壁管靠近焊缝端先屈服,随着内压升高塑性区逐渐扩展到另一端.变形强化和长度比增大可促进两管协调变形.无论长度比如何变化,整个变形过程中薄壁管轴向应变始终为拉应变,厚壁管轴向始终为压应变. 相似文献
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To reveal the reason of weld-line movement in hydroforming of a tailor-welded tube (TWT) with dissimilar thickness,the stress ratio of axial stress to circumferential stress is derived by mechanical analysis and analyzed between the thicker and thinner tubes,as well as the property of the axial strain. During TWT hydroforming,tensile strain along axial direction happens on the thinner tube. On the contrary,compressive strain happens on the thicker tube. Experiments are conducted to varify the weld-line movement regularity and strain distribution. It indicates that the weld-line moves from the thinner part to the thicker during TWT hydroforming. The thinning ratio of the thinner tube is bigger than that of the thicker tube,especially in the zone near weldline. Stress ratio difference between the thicker tube and the thinner tube is the main reason of weld-line movement and non-uniform thinning ratio distribution. 相似文献