共查询到19条相似文献,搜索用时 156 毫秒
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厚壁球形封头热冲压成形的数值模拟和优化 总被引:4,自引:2,他引:2
本文在 ANSYS软件上经二次开发后 ,对带直边半球形厚壁封头的冲压成形过程进行了二维有限元模拟。分析了坯料与模具之间的摩擦系数、下模形状、模具间隙及坯料形状等因素对封头成形的影响 相似文献
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在对某异形封头锻件结构进行分析后,选择模内镦挤成形方式,提出了模具的设计思路。利用Deform-3D软件对此异形封头锻件进行模内镦挤成形模拟,通过优化成形前坯料形状尺寸来满足成形力要求。结果表明,模具结构形式设计合理,坯料形状尺寸优化能够满足成形力要求。 相似文献
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H. Tian J. Wang W.P. Dong J. Chen Z. Zhao G.M. Wu 《金属学报(英文版)》2005,18(5):627-634
Traditionally a rotary forging process is a kind of metal forming method where a conic upper die, whose axis is deviated an angle from the axis of machine, forges a billet continuously and partially to finish the whole deformation. For the rotary forging process simulation, more researches were focused on simulating the simple stage forming process with axisymmetric part geometry. Whereas in this paper, the upper die is not cone-shaped, and the billet is non-axisymmetric. So the movement of the punch is much more complicated than ever. The 3D FEM simulation models for the preforming & final forming processes are set up aider carefully studying the complicated movement pattern. Deform-3D is used to simulate the material flow, and the boundary nodal resisting forces calculated by the final stage process simulation is used to analyze the final forming die strength. The CAE analysis of the die shows that the design of the final forming die is not reasonable with lower pre-stress which is easy to crack at the critical corners. An optimum die design is also provided with higher pre-stress, and verified by CAE analysis. 相似文献
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建立了描述喷射成形圆柱坯形状演化过程的数学模型,找到了一种较为简便的计算屏蔽系数的方法,研究了圆柱坯的生长规律.模拟结果表明,雾化参数、沉积盘的下拉速率和起始偏心距等是影响沉积坯形状演化的重要因素;喷射角主要影响上部过渡区的形状;而沉积盘转速在一定范围内变化时,对沉积坯形状演化几乎没有影响.喷射成形开始一段时间后,沉积坯顶点的生长速率将等于沉积器的下拉速率.在其它参数一定的情况下,通过适当选取起始偏心距,可以缩短沉积坯进入稳态生长的时间.模型结果与实验结果吻合较好.提出了喷射成形圆柱坯工艺的设计思路. 相似文献
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Zhichao Sun He Yang Xiaofeng Guo 《Journal of Materials Engineering and Performance》2013,22(2):358-365
In triple valve forming process by multi-way loading severely nonuniform deformation and temperature distributions are prone to occur, which may lead to poor forming quality and macro-micro defects. A 3D coupled thermo-mechanical rigid-viscoplastic finite element (FE) model for multi-way loading forming of AISI-5140 steel equal diameter triple valve was developed based on DEFORM-3D. Through comprehensive simulation and analysis, the influences of main process parameters on the forming process and nonuniformity of deformation and temperature were studied. The results showed that: (1) the degree of deformation nonuniformity decreased with the increase of the punch loading speed, initial temperature of billet, or the decrease of the friction factor; (2) the average temperature of forming body increased as the punch loading speed, initial temperature of billet and the friction increased, while the degree of temperature nonuniformity decreased with the increase of punch loading speed or decrease of initial billet temperature. 相似文献
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根据喷射成型的工艺过程特点, 研究了喷射成型制备的高硅铝合金圆锭凝固组织。结果表明: 喷射成型过程中, 在沉积坯件的上表面存在一个有一定尺寸的液态金属熔池; 沉积坯件的凝固组织与粉末凝固组织有明显差别: 沉积坯件整体上呈逐层凝固, 但不同部位的微观组织随凝固速度的不同而有明显区别 相似文献
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基于有限体积法的铜母线连续挤压扩展成形的数值模拟 总被引:2,自引:1,他引:1
对连续挤压几何模型进行简化,基于MSC.SuperForge软件平台,成功实现10mm×80mm铜母线连续挤压扩展成形的有限体积数值模拟,避免了刚塑性有限元法模拟大变形需要多次网格重划,体积损失等难题。获得了金属在模腔内的流动-应力-温度-组织耦合变化规律,详尽的分析了整个扩展变形流动过程与各物理场之间的关系,进一步探明了模腔结构对成形过程的影响。结果表明,在成形过程中,坯料最高温度约为872K,出现在坯料与挡料块接触的表面上;当趋于稳定状态时,扩展腔内坯料温度分布比较均匀一致,约为660K;坯料密度发生了明显变化,镦粗段坯料密度最高,为8.962×103kg/m3,产品成形区域坯料密度最低,在8.750×103kg/m3~8.771×103kg/m3之间。在镦粗段内,坯料与挤压轮的打滑量为32%,在镦粗前,坯料与挤压轮保持同步。坯料作用在腔体上的压力高点出现在腔体挡料块顶端,压力为473MPa。扭矩校核表明,数值模拟结果和实测结果吻合较好。 相似文献