焊接数值模拟,welding numerical simulation
1)welding numerical simulation焊接数值模拟
1.Numerical Simulation Research on Linear Friction Welding of Ti6A14V Alloy;钛合金Ti6Al4V线性摩擦焊接数值模拟研究
2.Application of combined welding heat source in arc welding simulation组合热源模型在焊接数值模拟中的应用
3.Establishment and application of material models for numerical simulation of welding process焊接数值模拟材料新模型的建立及应用
4.Numerical Simulation on Residual Stress Fields and Temperature Fields of Weld Joint in the Process of Fusion Welding熔化焊焊接接头的温度场和应力数值模拟
5.The Numerical Simulation of Welding Deformation of Spot Welding Joint不锈钢点焊接头焊接变形数值模拟分析
6.Numerical Simulation of Friction Welding Process of GH4169 Superalloy;GH4169合金摩擦焊接过程的数值模拟研究
7.Numerical Simulation in the Process of Linear Friction Welding;线性摩擦焊接过程中的数值模拟仿真
8.Numerical Simulation of TA15 Titanium Alloy Components during TIG Welding;TA15钛合金构件TIG焊接过程的数值模拟
9.Numerical Simulation of Residual Stress for Side Beam of Welding Frame;焊接构架侧梁残余应力数值模拟分析
10.Application Techniques of ANSYS Software in Numerical Value Simulation of Welding Temperature Field;ANSYS在焊接温度场数值模拟中的应用
11.Numerical Simulation and Measurement of Welding Residual Stress in the 921A Steel Plate921A钢焊接残余应力的数值模拟与测量
12.Numerical simulation of the 3-d transient temperature fields for gas tungsten arc weldingGTAW焊接热场的三维动态数值模拟
13.Numerical simulation of laser welding of titanium alloy in dentistry牙科钛金属激光焊接有限元数值模拟
14.Research on TIG welding arc with numerical simulation by using ANSYS基于ANSYS的TIG焊接电弧数值模拟研究
15.The Numerical Simulation of Weldind Defect and Welding Residual Stresses in the Spherical Tank;球罐焊缝缺陷与焊接残余应力的数值模拟
16.The Numerical Simulation of Low Transformation Temperature Electrodes Welding Residual Stress;低相变点焊条的焊接残余应力数值模拟
17.Three-dimensional Numerical of CLAM Steel on TIG Welding中国低活化马氏体钢TIG焊焊接的三维数值模拟
18.Numerical Simulation of Welding Temperature Field and Stress Field of T-joint;T型接头焊接温度场与应力场的数值模拟
相关短句/例句
welding simulation焊接模拟
3)direct numerical simulation直接数值模拟
1.The application of fringe method as the outflow boundary condition for thedirect numerical simulation of compressible flows;嵌边法出流条件在可压缩流直接数值模拟中的应用
2.In this paper, the fluidized regions of particles with different diameters and densities were studied usingdirect numerical simulation method Simulation results show that the fluidized regions are much different for different particles Relative conclusions were drawn ou采用直接数值模拟技术 ,跟踪离散颗粒场中的每一个颗粒 ,对不同直径和密度的颗粒在流化床内的流化运动区域进行了探讨研究。
3.The influence of partial inertia on scalar mixing in homogeneous isotropic turbulent flows was studied using adirect numerical simulation(DNS)method.本文采用直接数值模拟的方法,研究了颗粒惯性对均匀各向同性湍流场中被动标量混合特性的影响。
4)DNS直接数值模拟
1.DNS OF INHALABLE PARTICLE MOTION IN CHANNEL FLOW;可吸入颗粒物近壁运动的直接数值模拟
2.To investigate the statistical property of particle dispersion in free shear flows,a three- dimensional spatially-developing particle-laden jet and a three-dimensional temporally-developing particle-laden mixing layer are studied by means of direct numerical simulation (DNS).为了研究自由剪切流动中颗粒扩散的统计特性,对空间发展模式的三维气固两相射流和时间发展模式的三维气固两相混合层进行了直接数值模拟。
3.The process of 2D instability T-S wave transmitting is simulated byDNS.针对二维不可压缩平板边界层N-S扰动方程,采用高精度紧致有限差分格式,应用空间模式,直接数值模拟了二维不稳定T-S波传播的过程。
5)direct numerical simulations直接数值模拟
1.The influence of spanwise moving wall on turbulent channel flows is investigated usingdirect numerical simulations(DNS),which in order to know the characteristics of turbulent channel flows when existing spanwise moving velocity.为了解展向存在匀速流动时湍流槽道流动的特性,应用直接数值模拟方法研究了壁面的展向运动对湍流槽道流动的影响。
2.It was tested in the prediction of the location of transition for compressible boundary layers on flat plates,and the results were compared with those obtained bydirect numerical simulations(DNS).它被试用于平板可压缩边界层转捩位置的预测问题中,并将结果与直接数值模拟(DNS)所得进行比较。
3.Then thedirect numerical simulations(DNS) method was employed to compute the transition process and turbulent flow,fo.然后用直接数值模拟(DNS)计算转捩过程和湍流,其入口条件是用PSE方法在该处得到的扰动。
6)direct numerical simulation (DNS)直接数值模拟(DNS)
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板料多步冲压回弹的数值模拟研究摘 要:回弹是板料冲压成形过程中一种常见但很难解决的现象。首先研究了板料弯曲变形中卸载回弹的原理,然后以依维柯侧壁上内板为例,采用动态和静态算法相结合的方法,在考虑每道工序板料回弹的基础上,对其进行多步冲压回弹的数值模拟,最后对模拟结果和实验结果进行比较,验证该模拟方法提高回弹计算精度的有效性,为板料冲压成形工艺的制定提供科学依据。关键词:回弹;多步冲压;数值模拟1 前 言 通常,一个完整的冲压过程要经过拉延、整形、修边、冲孔、翻边等多步工序才能完成。在这一过程中,回弹是板料成形工艺制定中要考虑的关键因素,零件的最终形状取决于成形后的回弹量,当回弹量超过允许容差后,就成为成形缺陷,影响零件的几何精度。特别是近几年来由于高强度薄钢板和铝合金板材的大量使用,回弹问题更为突出。 目前,板料回弹的精确预测以及如何减小回弹量、降低残余应力成为板料成形模拟中的热点问题。从NUMISHEET’93(第二届板料成形三维数值模拟国际会议)开始,每届会议都有关于回弹预测的标准考题(BENCHMARK),在NUMISHEET’99上,专门有一个关于回弹预测和回弹误差控制的会议专题,其中文章达到10篇,约占全部会议文章的11﹪;而在NUMISHEET’2002上,关于回弹预测和控制的会议专题论文达20篇之多,占到全部会议论文的21﹪以上。 在实际生产中要控制和补偿回弹,提高回弹预测的精度是至关重要的。通常我们在进行板料多步冲压的回弹预测时,都忽略了板料每道工序后的卸载回弹,未将其回弹考虑到下一道工序的计算之中,然而板料的最终形状是其整个变形历史的累积效应,其变形历史等对残余应力和回弹计算都有一定影响,那么因忽略了每道工序后的回弹而产生的累积误差势必影响最终的回弹预测精度。 本文在进行板料多步冲压数值模拟时以依维柯侧壁上内板为例,采用动态和静态算法相结合的方法来模拟其多步冲压过程,将前一道工序的回弹计算结果作为下一道工序的输入,并通过模拟结果和实验结果的对比来验证该数值模拟过程的正确性及有效性。2 板料多步冲压回弹的数值模拟研究 2.1板料卸载回弹的原理研究 板料在外载荷作用下发生任何一种塑性变形时,其变形都是由塑性变形和弹性变形两部分组成。当作用板料上的外载荷卸掉之后,塑性变形区的材料保存残余变形而使零件变形。但是,由于弹性变形区材料的弹性恢复以及塑性变形区材料弹性变形部分的弹性恢复,使其形状、尺寸都发生与加载时变形方向相反的变化,这种现象称之为回弹。这就是生产中回弹现象的内因。
