基于热-机耦合有限元法预测构架侧梁焊接变形

准确地数值模拟焊接构架侧梁在其生产过程中产生的焊接变形规律,是有效地控制焊接变形和减少焊后矫形工作的关键。本文基于热-机耦合热弹性有限元方法,采用Marc软件,创建了焊接构架侧梁有限元模型,并采用分段串热源进行焊接热源模拟,得出了侧梁在垂向弯曲、水平弯曲和纵向收缩变形的规律,最后利用合理的实验方法给出侧梁实际变形结果。研究表明:数值模拟计算与实验结果十分吻合,从而证明了此方法对其进行焊接变形预测的有效性。

摄动热电机三参量有限元对DSAW声波力学的研究

压电石英声表面波(PSAW)装置结构的实际扰动压电声表面波(DPSAW)特性受电极几何材料参数的扰动影响,而温度又将进一步影响DPSAW基频和波速。除了电极影响外,该文还考虑高阶温度系数的影响。由于对带热带电极各向异性分层压电材料结构,还没有或很难获得理论解,该文首次利用高效高精度三参量摄动热-机-电有限单元方法,即声元和应力元法,力图为计算热压电/力学奠定理论基础,优化电极厚度。精确计算了在一定温度下各阶温度系数对SAW谐振器波速波频的影响,以利于温度/电极耦合补偿设计。简单模拟计算热表面贴片封装应力(SMS)变形,得到了一系列不同温度下有用的计算值。自由表面SAW理论解和室温试验数据与数值计算结果一致,验证了该热压电有限元理论的可靠性。

基于弹性反变形法的连接杆焊接变形控制

基于热-机耦合热弹塑性有限元理论,利用MARC有限元分析软件对连接杆的焊接变形进行数值模拟,并进行焊接试验.将数值模拟结果与试验结果进行比较,两者基本吻合,误差仅为4.8%,验证了有限元模型建立的准确性.在此基础上,自行设计了弹性反变形工装.对有反变形工装的连接杆进行数值模拟,并将最佳工艺参数应用于试验中,得到了理想的焊接样件.结果表明,当未采用反变形工装时,连接杆的最大焊接变形量为9.85 mm;当采用反变形工装且中间和两侧弯环的下压量分别为7,4 mm时,最大的焊接变形量减小至1.73 mm,降低了82.4%,有效的控制了焊接变形.

Finite element simulation of chip formation in peripheral milling mild carbon steel

A two-dimensional coupled thermo-mechanical model is used to simulate the progress of milling mild carbon steel with continuous chip formation. Deformation of the workpiece is treated as elastic-plastic with isotropic strain-hardening. An analysis of the properties of temperature-dependent materials is employed. The chip separation is achieved by the adaptive remeshing strategy module found in commercial finite element code Marc. In order to increase the computational efficiency and accuracy, we implement a customized subroutine into the Marc code to define local refinement at the tool tip. Measurements are taken of the shape of the chip, the temperature, stress, strain and strain-rate fields. The values of the cutting forces obtained from the simulations agree well with those obtained from the cutting experiments.