冲压-刚度的耦合仿真分析技术

提出冲压——刚度的耦合仿真方法，即用动力显式算法计算冲压，静力隐式算法计算回弹，用动力显式算法计算最终的刚度，给出耦合仿真过程中3个环节的实施过程及其关键技术点。应用本方法对双曲率的盒形件进行了刚度仿真分析，并和试验结果进行了比较，取得了令人满意的计算精度。     

U形件弯曲影响回弹因素模拟分析

板材在弯曲过程中存在的最突出的问题是弯曲回弹难以精确控制.弯曲卸载后产生的回弹,使弯曲件的形状和尺寸与模具工作部分的形状和尺寸不符.弯曲件的最后形状与整个变形过程有关,模具几何参数、材料性能参数等都会对回弹产生很大影响.在板材弯曲成形智能化控制系统中,准确确定实时识别和预测模型的输入、输出参数是弯曲智能化控制的成功与否以及回弹控制精度高低的关键.本文采用Ls-dyna软件,对U形件弯曲影响回弹的因素进行了分析,得出了影响回弹规律的主要因素.为U形件弯曲智能化控制神经网络参数识别及预测模型输入、输出参数的选择提供依据.     

冲压板料回弹中的失稳研究

回弹是材料成型结束后的一个复杂的弹塑性变形过程 ,它直接影响到冲压件的尺寸精度。本文采用随动强化材料模型考虑了Bauschinger效应 ,指出回弹卸载中可能会出现局部失稳的现象 ,并应用有限元方法和能量原理 ,提出了回弹失稳的临界应力计算方法 ,对于提高回弹的计算精度、改善冲压件的产品质量有重要意义。     

The Recovery of Elastic Properties at 35 °C in TRIP 700 Steel Following Deformation

The influence of plastic deformation on the elastic properties that determine the magnitude of springback following forming was investigated using dynamic modulus analysis. For this study, the elastic modulus of TRIP 700 steel was measured continuously at 35 °C and a loading frequency of 1.0 Hz for 1000 min following deformation by cold rolling to varying levels up to 27%. The elastic modulus increased at an exponentially decaying rate during these experiments and with a magnitude that increased with pre-strain. These observations are consistent with the hypothesis that deformation creates microstructural defects that contribute compliance when the stress state changes and that these defects are removed by annealing at this low temperature. This article was presented at Materials Science & Technology 2006, Innovations in Metal Forming symposium held in Cincinnati, OH, October 15-19, 2006.     

V型弯曲件回弹规律的有限元分析

以V型件弯曲和回弹过程为分析研究对象，通过对V型件弯曲及回弹过程的有限元数值模拟，分析获得了成形参数对V型件弯曲回弹的影响规律。结果表明：回弹角随弯曲角及材料的硬化系数的增大而增大，随材料的变形程度及硬化指数的增大而减小。     

补偿回弹的冲压件模具设计方法

回弹是金属板料冲压中的主要缺陷之一,它可以通过修正模具形状加以解决.基于对经过成形--回弹的有限元数值模拟,提出一种循环位移补偿回弹修正模具型面的方法.它基于对经过成形--回弹有限元数值模拟得到的成形工件与目标工件多次循环比较,用成形工件结点回弹位移修正实验模具形状,直到利用修正的模具能够换获得满意的工件为止.利用此方法对一小型三维铝合金板料冲压工件的冲压模具设计过程进行了数值模拟,结果表明,通过两次修正的模具可获得满意工件.并根据模拟得到的型面制作模具进行了实冲实验,证明此补偿回弹的模具修正法是有效的.     

基于人工神经网络的拉形回弹预测技术研究

以蒙皮拉形为对象,探索了人工神经网络技术在拉形回弹预测中的应用。研究了利用神经元网络预测拉形回弹的关键技术,将人工智能技术和拉形数字仿真技术有机结合,建立了拉形回弹预测的人工神经网络模型,并验证了预测模型的有效性,为推动知识工程在飞机板金精密成形中的应用积累了经验。     

Eliminating springback error in U-shaped part forming by variable blankholder force

Springback is the main concern in U-shaped part forming, which would adversely affect desired part geometries. The use of variable blankholder force in the forming process is one effective method to reduce springback. However, there has not been a systematic way to determine the blankholder force trajectory. In this article, a methodology of obtaining this blankholder force trajectory in forming a U-shaped part that considers the wrinkling limit and fracture limit in the forming process was proposed. The method was validated numerically by using the Finite Element Method to simulate the benchmark of a 2-D draw bending problem in NUMISHEET’93. With the calculated blankholder force trajectory, higher forming quality was obtained and compared with constant blankholder force cases. Springback was kept at a minimum while avoiding cracking.     

弯曲回弹逆解公式及其在焊管预弯机组设计中的应用

根据小曲率弯曲成形的特点，考虑了板料弯曲的纯弹性变形部分对回弹的影响，推导出根据板料强度、厚度和最终成形半径直接计算弯曲半径的回弹逆解公式，并应用于大口径UOE焊管预弯成形的设计上。根据计算公式给出了B-X100钢级板料UOE焊管预弯成形的预弯辊半径优化设计诺谟图。     

Numerical analysis of dimension precision of U-shaped aluminium profile rotary stretch bending

In order to enhance the dimension precision of bent part, advanced bending technologies is requested recently. Rotary stretch bending（RSB） is a suitable technology to realize high precision of bent part. The effect of processing parameters, namely the side pressure and the stretching force, on the dimension precision of aluminium profile RSB part was studied by finite element method. The numerical simulation of the U-shaped aluminium profile RSB was carried out, and the validity of the simulation was checked. Parametric analysis shows that the section distortion of the U-shaped profile LY 12M bent part decreases with the increasing of the side pressure, whereas the springback of curvature increases, and that both of the section distortion and the springback of curvature decrease with the increasing of the stretching force, moreover, the uniformity of curvature of the bent part is clearly enhanced with the increasing of the stretching force. The results above prove that RSB technology can better improve the dimension precision of aluminium profile bent part.