应用刚塑性体的变分原理求解钢轨万能轧制过程的力能参数

Application of the variation principle for calculating the force-energy parameters of rail rolling by a universal mill

  • 摘要: 为了简化钢轨万能轧制过程的三维几何模型,首先把带箱形孔型立辊简化为等效的平辊,然后分别给出轨腰、轨头及轨基的运动学许可速度场,求出在此速度场下相应变形区的塑性变形功率以及速度间断面上消耗的功率,计算中考虑了由于前滑和后滑而产生的摩擦功率.根据刚塑性体的变分原理求解水平辊和两个立辊轧制力和轧制力矩的近似解.通过比较理论值和实验值可知,利用变分原理求出的力能参数近似解稍大于实验值但最大误差不超过20%,因此根据变分原理进行力能参数计算和轧制工艺参数设定及优化是比较可靠的.

     

    Abstract: In order to simplify the three-dimensional geometrical model of rail rolling by a universal mill, the vertical roll with box pass was simplified as an equivalent flat roll firstly. Then the kinematically admissible velocity fields of the web, head and base of a rail were determined. Based on these velocity fields, the plastic deformation power, the powers consumed on the velocity discontinuity surface and the powers generated for backward slip and forward slip were calculated. According to the variation principle, the roll forces of a horizontal roll and two vertical rolls were obtained. Compared with experimental data, the values of roll force from the upper-bound method are somewhat greater than experimental data but do not exceed them by 20% in general. The method with the variation principle is reliable and feasible to preset and optimize the parameters of rolling technology.

     

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