应用上限原理求解重轨万能轧制过程轧制力

APPLICATION OF THE UPPER-BOUND PRINCIPLE FOR SOLVING THE ROLL FORCE IN HEAVY RAIL ROLLING BY UNIVERSAL MILL

  • 摘要: 在重轨万能轧制过程中,首先建立了简化的三维理论模型. 然后分别给出了轨腰、轨头及轨底的运动学许可速度场以及相应的应变速度场和剪应变速度强度,并求出了相应变形区的塑性变形功率、速度间断面上消耗的功率以及由于摩擦产生的摩擦功率. 最后根据上限原理分别求解了水平辊和两个立辊的轧制力上限解. 通过比较可知,二辊轧制理论公式误差很大因此不能用于万能轧制过程,而上限法求得的轧制力近似解大于轧制现场数据但最大误差不超过13\%, 因此根据上限原理进行轧制工艺参数设定及优化是比较可靠的.

     

    Abstract: For heavy rail rolling by universal mill, a simplified 3-dimentiontheoretical model is built firstly. The kinematically admissiblevelocity fields of the web, head and base of rail are determined,respectively, and the corresponding strain rate fields and the intensityof shear strain rate are also obtained. Then the plastic deformationpower, the friction powers and the powers consumed on the velocitydiscontinuity surface are obtained. According to the upper-boundprinciple, the roll force of horizontal roll and two vertical rolls can beobtained. Moreover, the roll force can also be calculated by the formulaof slab rolling under the same deformation condition.The roll force from the formula of slab rolling differs greatly from thefield data, and the roll force from upper-bound method is somewhatgreater than the field data but in general the difference is less than 13 percent. So, it is more reliable to preset and optimize the parameters of rolling technology according to the upper-bound method.

     

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