Determination of Johnson Cook Material Model Constants and Their Influence on Machining Simulations of Tungsten Heavy Alloy

C. Sagar, A. Priyadarshini, A. Gupta, Sidharth Kumar Shukla
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引用次数: 3

Abstract

Tungsten Heavy Alloys (WHA) are used in counterbalance and ballast weights for aerodynamic balancing in fixed and rotary wing aircraft. Manufacturing these components for closer tolerances using machining is a challenging task. The present work aims to develop a 2D Finite Element (FE) model to simulate the chip formation process during machining of WHA using Johnson Cook Material Model (JCMM). The model constants for 95%WHA are determined based on the high strain rate test data using least square method. The calculated values are further optimized using Genetic Algorithm (GA) and Artificial Bee Colony (ABC) algorithm, which are then used as material inputs for FE simulation of machining WHA. The predicted results such as cutting force, chip geometry, shear stress, shear angle are presented and compared with the experimental results under similar cutting conditions. It has been observed that the constants obtained from ABC algorithm show minimum error in the cutting performance measures for all the experimental results.
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Johnson Cook材料模型常数的确定及其对钨重合金加工模拟的影响
钨重合金(WHA)用于固定翼和旋翼飞机的空气动力平衡的平衡和压载重量。使用机械加工制造这些更接近公差的部件是一项具有挑战性的任务。本研究旨在利用Johnson Cook材料模型(JCMM)建立二维有限元(FE)模型来模拟WHA加工过程中的切屑形成过程。基于高应变率试验数据,采用最小二乘法确定了95%WHA的模型常数。利用遗传算法(GA)和人工蜂群算法(ABC)对计算值进行优化,并将其作为加工WHA的材料输入进行有限元仿真。给出了切削力、切屑几何形状、剪切应力、剪切角等预测结果,并与相似切削条件下的实验结果进行了比较。在所有实验结果中,ABC算法得到的常数误差最小。
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