Evaluation Approach for Residual Stress in Drilling of Aluminum Alloy

IF 0.9 Q4 AUTOMATION & CONTROL SYSTEMS
Takashi Matsumura, Yusuke Akao, Shoichi Tamura
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Abstract

Residual stress is one of the critical evaluation factors as well as machining accuracy and surface finish in cutting. From the perspective of the fastening strength of parts, residual stress in drilling has an influence on the product or part life. Especially in the aircraft manufacturing, the tensile residual stress is crucial as it can cause major accidents. However, few studies have focused on residual stress in drilling so far. Most of them investigated the characteristics of residual stress based on the experimental data. This paper discusses residual stress in drilling in terms of its mechanical effect. The residual stresses in the inner surfaces of holes were measured in the depth direction from the top of the plate. The change in the residual stress has good correlation with the chip flow direction and the load applied to the inner surface, which acts as a counter force to the cutting force near the outermost ends of the lips. The cutting force is determined using an analytical model based on the minimum cutting energy. The correlation between the residual stress and the direction of the load applied to the inner surface depends on the margin width and back taper on the peripheral sides of a drill. The effect of the margin contact on the residual stress is characterized by linear regression analysis. Finally, an analysis-neural network hybrid system was developed to estimate the residual stresses in drilling. In the system, the mechanical effects of the drilling process, which are the magnitude and direction of the load applied to the inner surface, are obtained through analytical simulation. Meanwhile, the margin effects are expressed as the coefficients in the linear functions, which are associated with the margin width and back taper angle by a neural network. Then, another neural network, working as a post process, estimates the residual stresses using the information of mechanical and margin effects. The developed system is validated by presenting a comparison between the estimated and the actual residual stresses.
铝合金钻孔残余应力评估方法
残余应力与切削加工精度和表面光洁度一样,都是关键的评估因素之一。从零件紧固强度的角度来看,钻孔中的残余应力会影响产品或零件的寿命。特别是在飞机制造中,拉伸残余应力至关重要,因为它可能导致重大事故。然而,迄今为止很少有研究关注钻孔中的残余应力。大多数研究都是基于实验数据来研究残余应力的特征。本文从机械效应的角度讨论钻孔中的残余应力。钻孔内表面的残余应力是从板顶开始沿深度方向测量的。残余应力的变化与切屑流动方向和施加在内侧表面上的载荷有很好的相关性。切削力是通过基于最小切削能量的分析模型确定的。残余应力与施加在内表面的载荷方向之间的相关性取决于边缘宽度和钻头外围侧面的后锥度。边缘接触对残余应力的影响是通过线性回归分析确定的。最后,开发了一个分析-神经网络混合系统来估算钻孔中的残余应力。在该系统中,钻孔过程的机械效应,即施加在内表面的载荷的大小和方向,是通过分析模拟获得的。同时,边缘效应用线性函数中的系数表示,这些系数通过神经网络与边缘宽度和后锥角相关联。然后,另一个神经网络作为后处理,利用机械效应和边缘效应的信息估算残余应力。通过比较估计残余应力和实际残余应力,对开发的系统进行了验证。
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来源期刊
International Journal of Automation Technology
International Journal of Automation Technology AUTOMATION & CONTROL SYSTEMS-
CiteScore
2.10
自引率
36.40%
发文量
96
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