Predicting and Verifying Forces on Boring Parameters

2013 Sixth International Symposium on Computational Intelligence and Design Pub Date : 2013-10-28 DOI:10.1109/ISCID.2013.101

Z. Wang, Kai Zhang, W. Wang, Haifeng Zhao

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Abstract

It is notoriously known there are lots of factors influence cutter efficiency and tool life for boring operations. The key problem is how much each influenced and where is the best balance point. This paper uses the orthogonal test method to simulate and verified the influence by the most two important cutting parameters, like cutting speed, cutting penetration (which is the same as cutting depth as in the mechanical machine). Firstly, we used the optimized model and designed a new test mechanism. In the simulation part, we use Rock Failure Process Analysis in simulates the rock fragments and the changes of stress field. With these new numerical algorithms, we can simulate the mass and cutting forces in the boring, and we finally find each balance point in the real boring in different cutting parameters. And we also updated a new liner cutting test experimental mechanism, which can simulate the real boring operations in the lab when we set different cutting parameters. We use the simulation and test method to verify our predicting result. We show that the best penetration is 3.8mm and the best cutting speed is 2.1mm/s for 17 inches cutter ring in our cutting test. However, since we understand the complex of different factors we can bound the balance point to those values in certain boring condition.

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镗削参数力的预测与验证

众所周知，镗孔作业中影响刀具效率和刀具寿命的因素很多。关键的问题是每一种影响有多大以及最佳平衡点在哪里。本文采用正交试验法模拟验证了切削速度、切削深度(与机械切削深度相同)这两个最重要的切削参数的影响。首先，利用优化后的模型，设计了新的测试机构。在模拟部分，我们采用岩石破坏过程分析方法，模拟岩石破碎过程和应力场的变化。利用这些新的数值算法，可以模拟镗削过程中的质量和切削力，最终找到实际镗削过程中不同切削参数下的各个平衡点。并更新了一种新的直线切削试验实验机构，在设置不同切削参数的情况下，可以模拟实验室中真实的镗削过程。用仿真和测试的方法验证了我们的预测结果。在我们的切削试验中，我们发现17英寸刀环的最佳穿透度为3.8mm，最佳切削速度为2.1mm/s。然而，由于我们了解不同因素的复杂性，我们可以在一定的无聊条件下将平衡点绑定到这些值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2013 Sixth International Symposium on Computational Intelligence and Design

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