冲击侵彻试验中力-侵彻曲线计算方法的思考

Shigen-to-sozai Pub Date : 2015-01-01 DOI:10.2473/journalofmmij.131.9

K. Hashiba, Y. Z. Liang, K. Fukui, M. Koizumi, T. Matsuda

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引用次数: 0

摘要

目前硬岩冲击钻常用的钮扣钻头是不够的。在以往的研究中，根据冲击钻井过程中测得的杆应力计算出的力-贯入曲线波动较大，无法得到宝贵的力-贯入曲线。本文研究了一种精确求得冲击侵彻力-侵彻曲线的计算方法。数值模拟结果表明，产品与计算模型的不匹配可能导致波动，并且可以通过将自由端试验中的钻头力与冲击贯入试验中的钻头力相减得到宝贵的力-贯入曲线。将该方法应用于Fukui et al.(2010)对花岗岩进行的冲击侵穿试验的测量结果，得到了改进的力侵曲线。该方法可应用于岩石原位钻井，有助于开发适合各种岩石类型的钻头。

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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Consideration on a Calculation Method of Force-Penetration Curves in Impact Penetration Tests

a button bit, which is commonly used for percussive drilling of hard rock recently, are insufﬁcient. In previous studies, large ﬂuctuations were observed in a force-penetration curve calculated from rod stresses measured during percussive drilling, and therefore precious force-penetration curves could not be obtained. In this study, a calculation method was examined to preciously obtain a force-penetration curve from impact penetration tests. The results of numerical simulation showed that the ﬂuctuations can be caused by the mismatch between the product and calculation model, and that the precious force-penetration curve may be obtained with subtracting the bit force in a free end test from that in an impact penetration test. The suggested method was applied to the measured results of impact penetration tests with granite conducted by Fukui et al. (2010), and improved force-penetration curves were obtained. The method proposed in this study can be adopted to in-situ rock drilling, and contribute to the development of the bit suited to each rock type.

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Shigen-to-sozai

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