High Air Pressure in MQL Deep Hole Drilling Workpiece Temperature

机译：MQL深孔钻井工件温度高气压

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This study investigates the effect of air pressure on workpiece temperature in through tool minimum quantity lubrication (MQL) deep-hole drilling. Experiments on 200 mm deep holes drilled by a 10 mm carbide drill were conducted under regular (500 kPa) and high (1000 kPa) air pressure conditions. Torque data shows that the chip clogging problem occurring under regular air pressure can be solved by the high air pressure. An inverse heat transfer method is utilized to quantify the heat fluxes and calculate the temperature distribution during drilling based on embedded thermocouples along the depth. Results show that temperature around the hole increases rapidly when the chips start accumulating in the hole under regular air pressure and cause high heat flux on the drilled hole wall surface. The high pressure condition, prevents chip accumulation, thus reducing the total heat flux.

机译：本研究调查了通过工具最小量润滑（MQL）深孔钻井的工具温度对工件温度的影响。在常规（500kPa）和高（1000kPa）空气压力条件下进行100mm碳化钻钻的200mm深孔的实验。扭矩数据表明，在常规气压下发生的芯片堵塞问题可以通过高空气压力来解决。逆传热方法用于量化热通量，并根据沿深度的嵌入式热电偶计算钻井期间的温度分布。结果表明，当芯片开始在常规气压下累积在孔中累积时，孔周围的温度迅速增加，并在钻孔壁表面上引起高热量通量。高压条件，防止芯片堆积，从而减少总热量通量。

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《International Conference on Manufacturing Science and Engineering》|2011年||共5页
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作者
Bruce Tai; David Stephenson; Steven White; Albert Shih;
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原文格式 PDF
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中图分类 TH16-53;
关键词
MQL; Deep-Hole Drilling; Inverse Method; Workpiece Temperature;

机译：MQL;深孔钻孔;逆方法;工件温度;

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4. High Air Pressure in MQL Deep Hole Drilling Workpiece Temperature [C] . Bruce Tai, David Stephenson, Steven White, International Conference on Manufacturing Science and Engineering . 2011

机译：MQL深孔钻井工件温度高气压
5. Thermal modeling of workpiece temperature and distortion in MQL deep-hole drilling. [D] . Tai, Li-Jung. 2011

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High Air Pressure in MQL Deep Hole Drilling Workpiece Temperature

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