CORRELATION BETWEEN LEIDENFROST TEMPERATURE, COOLING CAPACITY AND MACHINING TEMPERATURE: AN EXPERIMENTAL STUDY OF CUTTING FLUIDS

Revista de Engenharia Térmica Pub Date : 2021-10-10 DOI:10.5380/reterm.v20i3.83264

D. M. Gonçalves, L. Sanchez, S. A. Verdério Júnior

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Abstract

Much of the energy consumed by machining materials is converted into heat, which causes several technical and economic problems for the process. The cutting fluid application by the conventional method forms a vapor film of low thermal conductivity, which prevents direct contact between the fluid and the heated surface; the so-called Leidenfrost effect, which reduces cooling efficiency. Studies of this phenomenon applied to the machining of materials are still very restricted and scarce. In this sense, the present work experimentally studied the correlation of parameters Leidenfrost temperature, cooling capacity and machining temperatures, applied to the SAE 52100 steel turning process with conventional lubri-coolant, with different cutting fluids. The thermal properties of the studied cutting fluids were taken from the technical-scientific literature. An experimental apparatus was developed for measuring and acquiring machining temperatures. Synthetic cutting fluids were shown to have a better cooling capacity, followed by semi-synthetic fluids and emulsions. There is no relationship between Leidenfrost temperature, cooling capacity, and machining temperatures for the different types of cutting fluids studied.

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莱顿弗罗斯特温度、冷却能力和加工温度之间的关系:切削液的实验研究

加工材料所消耗的大部分能量转化为热量，这给加工过程带来了一些技术和经济问题。通过常规方法施加的切削液形成导热系数低的气相膜，防止流体与受热表面直接接触;即所谓的莱顿弗罗斯特效应，它会降低冷却效率。将这种现象应用于材料加工的研究仍然非常有限和稀缺。在此基础上，实验研究了Leidenfrost温度、冷却能力和加工温度参数的相关性，并将其应用于sae52100钢车削过程中，采用常规的润滑冷却剂和不同的切削液。所研究切削液的热性能取自科技文献。研制了一种测量和获取加工温度的实验装置。合成切削液具有较好的冷却能力，其次是半合成流体和乳剂。对于所研究的不同类型的切削液，莱顿弗罗斯特温度、冷却能力和加工温度之间没有关系。

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Revista de Engenharia Térmica

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