Comparison of machining performance under MQL and ultra-high voltage EMQL conditions based on tribological properties

Shah Prassan; Gadkari Ameya; Sharma Akash; Shokrani Alborz; Khanna Navneet

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Comparison of machining performance under MQL and ultra-high voltage EMQL conditions based on tribological properties

机译：基于摩彻学特性的MQL和超高压EMQL条件下的加工性能比较

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This novel work presents the comparison of a newly developed ultra-high voltage electrostatic minimum quantity lubrication (EMQL) using a customized nozzle with the MQL technique as an alternative cooling/lubricating method in turning processes of 15-5 PHSS. The optimum voltage for EMQL within the range of 0-25 kV has been identified based on tribological performance. Besides, surface roughness has been measured to identify the impact of electrostatically charged mist for turning 15-5 PHSS. Finally, tool wear tests are performed for MQL and EMQL at optimized voltage. The EMQL at optimized electrostatic voltage resulted in 38% decreased tool wear as compared to conventional MQL for 2400 mm cutting length.

机译：这项新的工作介绍了一种新开发的超高压静电最小量润滑（EMQL）与MQL技术的比较，该技术使用定制喷嘴，作为15-5 PHSS车削过程中的替代冷却/润滑方法。根据摩擦学性能，确定了EMQL在0-25 kV范围内的最佳电压。此外，还测量了表面粗糙度，以确定静电荷电雾对车削15-5 PHSS的影响。最后，在优化电压下对MQL和EMQL进行刀具磨损试验。与2400 mm切割长度的传统MQL相比，优化静电电压下的EMQL可减少38%的刀具磨损。

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来源
《Tribology International》 |2021年第1期|共7页
作者
Shah Prassan; Gadkari Ameya; Sharma Akash; Shokrani Alborz; Khanna Navneet;
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作者单位

Inst Infrastruct Technol Res &

Management Adv Mfg Lab Ahmadabad 380026 Gujarat India;

Inst Infrastruct Technol Res &

Management Adv Mfg Lab Ahmadabad 380026 Gujarat India;

Inst Infrastruct Technol Res &

Management Adv Mfg Lab Ahmadabad 380026 Gujarat India;

Univ Bath Dept Mech Engn Bath BA2 7AY Avon England;

Inst Infrastruct Technol Res &

Management Adv Mfg Lab Ahmadabad 380026 Gujarat India;

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原文格式 PDF
正文语种 eng
中图分类机械摩擦、磨损与润滑;
关键词
Electrostatic minimum quantity lubrication; Stainless steel; Turning; Tribology;

机译：静电最小量润滑;不锈钢;转向;摩擦学;

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Comparison of machining performance under MQL and ultra-high voltage EMQL conditions based on tribological properties

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