Analysis of the Lubrication Performance of Low-Carbon Steel Sheets in the Presence of Pressurised Lubricant

IF 1.5 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY
T. Trzepieciński, Valmir Dias Luiz, K. Szwajka, Marek Szewczyk, Marcin Szpunar
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引用次数: 1

Abstract

Abstract In sheet metal forming processes, friction increases the force parameters of the forming process and produces a deterioration in the quality of the surface of the components. The basic way to reduce the unfavourable impact of friction is to lubricate the sheet metal surface with commercial oils. This article presents the results of experimental studies and analysis of variance (ANOVA) of the friction of DC01 low-carbon steel sheets using a strip drawing test. For these tests, a special device was built containing countersamples with a flat surface made of 145Cr6 steel covered with a protective AlTiN coating. Lubricants of different viscosities were fed into the contact zone under forced pressure. The effect of contact pressure on the value of the coefficient of friction was also determined. The predicted R² of 0.9227 was in reasonable agreement with the adjusted R² of 0.9411 confirming that the ANOVA model was reliable. It was found that increasing the lubricant pressure had a beneficial effect in reducing the value of the coefficient of friction. The higher the contact pressure, the more effectively the pressurised oil reduced the value of the coefficient of friction.
加压润滑剂存在下低碳钢薄板润滑性能分析
摘要在板料成形过程中,摩擦使成形过程的受力参数增大,使零件表面质量下降。减少摩擦不利影响的基本方法是用商用油润滑钣金表面。本文介绍了用带拉伸试验对DC01低碳钢薄板的摩擦进行试验研究和方差分析的结果。为了进行这些测试,我们建造了一个特殊的装置,其中含有反样品,其表面由145Cr6钢制成,表面覆盖有保护性的AlTiN涂层。不同粘度的润滑油在强制压力下进入接触区。确定了接触压力对摩擦系数值的影响。预测R²为0.9227,调整R²为0.9411,两者吻合较好,说明ANOVA模型是可靠的。结果表明,增大润滑油压力有利于减小摩擦系数。接触压力越高,受压油降低摩擦系数值的效果越好。
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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来源期刊
Advances in Materials Science
Advances in Materials Science MATERIALS SCIENCE, MULTIDISCIPLINARY-
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