An An investigation on the friction losses between cylinder liner and piston rings

Sustainable Engineering and Innovation Pub Date : 2022-07-01 DOI:10.37868/sei.v4i2.id161

Mohamad Abouchi, S. Basturk

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引用次数: 1

Abstract

Historically, the engine crankcase has been made of gray cast iron due to that material's' high machinability, damping ability, thermal conductivity, and sensible cost. Despite these advantages and the long-term use of gray cast iron, the vehicle manufacturers predominately use cast aluminum as material of choice for the engine block due to aluminum’s density being almost a third of that of gray cast iron, and the aluminum engines have the same durability as gray cast iron while weighing considerably less. However, due to the low wear resistance of aluminum, efforts are needed to improve internal working surfaces such as the use of cast iron cylinder liners or the application of a protective coat is applied to the aluminum surface to increase its resistance. The purpose of this study is to examine which ring materials have the lowest friction with the Twin Wire Arc (TWA) aluminum cylinder liner. An Ansys simulation model accomplishes the experimental work. The steel ring material obviously had the lowest friction with twin wire arc spray aluminum cylinder liner as opposite to the cast iron material which was the worst.

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汽缸套与活塞环间摩擦损失的研究

从历史上看，发动机曲轴箱一直由灰铸铁制成，因为这种材料具有高可加工性、阻尼能力、导热性和合理的成本。尽管有这些优点和长期使用灰铸铁，汽车制造商主要使用铸铝作为发动机缸体的选择材料，因为铝的密度几乎是灰铸铁的三分之一，铝发动机具有与灰铸铁相同的耐用性，同时重量要轻得多。然而，由于铝的耐磨性较低，需要努力改善内部工作表面，如使用铸铁缸套或在铝表面涂上保护涂层以增加其耐磨性。本研究的目的是研究哪种环材料与双丝弧(TWA)铝缸套的摩擦最小。利用Ansys仿真模型完成了实验工作。钢环材料与双丝电弧喷涂铝缸套的摩擦明显最小，铸铁材料摩擦最差。

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

Sustainable Engineering and Innovation

CiteScore

0.20

自引率

0.00%

发文量