Wear and Friction properties of H-Al-17Si alloy with dry, lubrication and coated (DLC-Star) conditions under HFRR

Q3 Engineering

Tribologia: Finnish Journal of Tribology Pub Date : 2021-12-16 DOI:10.30678/fjt.99441

N.D. Malleswararao.K, I. Niranjan Kumar, B. Nagesh

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引用次数: 0

Abstract

Dry, lubrication (SAE15W40), and coated (DLC-Star) reciprocating tribological tests on rapid solidified AlSi17Cu3.5-4Mg0.6-0.8 alloy was conducted using a high frequency linear reciprocating rig (HFRR) at ambient temperature. The alloy fabricated with the rheo-stir squeeze casting procedure under T-6 condition. However, at different loading (0-30 N) conditions, wear and friction properties of rapid solidified H-Al-17Si alloy are investigated. It is observed that the lower friction coefficient value obtained for DLC-Star coated H-Al-17Si alloy compared to dry and lubrication conditions. Though, for dry and lubricated sliding, the obtained wear coefficient values are 2.9X10-3 mm3/N.m and 4.0X10-4 mm3/N.m. A lower coefficient of wear value of 5.4X10-5 mm3/N.m was recorded with DLC-star coating under dry conditions. The alloy wear coefficient values first increases with applied load (up to 20 N) and then decreases (20 N to 30 N). EDS, AFM surface roughness profilometer, SEM, and advanced metallurgical microscope (AMM) analysis techniques used for the characterization of surface morphologies. The developments in friction and wear coefficients were fundamentally ascribed to the dispersion and size of primary Si elements and the development of tribo-oxide films on the rapid solidified AlSi17 alloy coated (DLC-Star) surfaces.

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干、润滑和涂覆(DLC-Star)条件下H-Al-17Si合金的HFRR磨损和摩擦性能

采用高频直线往复实验台(HFRR)对快速凝固AlSi17Cu3.5-4Mg0.6-0.8合金进行了常温下的干燥、润滑(SAE15W40)和涂覆(lc - star)往复摩擦学试验。在T-6条件下采用流变-搅拌挤压铸造工艺制备合金。然而，在不同的加载条件下(0-30 N)，研究了快速凝固的H-Al-17Si合金的磨损和摩擦性能。与干燥和润滑条件相比，DLC-Star涂层H-Al-17Si合金的摩擦系数值更低。然而，对于干滑动和润滑滑动，得到的磨损系数值为2.9X10-3 mm3/N。4 × 10-4 mm3/N.m较低的磨损系数值为5.4 × 10-5 mm3/N。用DLC-star涂层在干燥条件下记录m。合金磨损系数值首先随着施加的载荷(高达20 N)而增加，然后降低(20 N至30 N)。用于表征表面形貌的EDS, AFM表面粗糙度轮廓仪，SEM和先进的金相显微镜(AMM)分析技术。摩擦磨损系数的变化主要归因于初晶Si元素的分散和尺寸以及快速凝固AlSi17合金涂层(DLC-Star)表面氧化摩擦膜的形成。

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

Tribologia: Finnish Journal of Tribology Materials Science-Surfaces, Coatings and Films

CiteScore

2.20

自引率

0.00%

发文量