Investigations on the temperature-dependent tribological behaviour of spark plasma sintered CNT-304 SS self-lubricating nanocomposites

IF 1.6 Q4 MATERIALS SCIENCE, COATINGS & FILMS Tribology - Materials, Surfaces & Interfaces Pub Date : 2023-07-03 DOI:10.1080/17515831.2023.2243426
A. Radhamani, S. Bhaumik, H. Lau, M. Kamaraj, S. Ramakrishna
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Abstract

ABSTRACT Herein, we report the tribological behaviour of CNT-304 stainless steel composites at room (28°C) and high temperatures (200°C). Nanocomposites of various CNT concentrations, namely 0.2, 0.5, 1.0, 2.0, 3.0, and 4.0 wt%, were prepared. A significant amount of grain refinement resulted in an increase in CNT loading. A tribological study was carried out at 28°C and 200°C. Wear resistance was found to enhance with an increase in CNT concentration at both temperatures. However, a slightly higher wear rate was observed at 200°C for the samples with CNT content < 3 wt% than their corresponding low-temperature values. About 86%, 91% drop-in wear rate was seen in 2.0 wt% CNT-304 SS, and 4.0 wt% CNT-304SS, respectively, as compared to pure SS at 28°C, which is 54% and 88% decrease at 200°C and is very promising. The decrease in wear volume with CNT content at both temperatures can be ascribed to the self-lubricating and reinforcing nature of CNTs in the metal matrix composites. Severe abrasive wear in the pristine SS samples was slowly changed to mild abrasive and lubricated wear in composites. A systematic study on the tribological behaviour of CNT-SS composites can shed light on the benefits and detriments of using them for various applications. Highlights Incorporation of CNTs into 304 SS matrix caused grain refinement. Wear rate decreased with CNT content and 4.0 wt% CNT-SS showed minimum wear rate while pristine gave the maximum at both 28°C and 200°C. About 86% and 54% decrease in wear rate were observed for 2.0 wt% CNT-304 SS at 28°C and 200°C respectively as compared to the pristine 304 SS sample. Wear rate at 200°C was slightly more than that of room temperature (28°C) for CNT content < 3 wt%. The 3.0 wt% CNT-304 SS and 4.0 wt% CNT-304 SS showed nearly the same wear rate at both ambient and 200°C test. GRAPHICAL ABSTRACT
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火花等离子烧结CNT-304 SS自润滑纳米复合材料摩擦学性能研究
本文报道了CNT-304不锈钢复合材料在室温(28°C)和高温(200°C)下的摩擦学行为。制备了不同碳纳米管浓度的纳米复合材料,即0.2、0.5、1.0、2.0、3.0和4.0 wt%。大量的晶粒细化导致碳纳米管负载的增加。在28°C和200°C下进行了摩擦学研究。在两个温度下,随着碳纳米管浓度的增加,耐磨性增强。然而,对于碳纳米管含量< 3wt %的样品,在200°C时观察到的磨损率略高于相应的低温值。与28°C的纯SS相比,2.0 wt% CNT-304SS和4.0 wt% CNT-304SS的磨损下降率分别为86%和91%,200°C的磨损下降率分别为54%和88%,这是非常有希望的。在两种温度下,随着碳纳米管含量的增加,磨损体积的减小可以归因于碳纳米管在金属基复合材料中的自润滑和增强特性。原始SS试样的严重磨粒磨损逐渐转变为复合材料的轻度磨粒和润滑磨损。对碳纳米管- ss复合材料摩擦学行为的系统研究可以揭示在各种应用中使用它们的利弊。在304 SS基体中加入CNTs导致晶粒细化。磨损率随碳纳米管含量的增加而下降,4.0 wt%的碳纳米管ss在28°C和200°C时表现出最小的磨损率,而原始碳纳米管在28°C和200°C时表现出最大的磨损率。与原始的304 SS样品相比,2.0 wt%的CNT-304 SS在28°C和200°C时的磨损率分别下降了86%和54%。当碳纳米管含量< 3wt %时,200°C下的磨损率略高于室温(28°C)。3.0 wt% CNT-304 SS和4.0 wt% CNT-304 SS在环境和200°C测试中显示出几乎相同的磨损率。图形抽象
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来源期刊
Tribology - Materials, Surfaces & Interfaces
Tribology - Materials, Surfaces & Interfaces MATERIALS SCIENCE, COATINGS & FILMS-
CiteScore
2.80
自引率
0.00%
发文量
15
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