自润滑铝基杂化复合材料的概述,B部分:摩擦学行为

Sweta Rani Biswal, Seshadev Sahoo
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引用次数: 0

摘要

可变增强铝基自润滑复合材料具有较好的耐磨性能。固体润滑剂的加入对机械和摩擦学特性有很大的影响。如系列综述的A部分所述,固体润滑剂的形状、尺寸和浓度等不同参数对Al复合材料的摩擦学特性有很大影响。制造路线也起着至关重要的作用,这在a部分中有很好的阐述。然而,无论在铝基自润滑混合复合材料中使用哪种固体润滑剂,摩擦学参数对改善磨损特性都有更大的影响。这些摩擦学参数是磨损分析的关键部分。在此背景下,本系列综述的第二部分将解释和介绍铝基自润滑混合复合材料在不同固体润滑剂组合下的摩擦学行为。本文综述了铝基自润滑复合材料在不同摩擦学应用中的局限性。针对混合复合材料与铝基复合材料的各种组合,总结和讨论了磨损的基本原理和关键概念,以及具有代表性的应用。最后,对铝基自润滑复合材料的发展方向和面临的挑战进行了展望。本文旨在通过对新型复合材料不同摩擦学应用的实验数据分析,提高对其摩擦学行为的基本认识。
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An overview of self-lubricated aluminum-based hybrid composites, Part B: Tribological behaviour
Self-lubricating composite based on aluminum matrix with variable reinforcements has improved wear characteristics. The addition of solid lubricant greatly influences the mechanical as well as tribological characteristics. The different parameters of solid lubricants like shape, size, and concentration greatly influence the tribological characteristics of the Al composite as mentioned in Part A of the serial review. The fabrication route also plays a vital role which is well elaborated in Part A. However, tribological parameters have greater impact in improving wear characteristics irrespective of any kind of solid lubricants used in aluminum based self-lubricating hybrid composite. These tribological parameters are the key part of wear analysis. In this context, Part B of this serial review will explain and go through the tribological behavior of aluminum based self-lubricating hybrid composite for different combination of solid lubricant. This article gives an overview on the limitation of aluminum based self-lubricating hybrid composite for different tribological applications. For each combination of hybrid combination along with aluminum matrix, wear fundamentals and key concepts are summarized and discussed, along with the representative applications. Finally, the future directions and challenges relevant to the aluminum based self-lubricating hybrid composite are commented. This review is expected to improve the basic understanding of tribological behavior through the analysis on experimental data of novel composite for different tribological applications.
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