Tribological performance of heavy-duty functionally gradient friction material (Cu-Sn-Fe-Cg-SiC-Al2O3) synthesized by PM route

INTERNATIONAL CONFERENCE ON MATERIALS, MANUFACTURING AND MACHINING 2019 Pub Date : 2019-07-23 DOI:10.1063/1.5117916

K. Kannan, R. Vignesh, K. Kalyan, J. Murugesan, A. Megalingam, R. Padmanaban, M. Govindaraju

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引用次数: 8

Abstract

Copper-based sintered materials with ceramic reinforcements and solid lubricants are identified as potential brake pad materials for heavy-duty applications (wind turbine), because of their prime thermal and tribological properties. However, the presence of ceramic reinforcement reduces the joint strength between the brake pad and the substrate material. The reduction in joint strength may lead to catastrophic failure of the braking system in the wind turbines when brakes are applied suddenly. This study attempts to synthesize functionally gradient material (FGM), which has a gradient composition of the ceramic particles along the traverse section. FGM was synthesized layer by layer deposition of Cu, Fe, Sn, Cg, SiC, Al2O3 powders with gradient composition. Microstructure, phases, and microhardness of the specimen were analyzed. Tribological studies were performed to assess the wear rate and friction coefficient of the FGM at various loads. The surface morphology of the worn surface was characterized using field emission scanning electron microscope. The study investigated the wear mechanism of the FGM at various loads.Copper-based sintered materials with ceramic reinforcements and solid lubricants are identified as potential brake pad materials for heavy-duty applications (wind turbine), because of their prime thermal and tribological properties. However, the presence of ceramic reinforcement reduces the joint strength between the brake pad and the substrate material. The reduction in joint strength may lead to catastrophic failure of the braking system in the wind turbines when brakes are applied suddenly. This study attempts to synthesize functionally gradient material (FGM), which has a gradient composition of the ceramic particles along the traverse section. FGM was synthesized layer by layer deposition of Cu, Fe, Sn, Cg, SiC, Al2O3 powders with gradient composition. Microstructure, phases, and microhardness of the specimen were analyzed. Tribological studies were performed to assess the wear rate and friction coefficient of the FGM at various loads. The surface morphology of the worn surface was characterized usin...

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PM法合成Cu-Sn-Fe-Cg-SiC-Al2O3重型梯度功能摩擦材料的摩擦学性能

具有陶瓷增强和固体润滑剂的铜基烧结材料被认为是重型应用(风力涡轮机)的潜在刹车片材料，因为它们具有良好的热学和摩擦学性能。然而，陶瓷增强材料的存在降低了刹车片和衬底材料之间的接合强度。当突然刹车时，接头强度的降低可能导致风力发电机组制动系统的灾难性失效。本研究试图合成功能梯度材料(FGM)，该材料具有沿横截面梯度组成的陶瓷颗粒。以梯度组成的Cu, Fe, Sn, Cg, SiC, Al2O3粉末逐层沉积制备FGM。分析了试样的显微组织、物相和显微硬度。进行了摩擦学研究，以评估FGM在不同载荷下的磨损率和摩擦系数。利用场发射扫描电镜对磨损表面形貌进行了表征。研究了FGM在不同载荷下的磨损机理。具有陶瓷增强和固体润滑剂的铜基烧结材料被认为是重型应用(风力涡轮机)的潜在刹车片材料，因为它们具有良好的热学和摩擦学性能。然而，陶瓷增强材料的存在降低了刹车片和衬底材料之间的接合强度。当突然刹车时，接头强度的降低可能导致风力发电机组制动系统的灾难性失效。本研究试图合成功能梯度材料(FGM)，该材料具有沿横截面梯度组成的陶瓷颗粒。以梯度组成的Cu, Fe, Sn, Cg, SiC, Al2O3粉末逐层沉积制备FGM。分析了试样的显微组织、物相和显微硬度。进行了摩擦学研究，以评估FGM在不同载荷下的磨损率和摩擦系数。磨损表面的形貌用…

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INTERNATIONAL CONFERENCE ON MATERIALS, MANUFACTURING AND MACHINING 2019

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