Evolution of contact surface characteristics and tribological properties of a copper-based sintered material during high-energy braking-Reference-Cited by-同舟云学术

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Evolution of contact surface characteristics and tribological properties of a copper-based sintered material during high-energy braking

Published:2022-01 Issue: Volume:488-489 Page:204163
ISSN:0043-1648
Container-title:Wear
language:en
Short-container-title:Wear

Author:

Xiao Yelong^ORCID,Cheng Yu,Zhou Haibin,Liang Weihan,Shen Mingxue,Yao Pingping,Zhao Huoping,Xiong Guangyao

Publisher

Elsevier BV

Subject

Materials Chemistry,Surfaces, Coatings and Films,Surfaces and Interfaces,Mechanics of Materials,Condensed Matter Physics

Reference25 articles.

1. Analysis of tribological behaviour of pad-disc contact in railway braking. Part 1. Laboratory test development, compromises between actual and simulated tribological triplets;Desplanques;Wear,2007

2. Thermal levels and subsurface damage induced by the occurrence of hot spots during high-energy braking;Kasem;Wear,2011

3. Mechanical and tribological behaviors of copper metal matrix composites for brake pads used in high-speed trains;Xiao;Tribol. Int.,2018

4. Synergistic effect of organic- and ceramic-based ingredients on the tribological characteristics of brake friction materials;Ertan;Mater. Tehnol.,2016

5. Improving tribological behaviors of friction material by mullite;Cai;Tribol. Int.,2016

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1. The effect of copper particles coated with graphene oxide on tribological properties and tribo-layers of copper metal matrix composites;Tribology International;2024-11

2. Investigation of the tribological mechanisms of TiN-ZrO2-B4C ternary ceramic-reinforced copper-metal matrix composites;Tribology International;2024-08

3. Effects of chloride ion concentration on porous surfaces and boiling heat transfer performance of porous surfaces;Energy;2024-05

4. Tribological properties of copper-matrix composites against laser-cladded Co06 coating on 30CrMoSiVA steel at elevated temperatures;Tribology International;2024-04

5. Data-driven design of brake pad composites for high-speed trains;Journal of Materials Research and Technology;2023-11

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