Development of sinter linings for high-speed trains-Reference-Cited by-同舟云学术

Development of sinter linings for high-speed trains

Published:2024-07-08 Issue:8 Volume:66 Page:1153-1167
ISSN:0025-5300
Container-title:Materials Testing
language:en
Short-container-title:

Author:

Bebekoğlu Sunay¹,Topuz Ahmet¹,Çakır Esin¹,Adsoy Abdülhamit¹^ORCID,Yıldıran Turgay²

Affiliation:

1. Mechanical Engineering Department , 187450 Istanbul Arel University , Istanbul 34500 , Türkiye

2. Department of Research and Development at Beşer , Izmir , Türkiye

Abstract

Abstract In this study, brake linings with Cu (copper)-based and Cu-10Sn (bronze)-based matrix structures have been developed and produced by the powder metallurgy method using sinter metal technology for use in high-speed trains. The developed linings were compared with commercial high-speed train linings. Firstly, the mixing process was carried out in a Turbulo 3V three-dimensional mixer for 4.5 h at 50 rpm. The pressing process was performed at room temperature, under the pressure of 350–450 MPa, and the sintering temperature for Cu-based linings was 1,000 °C, while for Cu-10Sn-based linings, it was 800 °C. After the pressing and sintering processes, lining sample density calculations were conducted, and hardness tests were carried out in the Rockwell L scale. Shear strength tests, friction coefficient, and wear tests were conducted according to SAE J 661 standards. It was observed that sinter metal brake linings with Cu and Cu-10Sn main matrix structures showed similar properties and met the technical requirements. It was determined that the developed production prescriptions are promising for industrial production and patent studies.

Funder

The Scientific and Technological Research Council of Türkiye (TÜBİTAK) 1505 - University-Industry cooperation Support Program

Publisher

Walter de Gruyter GmbH

Link

https://www.degruyter.com/document/doi/10.1515/mt-2023-0422/pdf

Reference9 articles.

1. Y. Xiao, et al.., “Mechanical and tribological behaviors of copper metal matrix composites for brake pads used in high-speed trains,” Tribol. Int., vol. 119, pp. 585–592, 2018. https://doi.org/10.1016/j.triboint.2017.11.038.

2. F. Ishimoto, K. Futoshi, A. Kazutaka, and K. Osamu, “Sintered friction material for high-speed rail,” JP5716494B2, 2012.

3. C. Yin, X. Wang, G. Wen, and Q. Lan, “Copper – based powder metallurgy friction material for high – speed train braking and preparation method thereof,” CN105063459A, 2015.

4. J. Hao et al.., “Dispersion-strengthened copper-based powder metallurgy brake pad and preparation for same,” CN103194659B, 2015.

5. J. Jiang, H. Liu, C. Zhang, Z. Zhang, and Y. Chen, “For the metal-based powder metallurgy brake pad and preparation method thereof of bullet train,” CN103244586B, 2015.