Transition in wear regime during braking applications: An analysis of the debris and surfaces of the brake pad and disc

被引:10
作者
Barros, L. Y. [1 ]
Poletto, J. C. [1 ,2 ,3 ]
Gehlen, G. S. [1 ]
Lasch, G. [1 ]
Neis, P. D. [1 ]
Ramalho, A. [4 ]
Ferreira, N. F. [1 ,4 ]
机构
[1] Univ Fed Rio Grande do Sul, Lab Tribol, Porto Alegre, Brazil
[2] Univ Ghent, Soete Lab, Ghent, Belgium
[3] Flanders Make UGent, Core Lab, MIRO, Ghent, Belgium
[4] Univ Coimbra, Dept Mech Engn, Cemmpre, ARISE, Coimbra, Portugal
来源
TRIBOLOGY INTERNATIONAL | 2023年 / 189卷
关键词
Brake friction materials; Wear regime; Third body; Pad 's morphology; 3RD BODY FORMATION; CONTACT CONDITIONS; PERFORMANCE; MECHANISMS; INTERFACE; BEHAVIOR;
D O I
10.1016/j.triboint.2023.108968
中图分类号
TH [机械、仪表工业];
学科分类号
0802 ;
摘要
This article aims to describe the sequence of events (cause-effect) that lead to the transition in wear regime from moderate to severe for brake friction materials (BFM). Tribofilm, contact plateaus and wear debris are characterized in both regimes through different techniques. It was concluded that there is a critical tensile strength which leads to the destruction of the contact plateaus (the secondary type), resulting in a direct contact between the metallic fibers of the BFM and the tribofilm deposited on the disc's surface. Then, the tribofilm is gradually removed over the braking applications, increasing the wear rate of the tribopair.
引用
收藏
页数:11
相关论文
共 47 条
  • [1] Effect of pressure in the transition between moderate and severe wear regimes in brake friction materials
    Barros, L. Y.
    Poletto, J. C.
    Buneder, D.
    Neis, P. D.
    Ferreira, N. F.
    Pavlak, R. P.
    Matozo, L. T.
    [J]. WEAR, 2019, 438
  • [2] Influence of copper on automotive brake performance
    Barros, L. Y.
    Poletto, J. C.
    Neis, P. D.
    Ferreira, N. F.
    Pereira, C. H. S.
    [J]. WEAR, 2019, 426 : 741 - 749
  • [3] An experimental study of the transition in the wear regime of brake friction materials
    Barros, Liu Y.
    Poletto, Jean C.
    Buneder, Diogo
    Flores, Roberto
    Gehlen, Gustavo
    Neis, Patric D.
    Ferreira, Ney F.
    Matozo, Luciano T.
    [J]. POLYMER COMPOSITES, 2021, 42 (12) : 6310 - 6321
  • [4] Blau P.J., 2001, Compositions, Functions, DOI DOI 10.2172/788356
  • [5] Coupling between friction physical mechanisms and transient thermal phenomena involved in pad-disc contact during railway braking
    Cristol-Bulthe, A.-L.
    Desplanques, Y.
    Degallaix, G.
    [J]. WEAR, 2007, 263 : 1230 - 1242
  • [6] Mechanical and chemical investigation of the temperature influence on the tribological mechanisms occurring in OMC/cast iron friction contact
    Cristol-Bulthe, Anne-Lise
    Desplanques, Yannick
    Degallaix, Gerard
    Berthier, Yves
    [J]. WEAR, 2008, 264 (9-10) : 815 - 825
  • [7] Numerical simulation of typical contact situations of brake friction materials
    Dmitriev, A. I.
    Oesterle, W.
    Kloss, H.
    [J]. TRIBOLOGY INTERNATIONAL, 2008, 41 (01) : 1 - 8
  • [8] Tribological behavior and applications of carbon fiber reinforced ceramic composites as high-performance frictional materials
    Duan, Junjie
    Zhang, Menghang
    Chen, Pengju
    Li, Zhuan
    Pang, Liang
    Xiao, Peng
    Li, Yang
    [J]. CERAMICS INTERNATIONAL, 2021, 47 (14) : 19271 - 19281
  • [9] An optical method for measuring surface roughness of machined carbon fibre-reinforced plastic composites
    Duboust, N.
    Ghadbeigi, H.
    Pinna, C.
    Ayvar-Soberanis, S.
    Collis, A.
    Scaife, R.
    Kerrigan, K.
    [J]. JOURNAL OF COMPOSITE MATERIALS, 2017, 51 (03) : 289 - 302
  • [10] Study of CVD diamond layers with amorphous carbon admixture by Raman scattering spectroscopy
    Dychalska, Anna
    Popielarski, Piotr
    Frankow, Wojciech
    Fabisiak, Kazimierz
    Paprocki, Kazimierz
    Szybowicz, Miroslaw
    [J]. MATERIALS SCIENCE-POLAND, 2015, 33 (04) : 799 - 805
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