A friction, wear and emission tribometer study of non-asbestos organic pins sliding against alsic mmc discs
(2018) In Tribology in Industry 40(2). p.274-282- Abstract
The friction, wear and particle emission from an AlSiC MMC brake disc/non-asbestos organic brake pad system is studied using a pin-on-disc tribometer. The results show that this unconventional AlSiC MMC brake disc system presents friction performance as good as a conventional cast iron brake disc system. During braking, brake pad materials are transferred to the brake disc surface to form a protective third body tribo-layer, resulting in a negative specific wear rate of the brake disc. A higher contact load is likely to make it easier to generate the tribo-layer. The tribo-layer also seems to depend on the disc surface grinding features and the contact temperature during braking. By reusing an AlSiC MMC disc where the tribo-layer is... (More)
The friction, wear and particle emission from an AlSiC MMC brake disc/non-asbestos organic brake pad system is studied using a pin-on-disc tribometer. The results show that this unconventional AlSiC MMC brake disc system presents friction performance as good as a conventional cast iron brake disc system. During braking, brake pad materials are transferred to the brake disc surface to form a protective third body tribo-layer, resulting in a negative specific wear rate of the brake disc. A higher contact load is likely to make it easier to generate the tribo-layer. The tribo-layer also seems to depend on the disc surface grinding features and the contact temperature during braking. By reusing an AlSiC MMC disc where the tribo-layer is already formed, the airborne emission in terms of mass is about 50% lower and in terms of number about the same as the conventional brake contact pair under a similar braking condition. Further full-scale studies are suggested to determine the validity of the findings.
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- author
- Lyu, Yezhe LU ; Wahlström, J. LU ; Tu, M. and Olofsson, U.
- publishing date
- 2018-06-01
- type
- Contribution to journal
- publication status
- published
- subject
- keywords
- AlSiC MMC, Disc brake, Emission, Friction, Wear
- in
- Tribology in Industry
- volume
- 40
- issue
- 2
- pages
- 9 pages
- publisher
- Masinski Fakultet - Kragujevac
- external identifiers
-
- scopus:85049682679
- ISSN
- 0354-8996
- DOI
- 10.24874/ti.2018.40.02.11
- language
- English
- LU publication?
- no
- id
- b204bc9d-ca79-4379-926d-d801d4916348
- date added to LUP
- 2020-04-14 12:37:07
- date last changed
- 2022-04-18 21:56:15
@article{b204bc9d-ca79-4379-926d-d801d4916348, abstract = {{<p>The friction, wear and particle emission from an AlSiC MMC brake disc/non-asbestos organic brake pad system is studied using a pin-on-disc tribometer. The results show that this unconventional AlSiC MMC brake disc system presents friction performance as good as a conventional cast iron brake disc system. During braking, brake pad materials are transferred to the brake disc surface to form a protective third body tribo-layer, resulting in a negative specific wear rate of the brake disc. A higher contact load is likely to make it easier to generate the tribo-layer. The tribo-layer also seems to depend on the disc surface grinding features and the contact temperature during braking. By reusing an AlSiC MMC disc where the tribo-layer is already formed, the airborne emission in terms of mass is about 50% lower and in terms of number about the same as the conventional brake contact pair under a similar braking condition. Further full-scale studies are suggested to determine the validity of the findings.</p>}}, author = {{Lyu, Yezhe and Wahlström, J. and Tu, M. and Olofsson, U.}}, issn = {{0354-8996}}, keywords = {{AlSiC MMC; Disc brake; Emission; Friction; Wear}}, language = {{eng}}, month = {{06}}, number = {{2}}, pages = {{274--282}}, publisher = {{Masinski Fakultet - Kragujevac}}, series = {{Tribology in Industry}}, title = {{A friction, wear and emission tribometer study of non-asbestos organic pins sliding against alsic mmc discs}}, url = {{http://dx.doi.org/10.24874/ti.2018.40.02.11}}, doi = {{10.24874/ti.2018.40.02.11}}, volume = {{40}}, year = {{2018}}, }