Advanced search
Add to list

A combination of mathematical morphology and thermal analysis of wear debris explaining polymer sliding mechanisms

Pieter Samyn (UGent) , Alessandro Ledda (UGent) , Jan Quintelier (UGent) , Isabel Van Driessche (UGent) , Gustaaf Schoukens (UGent) , Patrick De Baets (UGent) and Wim De Waele (UGent)
(2007) MATERIALS SCIENCE FORUM. 561-565(part 1-3). p.2237-2240
Author
Organization
Abstract
Polymer wear debris particles undergo a thermal and mechanical (shear) cycle since their generation and therefore contain information on the friction and wear processes, while it is often difficult to draw quantitative data from them relating to transitions in tribological behaviour. Results from thermal DTA/TGA analysis and morphological pattern spectra of debris are presented and related to a transition at 180 degrees C sliding temperatures own to hydrolysis and imidisation.

Citation

Please use this url to cite or link to this publication:

MLA
Samyn, Pieter, Alessandro Ledda, Jan Quintelier, et al. “A Combination of Mathematical Morphology and Thermal Analysis of Wear Debris Explaining Polymer Sliding Mechanisms.” Materials Science Forum. Ed. YW Chang, NJ Kim, & CS Lee. Vol. 561–565. Stafa-Zürich, Switzerland: Trans Tech Publications ltd, 2007. 2237–2240. Print.
APA
Samyn, Pieter, Ledda, A., Quintelier, J., Van Driessche, I., Schoukens, G., De Baets, P., & De Waele, W. (2007). A combination of mathematical morphology and thermal analysis of wear debris explaining polymer sliding mechanisms. In YW Chang, N. Kim, & C. Lee (Eds.), MATERIALS SCIENCE FORUM (Vol. 561–565, pp. 2237–2240). Presented at the 6th Pacific Rim International conference on Advanced Materials and Processing (PRICM-6), Stafa-Zürich, Switzerland: Trans Tech Publications ltd.
Chicago author-date
Samyn, Pieter, Alessandro Ledda, Jan Quintelier, Isabel Van Driessche, Gustaaf Schoukens, Patrick De Baets, and Wim De Waele. 2007. “A Combination of Mathematical Morphology and Thermal Analysis of Wear Debris Explaining Polymer Sliding Mechanisms.” In Materials Science Forum, ed. YW Chang, NJ Kim, and CS Lee, 561-565:2237–2240. Stafa-Zürich, Switzerland: Trans Tech Publications ltd.
Chicago author-date (all authors)
Samyn, Pieter, Alessandro Ledda, Jan Quintelier, Isabel Van Driessche, Gustaaf Schoukens, Patrick De Baets, and Wim De Waele. 2007. “A Combination of Mathematical Morphology and Thermal Analysis of Wear Debris Explaining Polymer Sliding Mechanisms.” In Materials Science Forum, ed. YW Chang, NJ Kim, and CS Lee, 561-565:2237–2240. Stafa-Zürich, Switzerland: Trans Tech Publications ltd.
Vancouver
1.
Samyn P, Ledda A, Quintelier J, Van Driessche I, Schoukens G, De Baets P, et al. A combination of mathematical morphology and thermal analysis of wear debris explaining polymer sliding mechanisms. In: Chang Y, Kim N, Lee C, editors. MATERIALS SCIENCE FORUM. Stafa-Zürich, Switzerland: Trans Tech Publications ltd; 2007. p. 2237–40.
IEEE
[1]
P. Samyn et al., “A combination of mathematical morphology and thermal analysis of wear debris explaining polymer sliding mechanisms,” in MATERIALS SCIENCE FORUM, Cheju Isl., South Korea, 2007, vol. 561–565, no. part 1-3, pp. 2237–2240.
@inproceedings{436721,
  abstract     = {Polymer wear debris particles undergo a thermal and mechanical (shear) cycle since their generation and therefore contain information on the friction and wear processes, while it is often difficult to draw quantitative data from them relating to transitions in tribological behaviour. Results from thermal DTA/TGA analysis and morphological pattern spectra of debris are presented and related to a transition at 180 degrees C sliding temperatures own to hydrolysis and imidisation.},
  author       = {Samyn, Pieter and Ledda, Alessandro and Quintelier, Jan and Van Driessche, Isabel and Schoukens, Gustaaf and De Baets, Patrick and De Waele, Wim},
  booktitle    = {MATERIALS SCIENCE FORUM},
  editor       = {Chang, YW and Kim, NJ and Lee, CS},
  issn         = {0255-5476},
  language     = {eng},
  location     = {Cheju Isl., South Korea},
  number       = {part 1-3},
  pages        = {2237--2240},
  publisher    = {Trans Tech Publications ltd},
  title        = {A combination of mathematical morphology and thermal analysis of wear debris explaining polymer sliding mechanisms},
  volume       = {561-565},
  year         = {2007},
}

Web of Science
Times cited: