Temperatureffekte auf das lokale reibverhalten von elastomeren im gleit- und Rollkontakt

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • M. Kroger
  • M. Wangenheim
  • P. Moldenhauer

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Titel in ÜbersetzungTemperature effects on the local friction of elastomers in sliding and rolling contact
OriginalspracheDeutsch
Seiten (von - bis)271-290
Seitenumfang20
FachzeitschriftVDI Berichte
Ausgabenummer1912
PublikationsstatusVeröffentlicht - 2005

Abstract

The understanding of the frictional behavior in the sliding and rolling contact is essential to conceive the mechanical interaction between road and tire scientifically. As mechanical rubber parameters are dependent on temperature, investigations are presented in this publication, which deal with the temperature behavior in the friction contact area between rubber and different surfaces during different states of relative motion. In the beginning, a brief introduction is given about the theoretical basics of the steady-state temperature distribution, which develops during sliding processes. For this steady-state case experimental results gained with rubber block samples are compared to calculated results. Subsequently mathematical methods describing the temperature behavior during unsteady friction processes like braking are presented and compared to experimental results. To draw nearer to the conditions appearing in a tire contact, experiments on the rolling contact of a GROSCH-wheel are shown while varying slip, normal load and rolling velocity.

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Temperatureffekte auf das lokale reibverhalten von elastomeren im gleit- und Rollkontakt. / Kroger, M.; Wangenheim, M.; Moldenhauer, P.
in: VDI Berichte, Nr. 1912, 2005, S. 271-290.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Kroger, M, Wangenheim, M & Moldenhauer, P 2005, 'Temperatureffekte auf das lokale reibverhalten von elastomeren im gleit- und Rollkontakt', VDI Berichte, Nr. 1912, S. 271-290.
Kroger, M., Wangenheim, M., & Moldenhauer, P. (2005). Temperatureffekte auf das lokale reibverhalten von elastomeren im gleit- und Rollkontakt. VDI Berichte, (1912), 271-290.
Kroger M, Wangenheim M, Moldenhauer P. Temperatureffekte auf das lokale reibverhalten von elastomeren im gleit- und Rollkontakt. VDI Berichte. 2005;(1912):271-290.
Kroger, M. ; Wangenheim, M. ; Moldenhauer, P. / Temperatureffekte auf das lokale reibverhalten von elastomeren im gleit- und Rollkontakt. in: VDI Berichte. 2005 ; Nr. 1912. S. 271-290.
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abstract = "The understanding of the frictional behavior in the sliding and rolling contact is essential to conceive the mechanical interaction between road and tire scientifically. As mechanical rubber parameters are dependent on temperature, investigations are presented in this publication, which deal with the temperature behavior in the friction contact area between rubber and different surfaces during different states of relative motion. In the beginning, a brief introduction is given about the theoretical basics of the steady-state temperature distribution, which develops during sliding processes. For this steady-state case experimental results gained with rubber block samples are compared to calculated results. Subsequently mathematical methods describing the temperature behavior during unsteady friction processes like braking are presented and compared to experimental results. To draw nearer to the conditions appearing in a tire contact, experiments on the rolling contact of a GROSCH-wheel are shown while varying slip, normal load and rolling velocity.",
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N2 - The understanding of the frictional behavior in the sliding and rolling contact is essential to conceive the mechanical interaction between road and tire scientifically. As mechanical rubber parameters are dependent on temperature, investigations are presented in this publication, which deal with the temperature behavior in the friction contact area between rubber and different surfaces during different states of relative motion. In the beginning, a brief introduction is given about the theoretical basics of the steady-state temperature distribution, which develops during sliding processes. For this steady-state case experimental results gained with rubber block samples are compared to calculated results. Subsequently mathematical methods describing the temperature behavior during unsteady friction processes like braking are presented and compared to experimental results. To draw nearer to the conditions appearing in a tire contact, experiments on the rolling contact of a GROSCH-wheel are shown while varying slip, normal load and rolling velocity.

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