A THERMODYNAMICAL APPROACH TO THE CONDUCTIVE COMPOSITE SLIDE BEARING

Katana, Branko; Alić Kostešić, Vesna; Mott Bingula, Karmen

doi:10.19279/TVZ.PD.2020-8-2-15

Polytechnic and design, Vol. 8 No. 2, 2020.

Professional paper

https://doi.org/10.19279/TVZ.PD.2020-8-2-15

A THERMODYNAMICAL APPROACH TO THE CONDUCTIVE COMPOSITE SLIDE BEARING

Branko Katana orcid.org/0000-0003-4400-0240 ; Zagreb University of Applied Sciences, Zagreb, Croatia
Vesna Alić Kostešić ; Zagreb University of Applied Sciences, Zagreb, Croatia
Karmen Mott Bingula ; Zagreb University of Applied Sciences, Zagreb, Croatia

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APA 6th Edition

Katana, B., Alić Kostešić, V. & Mott Bingula, K. (2020). A THERMODYNAMICAL APPROACH TO THE CONDUCTIVE COMPOSITE SLIDE BEARING. Polytechnic and design, 8 (2), 96-104. https://doi.org/10.19279/TVZ.PD.2020-8-2-15

MLA 8th Edition

Katana, Branko, et al. "A THERMODYNAMICAL APPROACH TO THE CONDUCTIVE COMPOSITE SLIDE BEARING." Polytechnic and design, vol. 8, no. 2, 2020, pp. 96-104. https://doi.org/10.19279/TVZ.PD.2020-8-2-15. Accessed 4 May 2024.

Chicago 17th Edition

Katana, Branko, Vesna Alić Kostešić and Karmen Mott Bingula. "A THERMODYNAMICAL APPROACH TO THE CONDUCTIVE COMPOSITE SLIDE BEARING." Polytechnic and design 8, no. 2 (2020): 96-104. https://doi.org/10.19279/TVZ.PD.2020-8-2-15

Harvard

Katana, B., Alić Kostešić, V., and Mott Bingula, K. (2020). 'A THERMODYNAMICAL APPROACH TO THE CONDUCTIVE COMPOSITE SLIDE BEARING', Polytechnic and design, 8(2), pp. 96-104. https://doi.org/10.19279/TVZ.PD.2020-8-2-15

Vancouver

Katana B, Alić Kostešić V, Mott Bingula K. A THERMODYNAMICAL APPROACH TO THE CONDUCTIVE COMPOSITE SLIDE BEARING. Polytechnic and design [Internet]. 2020 [cited 2024 May 04];8(2):96-104. https://doi.org/10.19279/TVZ.PD.2020-8-2-15

IEEE

B. Katana, V. Alić Kostešić and K. Mott Bingula, "A THERMODYNAMICAL APPROACH TO THE CONDUCTIVE COMPOSITE SLIDE BEARING", Polytechnic and design, vol.8, no. 2, pp. 96-104, 2020. [Online]. https://doi.org/10.19279/TVZ.PD.2020-8-2-15

Abstract

Thermodynamic of conductive composite materials is very complex, to calculate each parameter we need to have good knowledge of the necessary methods, because there is a lot of parameters that we need to consider. In this paper we will first explain the basic principle of thermal load on the composite bearing, than calculations of the heat flow for the sliding bearing / sleeve system and of the sleeve temperature. The lifetime of a composite bearing depends also on the sleeve heat flow and the sleeve thermal expansion but also on the thermal expansion of the outer housing of the sliding bearing. Therefore, in this paper we will present and explain step by step all the important thermodynamic parameters to ensure good tribological understanding of the bearing / sleeve system. In various papers we can see that mechanical properties of composite materials significantly depend on the working temperature when it comes to avoiding bearing failure, therefore it is good to calculate the maximum working temperature. The purpose of this paper is to explain the key parameters of avoiding the damage of the composite slide bearing by overheating.

Keywords

Composite slide bearing; bearing / sleeve system; conductive composite; thermal load.

Hrčak ID:

243889

URI

https://hrcak.srce.hr/243889

Publication date:

15.9.2020.

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Polytechnic and design, Vol. 8 No. 2, 2020.

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