This content is not included in
your SAE MOBILUS subscription, or you are not logged in.
Friction Temperature of the Piston Rings with Consideration of the Cylinder Wall Thickness
Technical Paper
2004-01-0612
ISSN: 0148-7191, e-ISSN: 2688-3627
Annotation ability available
Sector:
Language:
English
Abstract
Analysis of the friction temperature of a piston ring in a reciprocating oil-less compressor was presented in the work of V. Dunaevsky and I. Kudish published in 1998 by SAE, Paper 982828. In that work a theoretical analysis of the transient friction temperature at the interface was conducted under a simplifying assumption that the ring slides over the plane which serves as the boundary of a half-space with infinite thickness. In the current paper the simplifying assumption that the cylinder wall has infinite thickness is replaced by the assumption that the wall thickness is finite, i.e. by a finite thickness layer bounded by two parallel planes. A numerical heat transfer model was used to show effects of wall thickness and heat transfer coefficient on transient and steady temperature distribution across the wall.
Recommended Content
Authors
Citation
Dunaevsky, V. and Vick, B., "Friction Temperature of the Piston Rings with Consideration of the Cylinder Wall Thickness," SAE Technical Paper 2004-01-0612, 2004, https://doi.org/10.4271/2004-01-0612.Also In
Compression Ignition and Spark Ignition Power Cylinder Systems
Number: SP-1820; Published: 2004-03-08
Number: SP-1820; Published: 2004-03-08
References
- Dunaevsky V.V. Kudish I.I. “Friction Temperature Generated by Piston Ring in a Reciprocating Oilless Air Brake Compressor” SAE Paper No. 982827 1988
- Dunaevsky V. Gilbert G. “Oil-less/Oil-Free Air Brake Compressor with A Dual Piston Arrangement” Sept. 5 2000
- Vick B. Furey M.J. Iskandar K. “Theoretical Surface Temperatures Generated From Sliding Contact of Pure Metallic Elements,” Tribology International 33 2000 265 271
- Vick B. Furey M.J. Foo S.J. “Boundary Element Thermal Analysis of Sliding Contact” Numerical Heat Transfer, Part A: Applications 20 1 1991 19
- Vick B. Furey M. “A Basic Theoretical Study of the Temperature Rise in Sliding Contact with Multiple Contacts,” Tribology International 34 2001 823 829