Author:
Zhang Mingyu,Wang Jing,Liu Yi,Dai Longjie,Shang Zhaohua
Abstract
Purpose
The purpose of this paper is to use elastohydrodynamic lubrication (EHL) theory to study the variation of the equivalent curvature radius “R” on the change of oil film thickness, pressure, temperature rise and friction coefficient in the contact zone between bush-pin in industrial chain drive.
Design/methodology/approach
In this paper, the contact between bush and pin is simplified as infinitely long line contact. The lubrication state is studied by numerical simulation using steady-state line contact thermal EHL. The two constitutive equations, namely, Newton fluid and Ree–Eyring fluid are used in the calculations.
Findings
It is found that with the increase of equivalent curvature radius, the thickness of oil film decreases and the temperature rise increases. Under the same condition, the friction coefficient of Newton fluid is higher than that of Ree–Eyring fluid. When the load increases, the oil film thickness decreases, the temperature rise increases and the friction coefficient decreases; and the film thickness increases with the increase of the entraining speed under the condition “R < 1,000 mm”.
Research limitations/implications
The infinite line contact assumption is only an approximation. For example, the distances between the two inner plates are 5.72 mm, by considering the two parts assembled into the inner plates, the total length of the bush is less than 6 mm. The diameter of the pin and the bore diameter of the bush are 3.28 and 3.33 mm. However, the infinite line contact is also helpful in understanding the general variation of oil film characteristics and provides a reference for the future study of finite line contact of chain problems.
Originality/value
The change of the equivalent radius R on the variation of the oil film in the contact of the bush and the pin in industrial chain drive was investigated. The size effect influences the lubrication characteristic greatly in the bush-pin pair.
Subject
Surfaces, Coatings and Films,General Energy,Mechanical Engineering
Reference13 articles.
1. Calculation and test on trajectory of automotive engine timing chain system;Transactions of the Chinese Society of Agricultural Machinery,2016
2. International standard ISO 606 (1994), “Short pitch transmission precision roller chains and chain wheels”, GB/T 1243-1997.
3. Size effect on the behavior of thermal elastohydrodynamic lubrication of roller pairs;Journal of Tribology,2012
4. Fatigue lifetime distribution pattern of automotive chain;Journal of Jilin University (Engineering and Technology Edition),2006
5. Study on wear characteristics of timing chain and transmission chain of motor cycle;Tribology,2000
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