TY  - JOUR
KW  - Adomian Decomposition Method; Applied loads; Average errors; Contact temperature; Frictional heat; Maximum temperature rise; Measurement results; Pin on disc; Pin-on-disc method; Sliding speed; Solid contacts; Temperature rise; Wear damage; Wheel material
KW  -  Friction; Rails; Wheels
KW  -  Forecasting
ID  - scholars2656
IS  - 23
N2  - The interaction between rail and wheel materials produce wear damage on each surface and frictional heat. This study is aimed to predict contact temperature due to the interaction between rail and wheel for various applied load and velocity. The frictional heat was modeled as a solid contact pressure. The temperature rise was calculated by numerically integrating the equation using Adomian Decomposition Method. The paper also studies the influences of sliding speed on temperature rise. The pin-on-disc experiment was used to validate the results. The results show the peak pressure distributions increase linearly with the increasing applied load with an average slope of 0.053. The maximum temperature rise was 259.98 K at x = 1 mm for 5.3 MPa pressure and 3.14 m sec-1 sliding speed. Prediction temperature rise results were successfully validated using pin-on-disc method. The average error between prediction and measurement results was 4.99. © 2012 Asian Network for Scientific Information.
Y1  - 2012///
VL  - 12
UR  - https://www.scopus.com/inward/record.uri?eid=2-s2.0-84872038937&doi=10.3923%2fjas.2012.2424.2429&partnerID=40&md5=9363c3b6c584f8de482c38cdf64f4e36
JF  - Journal of Applied Sciences
A1  - Windarta
A1  - Bin Sudin, M.
A1  - Baharom, M.B.
AV  - none
SP  - 2424
TI  - Prediction of contact temperature on interaction between rail and wheel materials using pin-on-disc method
N1  - cited By 7
SN  - 18125654
EP  - 2429
ER  -