1 |
R. P. Brown, "Physical Testing of Rubber", 3rd Edition Chapman & Hall Press, London, 1996.
|
2 |
Rubber Analysis with ABAQUS, HKS, Inc.
|
3 |
W. Jiang, W. K. Shi, T. Teng, and Q. G. Wang, "Strength Improvement Design of Engine Rubber Mount Based on Finite Element Method", 2nd Conference on Environmental Science and Information Application Technology, pp. 695-698 (2010).
|
4 |
L. R. Wang, J. C. Wang, Z. H. Lu, and I. Hagiwara, "Strength Improvement Design of Engine Rubber Mount Based on Finite Element Method", Proc. IMechE. Part D: J. Automobile Engineering, 221, 273 (2007).
|
5 |
T. Ramachndran, K. P. Padmanaban, and P. Nesamani, "Modeling and Analysis of IC Engine Rubber Mount using Finite Element Method and RSM", Procedia Engineering, 38, 1683 (2012).
DOI
|
6 |
W. K. Shi, Z. Y. Chen, H. Ya, and T. Teng, "Finite Element Analysis of the Static and Dynamic Characteristics of Engine Rubber Mount", Second Asia-Pacific Conference on Computational Intelligence and Industrial Applications, 492 (2009).
|
7 |
L. R. Wang, Z. H. Lu, and I. Hagiwara, "Finite element simulation of the static characteristics of a vehicle rubber mount", Proc. Instn. Mech. Engrs. Part D: J Automobile Engineering, 216, 965 (2002).
DOI
|
8 |
Q. Hongyan and G. Xiaolan, "Design Optimization of Rubber Engine-mount Based on ANSYS", Applied Mechanics and Materials, 143-144, 480 (2012).
|
9 |
L. R. Wang, J. C. Wang, Z. H. Lu, and I. Hagiwara, "Investigation into the fluid-structure interaction of a hydraulically damped rubber mount on the basis of finite element analysis", Proc. IMechE. Part D: J. Automobile Engineering, 223, 327 (2009).
DOI
|