Review Paper on Thermal Analysis of Non-Vented (solid) Disc Brake using Ansys Software
Abstract
Keywords – Rotor brake, solid works, structure and thermal analysis, ANSYS.
Full Text:
PDFReferences
Agnihotri, V. and Chopra, M. K., (2014). Optimized Thermo Structural Analysis of Solid and Vented Disc Brake Using Finite Element Mathod (A Case Study). IOSR Journal of Mechanical and Civil Engineering (IOSR-JMCE), 11(4): 40-49.
Babukanth, G. and Teja, M. V., (2012). Transient analysis of disc brake using ansys software. International Journal of Mechanical and Industrial Engineering. 2(1): 21-25.
Belhocine, A. and Bouchetara, M., (2012). Thermal analysis of a solid brake disc. Applied Thermal Enginering. 32: 59-67.
Belhocine, A., Cho, C. D., Nouby, M., Yi, Y. B. and Bhakar, A. R. A., (2014). Thermal analysis of both ventilated and full disc brake rotors with frictional heat generation. Applied and Computational Mechanics, 8: 5–24.
Gao, C. H., Huang, J. M., Lin, X. Z. and Tang, X. S., (2007). Stress Analysis of Thermal Fatigue of Brake Discs Based on thermomechanical coupling. American Society of Mechanical Engineers. 129: 536-543.
Gowrisankar, M. and Deepthi, K., (2015). Design and Analysis of a Vented Disc brake Rotor. International Journal of Computational Engineering Research (IJCER), 5(2): 68-73.
Lee, K. and Barber, J. R., (1993). Frictionally excited thermo elastic instability in automotive disc brakes. American Society of Mechanical Engineers. 115: 607-614.
Lee, K. and Barber, J. R., (1994). An experimental investigation of frictionally excited thermo elastic instability in automotive disc brakes under a Drag Brake Application. American Society of Mechanical Engineers. 116: 409-414.
Lee, K. and Barber, J. R., (1995). Effect of intermittent contact on the stability of thermo elastic contact. American Society of Mechanical Engineers. 198: 27- 32.
Narayana, K. S., Rao, G. U., Simhachalam, D. and Nagaraju, B., (2014). Finite Element Analysis of Solid and Ventilated Disc Brake. International Journal of Science and Research (IJSR), 3(9): 875-882.
Parab, V., Naik, k. and Dhale, A. D., (2014). Structural and Thermal Analysis of Brake Disc. International Journal of Engineering Development and Research, 2(2): 1398-1403.
Sarkar, S. and Rathod, P. P., (2013). Thermal Analysis of Ventilated Disc Brake by Varying Design Parameters. International Journal of Engineering Research & Technology (IJERT), 2(12): 1077-1081.
Shahzamanian, M. M., Sahari, B. B., Bayat, M., Ismarrubie, Z. N. and Mustapha, F., (2010). Transient and thermal contact analysis for the elastic behavior of functionally graded brake disks due to mechanical and thermal loads. ELSEVIER, 31: 4655-4665.
Thilak,V. M. M., Krishnaraj, R., Dr. Sakthivel, M., Marudachalam, D. M. G. and Palani, R., (2011). Transient thermal and structure analysis of the rotor disc brake. International Journal of Scientific & Engineering Research, 2(8): 1-4.
Tiwari, A. K., Tiwari, A. K., Yadav, P., Yadav, H. S. and Lal, S. B., (2014). Finite Element Analysis of Disc Brake by Ansys Workbench. International Journal of Research in Engineering & Advanced Technology, 2(2): 1-6.
DOI: https://doi.org/10.37628/jcam.v1i1.138
Refbacks
- There are currently no refbacks.