Thermal Barrier Coating for an Internal Combustion Engine with Various Coating Material and Analysis Using 3D Finite Element Software

Authors

  • Vadivel Subhash M  Assistant Professor, Department of Mechanical Engineering, Annai Velankanni College of Engineering, Kanyakumari, Tamil Nadu, India.
  • Abishekh S T  UG Scholar, Department of Mechanical Engineering, Cape Institute of Technology, Levengipuram, Tirunelveli, Tamil Nadu India
  • Dev Anand C R  UG Scholar, Department of Mechanical Engineering, Cape Institute of Technology, Levengipuram, Tirunelveli, Tamil Nadu India
  • Gandhimathi Nathan A S  UG Scholar, Department of Mechanical Engineering, Cape Institute of Technology, Levengipuram, Tirunelveli, Tamil Nadu India
  • Thevar Arunsundar Arumugam  UG Scholar, Department of Mechanical Engineering, Cape Institute of Technology, Levengipuram, Tirunelveli, Tamil Nadu India

Keywords:

thermal analysis; thermal barrier coating

Abstract

The aim of this project is to increase the thermal efficiency and reducing heat loss of the single cylinder CI Engine by introducing Thermal barrier coating (TBC) in inner cylinder of the combustion chamber. The TBC materials has low thermal conductivity and high thermal stability, hence they possess low heat transfer through the wall of the combustion chamber there by heat loss is reduced and thermal efficiency in increased. This design project will be executing in CAD/CAE software. Firstly, the engine is designed by using Creo Parametric 2.0 software. Secondly, a designed engine is analysed with and without TBC material in inner cylinder of the combustion chamber by using 3D finite element software (ANSYS). A comparison study is made by parameters such as temperature distribution and heat loss. Then finally, the results obtained from all thermal simulations are compared with each other.

References

  1. D.R. Clarke and S.R. Philpot, Thermal Barrier Coating Materials, Mater. 2005.
  2. Z. Miškovi?, I. Bobi?, S. Tripkovi?, A. Rac, A. Vencl, The Structure and Mechanical Properties of an Aluminium A356 Alloy Base Composite with Al2O3 Particle Additions, Tribology in industry, Volume 28, No. 3&4, 2006.
  3. A.C. Alkidas, Performance and emissions achievements with an uncooled heavy duty, single cylinder diesel engine, SAE, vol. 890141, 1989
  4. Xizhong Wang, Lei Guo, HongboGuo, Guohui Ma, Shengkai Gong, Effects of Pressure during Preparation on the Grain Orientation of Ruddlesden-Popper Structured BaLa2Ti3O10 Ceramic, Journal of Materials Science & Technology 01/2013.
  5. Hieu Nguyen, Manufacturing Processes and Engineering Materials Used in Automotive Engine Blocks, April 8, 2005.
  6. Lei Guo, HongboGuo, Guohui Ma, Musharaf Abbas, Shengkai Gong, Ruddlesden–Popper structured BaLa2Ti3O10, a highly anisotropic material for thermal barrier coatings, 2012| 38 | 5 | 4345-4352.
  7. Shinsuke Yamanaka, Ken Kurosaki, TakuOyama, Hiroaki Muta, Masayoshi Uno, Tetsushi Matsuda, Shin-Ichi Kobayashi, Thermophysical Properties of Perovskite?Type Strontium Cerate and Zirconate, Journal of the American Ceramic Society (Impact Factor: 2.11). 05/2005; 88(6):1496 - 1499. DOI:10.1111/j.1551-2916.2005.00278x.
  8. Y. Miyairi, Soc. Automot. Eng. 880187 (1989).
  9. A. Uzun, I. Cevik, M. Akcil, Effects of thermal barrier coating material on a turbocharged diesel engine performance, Surf. Coat. Technol. 116–119 (1999) 505.
  10. T. Hejwowski, A. Weronski, The effect of thermal barrier coatings on diesel engine performance, Vacuum 65 (2002) 427.
  11. E. A. Slonimskaya, A. V. Belyakov, Ceramics Based on Strontium Zirconate (A Review), Glass and Ceramics (Impact Factor: 0.18). 12/2000; 58(1):54-56.
  12. K. Toyama, T. Yoshimitsu, T. Nishiyama, Heat insulated turbo compound engine, SAE Transactions, vol. 92, 1983, p. 3.1086

International Journal of Scientific Research in Science and Technology

Downloads

Published

2021-04-10

Issue

Volume 9, Issue 1, March-April-2021

Section

Research Articles

License

Copyright (c) IJSRST

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

[1]
Vadivel Subhash M, Abishekh S T, Dev Anand C R, Gandhimathi Nathan A S, Thevar Arunsundar Arumugam, " Thermal Barrier Coating for an Internal Combustion Engine with Various Coating Material and Analysis Using 3D Finite Element Software , International Journal of Scientific Research in Science and Technology(IJSRST), Online ISSN : 2395-602X, Print ISSN : 2395-6011, Volume 9, Issue 1, pp.06-13, March-April-2021.