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Numerical thermo-mechanical strength analysis of an IC engine component

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This research investigates a thermo-mechanical strength of three geometrical shape designs of an internal combustion (IC) engine piston by a finite element analysis (FEA). FEA was performed using Solidworks software for modelling geometrical piston designs, and the models were imported into ANSYS software for thermo-mechanical fatigue simulation. The work focused on predicting high stress intensity and indicated the fatigue critical regions and life of the piston shape design. AL7075-T6 aluminium alloy was used as a piston material and thermo-mechanical fatigue simulation was conducted based on the experimental stress-number of cycles recorded data from literature. Analytical results showed the similarity of the critical failure positions to some real failures in the IC engine piston, and the shape design modification of the piston. Hence, this concept can be used to satisfy the IC engine design needs at low cost.
Rocznik
Strony
1--11
Opis fizyczny
Bibliogr. 15 poz., rys.
Twórcy
autor
  • Middle Technical University, Technical Engineering College - Baghdad, IRAQ
  • Middle Technical University, Technical Engineering College - Baghdad, IRAQ
  • Middle Technical University, Technical Engineering College - Baghdad, IRAQ
Bibliografia
  • [1] Vaishali R. and Khamankar S.D. (2015): Stress analysis of piston using pressure load and thermal load.– International Journal of Mechanical Engineering, vol.3, No.8, p.8.
  • [2] Nitin K., Srivastav, Ram P.S., Amit K., Girjesh Y., Rajoo S., Prashant K.M., Alok K.P. and Shyam B. (2015): Finite element analysis of piston head by ABAQUS.– Int. Journal of Scientific and Engineering Research, vol.6, No.5, pp.25-28.
  • [3] Lokesh S., Suneer S.R., Taufeeque H. and Upendra K. (2015): Finite element analysis of piston in ANSYS.– International Journal of Modern Trends in Engineering and Research, vol.2, No.4, Corpus ID: 34926816.
  • [4] Sandeep K.K. and Vishnu B.G. (2015): Design and analysis of piston by using finite element analysis.– Int. Journal of Eng. Res. And Tech., vol.4, No.9, pp.296-301.
  • [5] Mallavarapu N. and Vijaya K. (2015): Thermal & static analysis on IC engine piston using FEA.– International Journal of Advance Research in Science and Engineering, vol.4, No.12, pp.244-250.
  • [6] Andoko Doko and Poppy P. (2016): Finite element analysis of surface tension on piston due to pressure variation.– Proc. of the Int. Mech. Eng. And Edu. Conf., (IMEEEC 2016), AIP Conference Proceedings 1778, 030064.
  • [7] Cioată V.G., Kiss I., Alexa V. and Rațiu S.A. (2017): Mechanical and thermal analysis of the internal combustion engine piston using Ansys.– International Conference on Applied Sciences (ICAS2016), IOP Conf. Series: Materials Science and Engineering, vol.163, manuscript number 012043.
  • [8] Manish K. (2018): A finite element thermo-mechanical stress analysis of IC engine piston.– International Research Journal of Engineering and Technology (IRJET), vol.4, No.6, pp.1976-1981.
  • [9] Valentin M. (2018): Static and thermal analysis of piston using FEM analysis.– Int. Jr. for Res. In Applied Sci. & Eng. Tech., vol.6, No.1, pp.201-206.
  • [10] Syed A.A., Nalla S. and Elumagandla S. (2018): Static and thermal analysis of piston with different thermal coatings.– International Research Journal of Engineering and Technology (IRJET), vol.5, No.10, pp.1255-1267.
  • [11] Ajay, Arshad M., Abhishek K.S. and Ankit K. (2018): Numerical validation of thermal analysis of an automobile piston using ANSYS.– International Journal of Research in Engineering and Innovation, vol.2, No.4, pp.384-391.
  • [12] Essam Z.F. (2018): Effect of the elevated temperature on fatigue behaviour of aluminium alloy AA 7075.– Journal of University of Babylon for Engineering Sciences, vol.26, No.8, pp.256-264.
  • [13] Liu G.R and Quek S.S. (2003): The Finite Element Method: A Practical Course.– Elsevier Science Ltd, First published.
  • [14] Zhangxin Chen (2011): The Finite Element Method.– World Scientific Publishing Co. Pte. Ltd.
  • [15] Giri N.K. (2006): Automobile Mechanics.– KHANNA Publishers, Delhi, India, Eight Edition.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-9e690a79-2217-4cc4-9593-28df393f092e
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