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     Research Journal of Applied Sciences, Engineering and Technology

Research Article   |   OPEN ACCESS

Thermal Stresses in an Anisotropic Thin Plate Subjected to Moving Line Heat Sources

1Malak Naji, 2Moh'd Al-Nimr, 2Eyad Alsyed and 3Mahir Essaheb
1Female Branch, Jubail University College
2Mechanical Engineering Department, Jordan University of Science and Technology, Jordan
3Mechanical Engineering Department, King Saud University, Saudi Arabia
Research Journal of Applied Sciences, Engineering and Technology  2014  8:1516-1528
http://dx.doi.org/10.19026/rjaset.7.428  |  © The Author(s) 2014
Received: May 08, 2013  |  Accepted: June 10, 2013  |  Published: February 27, 2014
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Abstract

The aim of this present study is to investigate thermal stresses inside a thin anisotropic mild steal plate during moving line heat source. The parabolic heat conduction model is used for the prediction of the temperature history. The temperature distributions are determined numerically using finite difference method. Thermal stresses are computed numerically. It is found that the thermal conductivity ratio affect in both temperature and thermal stresses distributions, in additional to the speed and heat source intensity.

Keywords:

Anisotropic , moving line heat source, parabolic heat conduction model, thermal stresses,

References

  1. Al-Huniti, N.S., M.A. Al-Nimr and M. Naji, 2001. Dynamic response of a rod due to a moving heat source under hyperbolic heat conduction model. J. Sound Vib., 242(4): 629-640.
    CrossRef    
  2. Al-Huniti, N.S., M.A. Al-Nimr and M.A. Da'as, Maher, 2004. Transiant variations of thermal stresses within a thin plate during welding process. J. Therm. Stressess, 27(8): 671-689.
    CrossRef    
  3. Al-Nimr, M.A. and M. Naji, 2000. The hyperbolic heat condition equation in anisotropic material. Int. J. Thermophys., 21(1): 281-287.
    CrossRef    
  4. Araya, J.G., 2004. Transient, Three-dimension numerical model of laser cutting process in ceramics with phase change consideration. M.Sc. Thesis, Department of Mechanical Eng., College of Eng., University of Puerto Rico,
  5. Hou, Z.B. and R. Komanduri, 2000. General solution for stationary/moving plane heat source problem in manufacturing and tribology. Int. J. Heat Mass Tran., 43: 1679-1698.
    CrossRef    
  6. Ozisisik, M., 1993. Heat Conduction. 2nd Edn., Wiley, New York.
  7. Zibdeh, H.S. and J.M. Al-Farran, 1995. Stresses analysis in composite hollow cylinders due to asymmetric Temperature distribution. J. Press. Vess-T. ASME, 117(1): 59-65.

Competing interests

The authors have no competing interests.

Open Access Policy

This article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made.

Copyright

The authors have no competing interests.
ISSN (Online):  2040-7467
ISSN (Print):   2040-7459
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