Analysis of Thermal-Mechanism Coupled Stress Field of a Diesel Engine Cylinder Head

Qi Liu; Guang Yao Ouyang; Ping Zhang

doi:10.4028/www.scientific.net/AMM.401-403.59

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 401-403Analysis of Thermal-Mechanism Coupled Stress Field...

Analysis of Thermal-Mechanism Coupled Stress Field of a Diesel Engine Cylinder Head

Abstract:

The paper analyzed the temperature field, the thermal stress field and the stress field under mechanical loads of a diesel engine cylinder head with finite element analysis software ANASYS, then took above temperature field results and mechanical loads as boundary conditions to impose on the established model of cylinder head using the thermal mechanism indirect coupled method, researched the stress field and distortion of cylinder head under effect of multiplicative loads. The result indicates that the point of the highest temperature and the maximum thermal stress locates on the middle nose of fire deck; under thermal mechanism coupled effect, the points of maximum stress locate on the interface of bolt head and screw of cylinder head and on the middle nose of fire deck; the maximum pull stress the cylinder head undertook is less than that the material can survive; the distortion of the cylinder head is very small, thus has little influence on the fabrication of other accessories, and the global distortion of cylinder head performs symmetry.

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Periodical:

Applied Mechanics and Materials (Volumes 401-403)

Pages:

59-64

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.401-403.59

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Cite this paper

Online since:

September 2013

Authors:

Qi Liu, Guang Yao Ouyang, Ping Zhang

Keywords:

Cylinder Head, Finite Element, Stress Field, Temperature Field

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References

[1] Wan Pingyuan, Xie Zhiqiang. The Analysis of Temperature and Tress Field of Cylinder Head. China Water Transport. 2007，5（11）：193-194.

Google Scholar

[2] Liu Jie, Pan Yisu. Influence of Contact Simulation on Thermal Stresses Analysis of Cylinder Head. Journal of Chongqing Institute of Technology(Natural Science). 2008，22（10）：24-27.

Google Scholar

[3] Zhang Ping. Research on Heat Transfer Performance and Temperature Field Inspection Methods of Cylinder Head. Naval University of Technology, Wuhan. 2011：63-64.

Google Scholar

[4] Cao Haibin, Wang Jiahong. Analysis of Heat Load on The Cylinder Liner of 6300 Marine Diesel Engine by FEM. 2006，25（4）：414-416.

Google Scholar

[5] Lv jianming. Research on Inverse Method of Heat Conduction Boundary of Cylinder Head. Naval University of Technology. Wuhan. 2011：23-24.

Google Scholar

[6] Sun Hongfei. Flow Field and Cooling Characteristics Analysis of Water Jacket in Engine Cylinder head. Beijing jiaotong University, Beijing. 2010: 66-67.

Google Scholar

[7] Zhou Yongshou. Application of Pearlite and Vermicular Cast Iron Cylinder Head on Pressure Charging Diesel Engines. Huazhong University of Science and Technology. 2004：3-4.

Google Scholar