tailieunhanh - Design analysis and optimization of piston for single cylinder 4 – stroke spark ignition engine using coupled steady-state thermal structural analysis
The aim of the study is to design, analysis and optimization of piston for a single cylinder four stroke over head valve (OHV) spark ignition engine. This paper used reverse engineering techniques, in order to obtain of an existing physical model. | Design analysis and optimization of piston for single cylinder 4 stroke spark ignition engine using coupled steady-state thermal structural analysis International Journal of Mechanical Engineering and Technology IJMET Volume 10 Issue 03 March 2019 pp. 1044-1054. Article ID IJMET_10_03_105 Available online at http ijmet JType IJMET amp VType 10 amp IType 3 ISSN Print 0976-6340 and ISSN Online 0976-6359 IAEME Publication Scopus Indexed DESIGN ANALYSIS AND OPTIMIZATION OF PISTON FOR SINGLE CYLINDER 4 STROKE SPARK IGNITION ENGINE USING COUPLED STEADY-STATE THERMAL STRUCTURAL ANALYSIS Pandiyan A Department of Mechanical Engineering Saveetha School of Engineering SIMATS Thandalam Saveetha Nagar Chennai 602 105. Tamil Nadu India. Arun Kumar G Department of Mechanical Engineering Sathyabama Institute of Science and Technology Chennai 600 119 Tamil Nadu India. Daniel Nikedh D th 4 Year Students Department of Mechanical Engineering Saveetha School of Engineering SIMATS Thandalam Saveetha Nagar Chennai 602 105. Tamil Nadu India. corresponding author ABSTRACT The aim of the study is to design analysis and optimization of piston for a single cylinder four stroke over head valve OHV spark ignition engine. This paper used reverse engineering techniques in order to obtain of an existing physical model. A three-dimensional piston has been created with the help of SOLIDWORKS and it is imported to ANSYS environment for the coupled steady-state thermal structural analysis. The material used for piston is Die Cast Aluminium DCA 1 2 and 3. The objective of this paper focuses the light weight piston design through finite element analysis and to optimize the piston design using parametric optimization. The results obtained from coupled field analysis and parametric optimization concluded the modified design is within the permissible limit along the selected materials for DCA2 and shows the maximum von misses stresses factor of safety n is and yield
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