Failure Of Pistons Engine Using Finite Element Analysis
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Failure of Pistons Engine Using Finite Element Analysis
This project deals with analysis the failure of piston engine using FEA. The objective of this thesis is to develop the geometry of piston engine using Solidwork software and to investigate the maximum stress using stress analysis and maximum temperature using thermal analysis. The project describes the finite element analysis techniques to predict the failure of piston and identify the critical locations of the components. Aluminum alloys material was studied in this project which commonly used in industry. The three-dimensional solid modeling of piston engine was developed using the solidwork software. The strategy of validation of finite element model was developed. The finite element analysis was then performed using ALGOR software. The finite element model of the components was analyzed using the static stress with linear material model and steady-state heat transfer. Finally, the maximum stress and maximum temperature were obtained previously are employed as input for the failure of piston. Pistons from petrol engines, from automobiles, will be analyzed. Damages initiated at the top head, ring grooves, pin holes and skirt are assessed. Stresses at the piston crown and pin holes, as well as stresses at the grooves and skirt as a function of land clearances are also presented. The results can also significantly reduce the cost to produce the piston, and improve product reliability and improve the fatiguestrength and durability.
Advanced Combustion Techniques and Engine Technologies for the Automotive Sector
Author: Akhilendra Pratap Singh
language: en
Publisher: Springer Nature
Release Date: 2019-10-10
This book discusses the recent advances in combustion strategies and engine technologies, with specific reference to the automotive sector. Chapters discuss the advanced combustion technologies, such as gasoline direct ignition (GDI), spark assisted compression ignition (SACI), gasoline compression ignition (GCI), etc., which are the future of the automotive sector. Emphasis is given to technologies which have the potential for utilization of alternative fuels as well as emission reduction. One special section includes a few chapters for methanol utilization in two-wheelers and four wheelers. The book will serve as a valuable resource for academic researchers and professional automotive engineers alike.
Proceedings of 11th International Conference on Advanced Materials & Processing 2017
September 7-8 2017 Edinburgh, Scotland Key Topics : Advanced Materials Engineering, Advanced Ceramics and Composite Materials, Polymers Science and Engineering, Advancement in Nanomaterials Science And Nanotechnology, Metals, Metallurgy and Materials, Optical, Electronic and Magnetic Materials, Advanced Biomaterials, Bio devices & Tissue Engineering, Materials for Energy application& Energy storage, Carbon Based Nanoscale Materials, Entrepreneurs Investment Meet, Materials Processing and characterization, Processing and Fabrication of Advanced Materials, Emerging Areas of Materials Science, Materials Based Engineering Design and Control, Materials Engineering and Performance, Materials Science and Engineering, Needs, Priorities and Opportunities For Materials, Material Properties at High Temperature Applications, Coatings and Surface Engineering, Functional Materials, Materials For Engineering and Environmental Sustainability,