STRESS ANALYSIS OF IC ENGINE PISTON FOR DIFFERENT MATERIAL AND PRESSURE LOAD USING FEA
Journal Title: International Journal of Engineering Sciences & Research Technology - Year 30, Vol 5, Issue 7
Abstract
This present work describes the stress distribution of two different aluminum alloys piston by using finite element method (FEM). The piston is designed for a single cylinder petrol engine using SOLIDWORKS 2013 software. The procedure for analytical design of two different aluminum alloy piston is described. Design is imported to ANSYS 15.0 software then static stress analysis is performed at different pressure load conditions on the piston. Results are presented and a comparison is made to find the best aluminum alloy.
Authors and Affiliations
Mr. Jadhav Vishal
Keywords
Related Articles
- EP ID EP138750
- DOI 10.5281/zenodo.56982
- Views 78
- Downloads 0
Utilization of Reinforced Concrete Flexural (Shear) Walls in Multistorey Buildings with Effect of Lateral Loads under Flat Terrain
This research paper presents the relation between base shear and base moment, minimum thickness of shear wall to avoid buckling of shear walls, considered with dimensions classified as class A, class B, class C as...
EXTRACTION OF STANDING HUMAN BODIES FROM IMAGES WITH MULTI LEVEL SEGMENTATION AND SPLINE REGRESSION
The ability to extract and detection of human activities by computer vision is very important with many potential applications. Extraction of human bodies from images from respective digital image has accomplished...
Performance Analysis of Quality of Service Evaluation in IEEE 802.15.4 Wireless Sensor Networks
The popularity of Wireless Sensor Networks (WSN) have increased tremendously in recent time due to growth in Micro-Electro-Mechanical Systems (MEMS) technology. WSN has the potentiality to connect the physical wo...
Improve Power Quality Problem Using Series Compensator
This paper discusses study of design and simulation of series compensator for improving power quality and reduces the harmonic distortion of sensitive load. Electronic device and control technologies have made it...
INTEGRATED BIM AND DES FRAMEWORK FOR EFFECTIVE TIME AND COST MANAGEMENT OF SLIPFORM OPERATIONS
Effective management of Slipforming operations is critical due to operation’s linearity that is considered a source of planning and proper cost management complications. This paper is presented to assist practitio...