Ratnakar Lande - Academia.edu (original) (raw)
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Papers by Ratnakar Lande
The main goal of this research is to look into the analysis of a piston with a design change in o... more The main goal of this research is to look into the analysis of a piston with a design change in order to reduce volume and <br> improve efficiency. This necessitated conducting a thorough thermal analysis. The investigation is focused on dynamic, model, and <br> transient thermal analysis. The focus of this research is on performing analysis and material optimization in the piston. The piston <br> is designed in two stages in this work: design and analysis. First, use the modelling Pro/E software to create the piston model <br> according to the design specifications. After loading the piston model into the engineering simulation and 3D design software<br> ANSYS, the boundary conditions are applied to the piston. Then several characteristics (stress and deformation) are analyzed, and <br> the findings are quickly obtained. The piston is optimized for the piston material in this study. The thermal analysis is carried out <br> to determine the ...
International Journal of Advanced Research in Science, Communication and Technology, Jul 14, 2021
<jats:p>FEA is used in this research to describe the stress distribution of a seizure on a ... more <jats:p>FEA is used in this research to describe the stress distribution of a seizure on a piston four stroke engine. Computer-aided design (CAD) software is used to do the finite element analysis. The major goal is to explore and analyse the thermal stress distribution of the piston during the combustion process in a real engine. The mesh optimization is described in this study, which uses a finite element analysis technique to anticipate the component's greater stress and critical region. The piston's upper end, which includes the piston head/crown, as well as the piston skirt and sleeve, is optimised to reduce stress concentration. The structural model of a piston will be developed using computer-aided design (CAD) and Pro/ENGINEER software. Furthermore, the finite element analysis was carried out with the ANSYS software.</jats:p>
The main goal of this research is to look into the analysis of a piston with a design change in o... more The main goal of this research is to look into the analysis of a piston with a design change in order to reduce volume and <br> improve efficiency. This necessitated conducting a thorough thermal analysis. The investigation is focused on dynamic, model, and <br> transient thermal analysis. The focus of this research is on performing analysis and material optimization in the piston. The piston <br> is designed in two stages in this work: design and analysis. First, use the modelling Pro/E software to create the piston model <br> according to the design specifications. After loading the piston model into the engineering simulation and 3D design software<br> ANSYS, the boundary conditions are applied to the piston. Then several characteristics (stress and deformation) are analyzed, and <br> the findings are quickly obtained. The piston is optimized for the piston material in this study. The thermal analysis is carried out <br> to determine the ...
International Journal of Advanced Research in Science, Communication and Technology, Jul 14, 2021
<jats:p>FEA is used in this research to describe the stress distribution of a seizure on a ... more <jats:p>FEA is used in this research to describe the stress distribution of a seizure on a piston four stroke engine. Computer-aided design (CAD) software is used to do the finite element analysis. The major goal is to explore and analyse the thermal stress distribution of the piston during the combustion process in a real engine. The mesh optimization is described in this study, which uses a finite element analysis technique to anticipate the component's greater stress and critical region. The piston's upper end, which includes the piston head/crown, as well as the piston skirt and sleeve, is optimised to reduce stress concentration. The structural model of a piston will be developed using computer-aided design (CAD) and Pro/ENGINEER software. Furthermore, the finite element analysis was carried out with the ANSYS software.</jats:p>