Experimental and numerical analysis of compression behaviour of 3D printed metal foams

Ramesh, R and Krishna, R and Koushik Sundaram, K and Arul Mozhi Selvan, R and Abhishek, Roy (2020) Experimental and numerical analysis of compression behaviour of 3D printed metal foams. Journal of Physics: Conference Series, 1706 (1). 012213. ISSN 1742-6588

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Abstract

This article focuses on comparing the experimental and numerical compressive behaviour of metal foams. The metal foams were initially modelled in three configurations of pore sizes. Each configuration was 3D printed using a laser sintering metal additive manufacturing technique. Subsequently, quasi-static compression tests were conducted and their stress-strain curves were examined to ascertain the proof stress of the three configurations. A numerical simulation of the compressive behaviours of the three foams was then conducted and their results were correlated with those from experimentation to quantify the error in simulation. The compression tests revealed that, the compressive strength was a function of density and porosity of the metal foams. Further, the numerical results of compression behaviours were validated, with less than 5 % deviation from the experimental results for all three foam configurations.

Item Type: Article
Subjects: F Mechanical Engineering > Lean Manufacturing
F Mechanical Engineering > Product Design
F Mechanical Engineering > Engineering Design
Divisions: Mechanical Engineering
Depositing User: Users 5 not found.
Date Deposited: 03 Apr 2024 08:51
Last Modified: 13 Jul 2024 03:33
URI: https://ir.psgitech.ac.in/id/eprint/247

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