Author:
Slota Ján,Šiser Marek,Gajdoš Ivan
Abstract
Abstract
Presented work deals with the prediction of the forming limit of food can obtained with deep drawing, reverse drawing and expansion operations. Two commonly used materials of TH330 steel and AA5352 aluminium alloy for packaging can production were studied. Finite element simulation (FEM) is an essential tool in the packaging industry to prevent different sheet metal forming difficulties such as failure under complex nonlinear strain paths and plastic anisotropic earing. In order to characterise the material plastic properties and to specify failure criteria, the uniaxial tensile, hydraulic bulge test, as well as the routines for obtaining forming limit curves were carried out. The input material data required for various material models are also described. Utilisation of advanced material models in numerical simulation require a large number of input data. Prediction of failure location in drawing and expansion of axi-symmetric cups were estimated for each material. The FEM results were verified by real experiments.
Subject
Electrical and Electronic Engineering,Mechanical Engineering,Aerospace Engineering,General Materials Science,Civil and Structural Engineering,Environmental Engineering
Reference18 articles.
1. Improvement of springback prediction accuracy using material model considering elastoplastic anisotropy and Bauschinger effect;Journal of Materials Processing Technology,2016
2. A study on determining hardening curve for sheet metal;International Journal of Machine Tools & Manufacture,2003
3. A modified elliptical fracture criterion to predict fracture forming limit diagrams for sheet metals;Journal of Materials Processing Tech,2017
4. A novel approach to determine plastic hardening curves of AA7075 sheet utilizing hydraulic bulging test at elevated temperature;International Journal of Mechanical Sciences,2015
5. Numerical Prediction of Forming Car Body Parts with Emphasis on Springback;Metals,2018
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