Affiliation:
1. Centre Technique Industriel de la Plasturgie et des Composites, 01100 Bellignat, France
Abstract
The thermoforming process is commonly used in industry for the manufacturing of lightweight, thin-walled products from a pre-extruded polymer sheet. Many simulations have been developed to simulate the process and optimize it with computer tools. The development of testing machines has simplified the simulation of this type of process, allowing researchers to characterize the behavior of the material at different temperatures and for large deformation to be closer to the real conditions of the process. This paper presents the results of a study on the modeling of the thermoforming process for an industrial demonstrator made from a high-impact polystyrene (HIPS) polymer. The HIPS shows a mechanical behavior that depends on the temperature and strain rate. In such conditions, a thermo-hyper-viscoelastic constitutive model is used to replicate the thermoforming process of the industrial demonstrator using ABAQUS/Explicit. Its behavior is determined via various experimental tests: uniaxial tensile tests at different temperatures and strain rates and Dynamic Mechanical Analysis (DMA). A comparison between the numerical and experimental results is carried out for the evolution of film thickness. The paper concludes with a discussion of possible improvements to be considered for future simulations of the thermoforming process using Abaqus, which presents complex challenges in terms of contact and material modeling.
Reference27 articles.
1. Riley, A. (2012). Packaging Technology, Elsevier.
2. Rheological Measurement of the Nonlinear Viscoelasticity of the ABS Polymer and Numerical Simulation of Thermoforming Process;Cha;Int. J. Adv. Manuf. Technol.,2020
3. Analysis of plastics packaging domestic market;Bohdan;Polimery,2007
4. (2024, January 28). Thermoformage. Plastilex. Available online: http://thermoformage-iledefrance.fr/thermoformage/.
5. Leite, W.D.O., Campos Rubio, J.C., Mata Cabrera, F., Carrasco, A., and Hanafi, I. (2018). Vacuum Thermoforming Process: An Approach to Modeling and Optimization Using Artificial Neural Networks. Polymers, 10.