Characterization of the Tensile Behavior of Expanded Polystyrene Foam as a Function of Density and Strain Rate

Expanded polystyrene (EPS) foam is a material, frequently used in a range of applications for its good energy absorption, thermal insulation, durability, and acoustic absorption. In this wide range of applications, the material undergoes a variety of loads that can extend from static to dynamic. Whe...

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Bibliographic Details
Published in:Advanced engineering materials 2020-12, Vol.22 (12), p.n/a
Main Authors: Zouzias, Dimitris, De Bruyne, Guido, Miralbes, Ramon, Ivens, Jan
Format: Article
Language:English
Subjects:
density
polystyrene
properties
strain rates
tensile
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Summary:Expanded polystyrene (EPS) foam is a material, frequently used in a range of applications for its good energy absorption, thermal insulation, durability, and acoustic absorption. In this wide range of applications, the material undergoes a variety of loads that can extend from static to dynamic. When it comes to crush applications, these loading profiles create the need of well‐defined compression and tensile properties for a range of densities and strain rates. Herein, static and dynamic tension tests are conducted on EPS foam dog‐bone samples for material characterization. The target of the study is to obtain stress–strain curves for a range of densities spreading from 60 to 120 g L−1. For the low‐strain rates, tensile testing machines are used, whereas for the high‐strain rates, a modified drop tower set‐up is used. The influence of the strain rate on the stress–strain behavior, the dynamic strength, Young's modulus, and energy absorption capacities for different foam densities is measured. Furthermore, the experimental results for each density are compared with the predictions of Avalle's model for crushable foams to evaluate the validity of the model. The quality of fit obtained between experimental and theoretical is between 70% and 97% depending on the strain rate. Expanded polystyrene foam is used in a range of applications. However, its tensile properties have not been studied thoroughly. Herein, static and dynamic tension tests are conducted on dog‐bone samples for a range of densities and strain‐rates. The influence of both parameters on stress‐strain behavior is defined, exhibiting satisfactory quality of fit with a constitutive model for foams.
ISSN:1438-1656
1527-2648
DOI:10.1002/adem.202000794