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Mechanical Performance of Polymer Materials for Low-Temperature Applications

Yong‐Jin Kim, Myung-Sung Kim, Hyeon-Jong Jeon, Jeong‐Hyeon Kim, Kang Woo Chun

2022Applied Sciences18 citationsDOIOpen Access PDF

Abstract

The present study investigates the strain-rate-dependent mechanical performances of three different kinds of polymers in low-temperature applications, including plastic piping systems. Recently, lightweight constructions have been increasingly used in ship and offshore structures because using low-density materials reduces the structural weight of products. However, most of the existing research outcomes have not focused on low-temperature applications. In the present study, the mechanical and failure characteristics of acrylonitrile butadiene styrene (ABS), polyethylene (PE), and polyvinylidene fluoride (PVDF), which are the most widely used in ship and offshore industries, were tested under low-temperature conditions. The quasistatic tensile stress–strain responses of the polymers were observed at rates of 10−2, 10−3, and 10−4 s−1. As the temperature decreased, the tensile strength and Young’s modulus of tested polymers increased. The fracture strain and modulus of toughness of ABS were considerably lower than those of PE and PVDF at room and low temperatures. When compared with mechanical properties, PVDF displayed superior capability, and each polymer showed different fracture surface characteristics, such as ductility and brittleness. The quantitative material properties tested at various temperatures and strain-rates can be used as material information for the finite element (FE) analysis and material parameters for the development of advanced constitutive models.

Topics & Concepts

Materials scienceComposite materialUltimate tensile strengthAcrylonitrile butadiene styreneToughnessPolymerDuctility (Earth science)BrittlenessModulusStrain rateFracture toughnessCreepPolymer crystallization and propertiesMechanical Behavior of CompositesFiber-reinforced polymer composites
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