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Split-Hopkinson Pressure Bar Test of Silicone Rubber: Considering Effects of Strain Rate and Temperature

Xintao Zhu, Xiaojing Zhang, Wenjin Yao, Wenbin Li

2022Polymers12 citationsDOIOpen Access PDF

Abstract

Using a split-Hopkinson pressure bar test instrument with a temperature control device, in this work, silicone rubber was tested at different temperatures (−40 °C–200 °C) and different strain rates (1.2 × 103 s−1–7.2 × 103 s−1). The results showed that the dynamic mechanical properties of silicone rubber were strain-rate sensitive at different temperatures and the yield strength of the silicone rubber increased with an increase in the strain rate. At a higher strain rate, silicone rubber showed temperature sensitivity. With a decrease in the strain rate, the influence of temperature on silicone rubber gradually decreased. Differential scanning calorimetry analysis showed that silicone rubber had good thermal stability at high temperatures. When the temperature was as low as −40 °C, the silicone rubber underwent a glass transition, showing the characteristics of brittle materials.

Topics & Concepts

Silicone rubberMaterials scienceComposite materialSplit-Hopkinson pressure barStrain rateNatural rubberSiliconeDifferential scanning calorimetryBar (unit)Glass transitionStrain (injury)Thermal stabilityBrittlenessPolymerChemistryThermodynamicsMedicineMeteorologyOrganic chemistryInternal medicinePhysicsHigh-Velocity Impact and Material BehaviorEnergetic Materials and CombustionStructural Response to Dynamic Loads
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