Litcius/Paper detail

Time, temperature and water aging failure envelope of thermoset polymers

Dennis Gibhardt, Andrey E. Krauklis, Audrius Doblies, Abedin I. Gagani, Alisa Sabalina, Olesja Starkova, Bodo Fiedler

2022Polymer Testing28 citationsDOIOpen Access PDF

Abstract

Epoxies and epoxy-based fiber reinforced polymers (FRP) are significantly affected by environmental impacts during their service life. Exposures to water, humidity, temperature and UV radiation are known to substantially influence the (thermo-) mechanical properties and durability of the materials. Design-relevant characteristics like strength, stiffness, or the glass transition temperature change with time. Therefore, expensive test campaigns are often necessary in advance of a structural design. Prediction models based on physical relations or phenomenological observations are typically required to reduce costs and increase reliability. Consequently, a combined methodology for fast prediction of long-term properties and accelerated aging purposes is presented in this work for a common DGEBA-based epoxy. Therefore, master curves are obtained by creep and constant-strain-rate tests under temperature and moisture impact. A combined time–temperature–water superposition and the Larson–Miller parametrization demonstrate that time-saving CSR tests and modeling can replace long-lasting creep testing. Resulting, the presented methodology allows to determine a polymer’s entire (environmental) failure envelope in a relatively short time and with low testing effort.

Topics & Concepts

Thermosetting polymerMaterials sciencePolymerComposite materialEnvelope (radar)Polymer scienceComputer scienceRadarTelecommunicationsEpoxy Resin Curing ProcessesMechanical Behavior of CompositesHigh voltage insulation and dielectric phenomena