![]() ![]() Examples include Li-Ion batteries Boyce2022 Ai2022, hydrogels Pan2022, magnetorheological elastomers Rambausek2022 Moreno-Mateos2023, and piezo-electric and piezo-resistive materials Wu2021b Quinteros2023, to name a few. ![]() In addition, numerous modern devices and concepts involve multi-physics environments and mechanical loads, which are either applied externally or induced by other physical phenomena, such as thermal expansion, chemical strains or magnetic forces. Predicting these structural integrity problems requires coupling state-of-the-art material models with equations describing chemical, electrical and thermal phenomena CMAME2018 JMPS2020 Valverde-Gonzalez2022 Cui2022 hageman2023stabilising. Multi-physics structural integrity problems such as hydrogen embrittlement AM2016 Gobbi2019, corrosion JMPS2021 Ansari2021, and oxidation-assisted fatigue Reuchet1983 LeoPrakash2009 continue to challenge scientists and engineers. The mechanical behaviour of structures and industrial components is relatively well understood in inert environments but challenges arise as a result of material-environment interactions. Coupling multiple physical phenomena in continuum solids is a major research focus RILEM2021 Mianroodi2022. ![]()
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