TY - JOUR AB - Purpose– The encapsulation of electronic assemblies within thermoplastic polymers is an attractive technology for the protection of circuitry used in harsh environments, such as those experienced in automotive applications. However, the relatively low‐thermal conductivity of the encapsulating polymer will introduce a thermally insulating barrier, which will impact on the dissipation of heat from the components and may result in the build‐up of stresses in the structure. This paper therefore seeks to present the results from computational models used to investigate the thermal and thermo‐mechanical issues arising during the operation of such electronic modules. In particular, a two‐shot overmoulded structure comprising an inner layer of water soluble and an outer layer of conventional engineering thermoplastics was investigated, due to this type of structure's potential to enable the easy separation of the electronics from the polymer at the end‐of‐life for recycling.Design/methodology/approach– Representative finite element models of the overmoulded electronic structures were constructed and the effects of the polymer overmould were analysed through thermal and thermo‐mechanical simulations. Investigations were also carried out to explore the effect of materials properties on the overmoulded structure.Findings– Models have shown that some power de‐rating of components is required to prevent temperatures exceeding those in unencapsulated circuits and have quantified the benefits of adding thermally conductive fillers to the polymer. Simulations have also clearly demonstrated the benefits of foamed polymers in reducing thermal stresses in the assemblies, despite their poorer thermal conductivity compared with solid polymers.Originality/value– The paper illustrates the thermal issues affecting the overmoulded electronics and gives some guidelines for improving their performance. VL - 24 IS - 3 SN - 1356-5362 DO - 10.1108/13565360710818439 UR - https://doi.org/10.1108/13565360710818439 AU - Sarvar Farhad AU - Whalley David C. AU - Hutt David A. AU - Palmer Paul J. AU - Joo Teh Nee PY - 2007 Y1 - 2007/01/01 TI - Thermal and thermo‐mechanical modelling of polymer overmoulded electronics T2 - Microelectronics International PB - Emerald Group Publishing Limited SP - 66 EP - 75 Y2 - 2024/04/19 ER -