2020 journal article

Form-stable phase-change elastomer gels derived from thermoplastic elastomer copolyesters swollen with fatty acids

THERMOCHIMICA ACTA, 686.

By: D. Armstrong  n, K. Chatterjee n , T. Ghosh n  & R. Spontak n 

co-author countries: United States of America πŸ‡ΊπŸ‡Έ
author keywords: Thermoplastic elastomer; Physical crosslinking; Thermal storage; Phase-change material; Energy conservation
Source: Web Of Science
Added: May 8, 2020

Phase-change materials (PCMs) are of considerable scientific and technological interest in applications related to energy management and storage, especially as they pertain to residential or commercial construction and packaging. Most PCMs developed for these purposes consist of a crystallizable species encapsulated within an impermeable polymeric shell. Such encapsulants can then be strategically embedded throughout a construct to promote thermal stability in close proximity to the normal melting point of the encapsulated species. In this study, we introduce form-stable PCMs, which avoid the need for costly and inconvenient encapsulation and consist of commercial thermoplastic elastomer copolyesters selectively swollen with crystallizable fatty acids. Since the copolyester matrices endow the PCMs with solid-like characteristics even when swollen with liquid, we refer to this particular class of materials as phase-change elastomer gels (PCEGs). In this study, we explore the thermal characteristics of PCEG films wherein the copolyester grade, gel composition and fatty acid are all varied. Our results indicate that these PCEGs exhibit non-hysteretic thermal cycling, unaffected transition temperatures, and competitive latent transition heats. Relative to model and commercially available encapsulated PCMs, the form-stable PCEGs examined here afford an alternative capable of superior thermal performance and versatility.