AUTHOR=Wang Hui , Yan Rui , Cheng Hua , Zou Mingmin , Wang Hua , Zheng Kang 

TITLE=Hollow glass microspheres/phenolic syntactic foams with excellent mechanical and thermal insulate performance

JOURNAL=Frontiers in Chemistry

VOLUME=11

YEAR=2023

URL=https://www.frontiersin.org/journals/chemistry/articles/10.3389/fchem.2023.1216706

DOI=10.3389/fchem.2023.1216706

ISSN=2296-2646

ABSTRACT=<p>Syntactic foams with low density as well as low thermal conduction and proper mechanical performance are vitally important for aerospace, marine, and automotive industries. Here, phenolic-based syntactic foams were fabricated by combining the hollow glass microsphere (GMs) with phenolic resin of <italic>in situ</italic> synthesis. Benefited from the stirring and hot-pressing treatment, microspheres dispersed homogeneously in the resin matrix and it greatly reduced the density of the composites. Stretching and compression tests were performed to investigate the mechanical behavior of the foams. It is found that both the compressive and tensile strength decreased as the filler loadings increasing. While the elasticity modulus was improved. On the other hand, thermal properties tests revealed superior thermal stability and thermal insulate performance of the composites. The final residue content of the synthetic foam with 40 wt% filler was improved by ∼31.5% than that of the neat one at 700°C. And samples with 20 wt% microspheres reached a minimum thermal conductivity value of approximately 0.129 W (m·K)<sup>−1</sup> which is ∼46.7% lower than that of neat resin [0.298 W (m·K)<sup>−1</sup>]. This work provides a feasible strategy to construct syntactic foams with low density and ideal thermal properties.</p>