Tailoring the Microstructure and Mechanical Properties of Phenolic Aerogels with Graphene Oxide
Congyan Hu, Lei Chen, Zixuan Lei, Yafei Li, Liwei Wang, Yiming Yang, Tong Zhao, Hao Li

TL;DR
This paper shows how adding graphene oxide to phenolic aerogels improves their mechanical strength while keeping good thermal insulation.
Contribution
The novel contribution is using graphene oxide to enhance the compressive properties of phenolic aerogels without compromising thermal performance.
Findings
Modified aerogels achieved a compressive modulus of 265.52 MPa, a 67% increase over pure aerogels.
The composite maintained thermal conductivity of 0.063 W·m−1·K−1, indicating good insulation.
Graphene oxide was uniformly dispersed without disrupting the aerogel's porous structure.
Abstract
Phenolic aerogels offer low thermal conductivity, excellent thermal stability, and high char yield, but they suffer from intrinsic brittleness, low compressive modulus, and limited compressive strain. To overcome these limitations, phenolic aerogels modified with graphene oxide were synthesized and their structural, mechanical, and thermal insulation properties were evaluated. The GO fillers were uniformly dispersed in the phenolic matrix without disrupting its porous structure. Mechanical testing revealed that the modified aerogel achieved a compressive modulus of 265.52 MPa, representing a 67% increase over the pure phenolic aerogel’s value of 158.49 MPa, and a compressive strength of 40.19 MPa, compared to 6.18 MPa, for the pure sample. At the same time, the composite maintained good thermal insulation performance, with a thermal conductivity of 0.063 W·m−1·K−1. This work…
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Taxonomy
TopicsAerogels and thermal insulation · Thermal properties of materials · Fiber-reinforced polymer composites
