Preparation and Thermal Safety of Ammonium Polyphosphate Doping Silica Aerogels: Effects of Content and Polymerization
Zhiyu Huo, Yumin Duan, Shaoqian Zhang, Yikai Zhu, Qiao Wang, Zhi Li, Xiaoxu Wu

TL;DR
This paper shows how adding ammonium polyphosphate to silica aerogels improves their thermal safety without losing their insulating properties.
Contribution
A novel strategy using different polymerization degrees of ammonium polyphosphate to enhance the flame retardancy of silica aerogels is proposed.
Findings
High-polymerization APP reduced the gross calorific value by 31.01%, outperforming low-polymerization APP.
APP addition slightly increased thermal conductivity but preserved excellent thermal insulation and hydrophobicity.
The composite maintained high porosity (91-96%) and low density (0.095-0.196 g/cm³) with improved thermal safety.
Abstract
Hydrophobic silica aerogels (SAs) have attracted much attention because of their excellent thermal insulation performance and have potential applications in energy conservation and emission reduction. However, the organic groups on its surface are flammable, which brings security risks and limits its application scope. In this study, two kinds of ammonium polyphosphate (APP) with different polymerization degrees, namely low-polymerization-degree APP (LAPP) and high-polymerization-degree APP (HAPP), were introduced into SA to prepare APP/SA composites, to improve the thermal safety of the materials. The results showed that APP with two polymerization degrees significantly delayed the initial decomposition and peak temperature of heat flow, and HAPP reduced the gross calorific value by 31.01% at most, which is 29.04% greater than that of LAPP, indicating that the effect of HAPP was…
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Taxonomy
TopicsAerogels and thermal insulation · Surface Modification and Superhydrophobicity · Magnesium Oxide Properties and Applications
