| abstract |
Composites comprising aerogel materials are generally described. Layered aerogel composites may be of great utility for a wide variety of applications including lightweight structures, ballistic panels, multilayer thermal and acoustic insulation, spacecraft reentry shielding, supercapacitors, batteries, acoustic insulation, and flexible garments. Layered aerogel composites may be prepared by combing layers of fiber-containing sheets and multisheet plies with aerogel materials. Composites comprising mechanically strong aerogels and reticulated aerogel structures are described. Various nanocomposite aerogel materials may be prepared to facilitate production of composites with desirable functions and properties. Layered aerogel composites and related aerogel materials described in the present disclosure have not been previously possible due to a lack of viable aerogel formulations, a lack of methods for adhering and joining aerogel materials to each other and other materials, and a lack of methods that enable combining of fibrous materials and aerogels into layered structures in the same material envelope. Aerogel composites described herein enable specific capabilities that have not been previously possible with aerogels or through other means, for example, the ability to efficiency slow impacts from bullets and other ballistic bodies using a lightweight (<2 g/cm 3 density) material, bear load as structural members at a fraction of the weight of conventional technologies, or simultaneously serve as a structural or flexible material that stores electrical energy. |