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The space industry is continuously innovating and developing advanced technologies with the objective of enhancing space capabilities. Hence, the industry is developing enhanced satellite systems as well as technologically advanced components that will enhance the performance of the satellites.
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The advanced space composites market research study offers a broad perspective on the analysis of the industry. The research is based on extensive primary interviews (in-house experts, industry leaders, and market players) and secondary research (a host of paid and unpaid databases), along with the analytical tools that have been used to build the forecast and the predictive models.
The several space programs and advancements in space research have been the primary focus of many developed and developing countries. The space activities provide the country with a broad scope of beneficial applications, which includes citizen development, mass communication, agriculture, economy, defense, scientific and medical research.
When the Apollo capsule was developed, the composites industry was still in its early stages, and the materials were not yet used widely in the space industry. The Apollo capsule used early composite technology in the form of an ablative heat shield made from Avcoat, an epoxy novolac resin with silica fibers in a fiberglass-phenolic honeycomb matrix. A fiberglass honeycomb was bonded to the primary structure, and the paste-like material was injected into each cell individually. Since the development of Apollo, advanced composites have progressed and have played a significant role in space programs with use in launch vehicles, the space shuttle, satellites, space telescopes, and the International Space Station.
Liquid resin infusion has been used in composites manufacturing for decades. It is being used to produce large aerostructures and is a serious contender for the high-rate manufacturing of single-aisle commercial aircraft. Compression molding has also been used in the past and is one of the enabling technologies for high-volume autocomposites manufacturing. The technological advancement in the composites industry for creating the next generation of materials and processes does not depend on developing new materials but adapting proven technologies to serve highly dynamic and demanding applications.
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Once the technology becomes available, small satellite constellation systems can perform better, cost less to launch, and operate equivalent to conventional satellite systems. This is expected to enhance the global advanced space composites market during the forecast period.