Advanced Composites Improving Aerospace Applications

Aerospace industries must operate on the cutting-edge of technology in order to develop superior aircrafts. Manufacturers from these industries demand materials that encapsulate the most advanced properties possible. For this reason, engineers are looking toward advanced composites to replace inefficient components, as well as improve aerospace applications.

Advanced composites can be manufactured to meet application-specific requirements. Suppliers like Composites One provide all of the technical resources and a variety of composite materials tailored to meet aerospace and defense applications. These structures are replacing even the most common metals such as steel, aluminum, and titanium.

Why Aerospace Manufacturers Utilize Composites

The aerospace markets demand high performance materials that both reduce weight and improve overall strength. Researchers and engineers from these industries are utilizing advanced composites in ways not previously applied.  Advanced composites such as carbon fiber, pre-impregnated materials, and high-end resin formulations offer manufacturers the opportunity to dramatically reduce weight, increase strength, and improve overall durability. The properties required to develop the most advanced aerospace structures can be met by advanced composites.

Advanced Composites in Military Aircrafts

Military engineers experiment with the most advanced materials available to them, and advanced composites are making an impact in aerospace defense manufacturing. For example, the United States Air Force has experimented with the replacing traditional materials such as titanium with composites. Advanced composites offer these engineers the possibility to not only reduce weight but also reduce cost. These advanced structures can be developed with the finalized properties in mind, thereby reducing the room for error and the need to waste unnecessary materials. The overall goal of researching the properties and limitations of advanced composites is to have these advancements transfer into actual aereospace defense applications, and then eventually commercial applications.

Transitioning from Aerospace and Defense Research

As mentioned above, the goal of experimenting with advanced composites is to eventually implement these advanced technologies into real-world applications. This is a major benefit for aerospace defense applications, as well as the overall market for advanced composites. 

Aerospace defense applications benefit greatly from the implementation of advanced composites. Engineers and manufacturers can utilize these structures to improve overall durability, dramatically reduce weight, as well as improve structural strength all at a reduced cost. Composites are gaining popularity, and as more research uncovers the capabilities of advanced fibers and high-end resin formulations, we can expect to find these high performance materials implemented in new applications. 

Composites One is the leading supplier of composite and high performance materials in North America. Our team of technical sales representatives is available to help manufacturers determine the best material to use for their production. Contact us today for more information about how Composites One can help you meet your quality and performance goals, or fill out the contact form on our website.