How Does Automated Aircraft Work? A Guide to the Composites Used for Urban Aircraft Mobility

By Bill Carson  |  October 19, 2022

When creating aircraft for defense applications and more, engineers prioritize strength, weight, and reliability. These forces work together to create an aircraft that safely transports passengers and cargo to their intended destination.

In order to meet quality and durability standards in the structure while achieving a light aircraft, the aviation and aerospace industries thrive off of the benefits provided by advanced composites, especially in a sector like urban air mobility.

Blog_AutomatedAircraft_Web

Understanding Urban Air Mobility

Urban air mobility focuses on green and efficient operations through the use of lightweight materials. This trend utilizes aircraft for deliveries and short-range and intracity travel, aiming to reduce the congestion from streets and making transportation faster overall. At the front of this movement are light and efficient components known as composites for urban air mobility, which reduce the weight of the structure while still providing a strong and competent machine.

The result is increased capacity and range and less energy required for operation. Additionally, composites used in urban air mobility are more cost-efficient as they can be recycled or maintained when needed. Overall, the capacity of these machines is able to shape the way of travel, all thanks to the components optimized for urban air mobility.

Different Composites for Urban Air Mobility

For over 50 years, carbon composites and honeycomb core systems have been used in aerospace vehicles, which is why they are being trusted as materials for urban air mobility. These composites are known for providing excellent stiffness and strength without adding a lot of weight.

For example, when carbon fiber composites are used for urban air mobility the aircraft will require less maintenance than it would if it were made with metal. This is because it does not corrode and is much more resistant to vibration fatigue, extending the overall life of the aircraft. As composites shape and continue to act as a strong foundation to urban air mobility, it is important to acknowledge their importance in other sectors like automated aircrafts.

Advancements in Automated Aircraft

When the first aircraft were developed, they relied heavily on slow and low flights. The pilots were focused on keeping the wings level and maintaining the nose on the horizon. As time progressed and technology gradually became more advanced, pilots began to take on different responsibilities. While the presence of pilots is still necessary in many types of aircraft, trends in commercial and defense applications are delivering new ways to incorporate more automation along with lightweight components.

Growth in this market and its translation into effective automated aircraft is traced specifically to artificial intelligence and the Internet of Things, which is leading to new ideas that can result in operational efficiency and cost-effectiveness. The ultimate goal of incorporating these elements is to increase precision, accuracy, and speed, just as they do with composites for urban air mobility.

As aircraft can benefit from automation, it is important to note that composite manufacturing is able to do the same. The main benefit of automated manufacturing technology is its ability to produce composites and components that are unique and efficient. It also results in increased production volume and ultimately reduces the cost per part, making more room in budgets for other components and project elements.

How Cutting Dynamics Can Help in Your Search for Materials for Urban Aircraft Mobility

If you are looking for chopped long- and short-fiber composites for urban air mobility, or other products that can be of assistance in an automated aircraft, Cutting Dynamics, Inc. is your destination. At Cutting Dynamics, we have the capability to create composites for urban air mobility and beyond. Our team has implemented processes that drive the assembly of composite components, use machining and water jet cutting of composites, and more.

The Cutting Dynamics Difference

Since 1985, our goal has been to solve aerospace technology challenges to help customers improve their aerospace and aviation operations. For over 35 years, we have been providing the aerospace industry with essential products and services.

Our knowledgeable team is ready to develop custom solutions for the commercial and defense industries with our range of skills. We value and prioritize the needs of every client, which is why we are dedicated to regularly enhancing our technology.

By manufacturing materials for urban air mobility and more, we hope to continue meeting the needs of our customers and create a reliable place for sourcing your aerospace component needs.

Contact Us Today for Composites for Urban Air Mobility

With the rising popularity of automation in the aerospace and aircraft industries, it is important to stay ahead to ensure that your transportation remains optimized with current technology and trends. Discover how our materials for urban air mobility can add value in the form of quality and budget savings today.

Want to Learn More?

Our team at Re:Build Cutting Dynamics wants to ensure that all your questions regarding Patriot missile systems, our product line, and beyond have been answered. With that in mind, feel free to contact us today with any questions you may have, as we look forward to assisting you.