VEHICLE PILLAR REINFORCEMENT USING ADDITIVE MANUFACTURING

Organization Name

FORD GLOBAL TECHNOLOGIES, LLC

Inventor(s)

Mike James Freeman of Allen Park MI (US)

VEHICLE PILLAR REINFORCEMENT USING ADDITIVE MANUFACTURING - A simplified explanation of the abstract

This abstract first appeared for US patent application 18455248 titled 'VEHICLE PILLAR REINFORCEMENT USING ADDITIVE MANUFACTURING

Simplified Explanation

The present disclosure describes a method for reinforcing a corner member of a vehicle pillar using an additive manufacturing process. The method involves forming a plurality of components, including a first component and a second component, which are formed integrally as a single unit. These components are made of a functionally graded material that is deposited on the corner member using the additive manufacturing process.

• The method involves using additive manufacturing to create a reinforcement member for a vehicle pillar.
• The reinforcement member is formed by combining a first component and a second component into a single unit.
• The components are made of a functionally graded material, which means that the material composition varies throughout the reinforcement member.
• The reinforcement member is deposited onto the corner member of the vehicle pillar using the additive manufacturing process.

Potential applications of this technology:

• This technology can be used in the automotive industry to reinforce vehicle pillars, improving the overall strength and safety of the vehicle.
• It can also be applied in other industries that require strong and lightweight structures, such as aerospace or construction.

Problems solved by this technology:

• Traditional manufacturing methods for reinforcement members may be time-consuming and expensive.
• This technology allows for the creation of complex and customized reinforcement members using additive manufacturing, reducing the need for multiple components and assembly processes.

Benefits of this technology:

• The use of additive manufacturing allows for the creation of intricate and optimized reinforcement members, resulting in improved strength and performance.
• The functionally graded material provides enhanced structural properties, such as increased stiffness or impact resistance, where needed.
• This method offers a more efficient and cost-effective way to produce reinforcement members compared to traditional manufacturing methods.

Original Abstract Submitted

The present disclosure relates to a method including forming a plurality of components via an additive manufacturing process to define an integral reinforcement member and reinforcing a corner member of a vehicle pillar with the integral reinforcement member. The plurality of components include a first component and a second component. The first and second components formed integrally as a single unit. The first component and the second component include a functionally graded material that is deposited on the corner member via the additive manufacturing process.