SEALING INTERFACE

Organization Name

Raytheon Technologies Corporation

Inventor(s)

Robert A. White, Iii of Meriden CT (US)

Brian T. Hazel of Avon CT (US)

Raymond Surace of Newington CT (US)

SEALING INTERFACE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18157450 titled 'SEALING INTERFACE

Simplified Explanation: This patent application describes a gas turbine engine section with a ceramic component, a metallic component, a seal between them, a silicon-based coating on the ceramic component, and a non-reactive coating on the metallic component to prevent interaction.

• The patent application focuses on a gas turbine engine section with specific components and coatings.
• The seal between the ceramic and metallic components is crucial for the engine's performance.
• The silicon-based coating on the ceramic component and the non-reactive coating on the metallic component provide protection against interaction.
• The innovation aims to enhance the durability and efficiency of gas turbine engines.
• The method disclosed in the patent application offers a novel approach to sealing in gas turbine engines.

Potential Applications: This technology can be applied in various gas turbine engines used in aviation, power generation, and other industrial applications where high temperatures and pressures are involved.

Problems Solved: This technology addresses the challenge of preventing interaction between ceramic and metallic components in gas turbine engines, which can lead to degradation and reduced performance over time.

Benefits: The technology offers improved durability, efficiency, and reliability of gas turbine engines, leading to reduced maintenance costs and increased operational lifespan.

Commercial Applications: Potential commercial applications include aircraft engines, power plants, and other industrial machinery utilizing gas turbine technology. This innovation can lead to more reliable and cost-effective engine solutions in the market.

Questions about Gas Turbine Engine Seal Technology: 1. How does the silicon-based coating on the ceramic component contribute to the seal's effectiveness? 2. What are the potential long-term cost savings associated with implementing this technology in gas turbine engines?

Original Abstract Submitted

A section of a gas turbine engine includes a ceramic component, a metallic component, a seal situated between the metallic component and the ceramic component at a sealing interface, a silicon-based coating disposed on the ceramic component at the sealing interface, and a non-reactive coating disposed on the metallic component at the sealing interface. The non-reactive coating provides thermochemical protection against interaction between the ceramic component, the silicon-based coating, and the metallic component. A method of providing a seal in a gas turbine engine is also disclosed.