New brazing alloys improve thermal barrier in jet engine hot section
Material scientists and ceramics component manufacturers have been developing new materials and processes that let engines run hotter and hotter in response to the aerospace industry’s focus on higher performance and lower costs.
In gas turbine engines a large amount of air from the compressor is used to cool the turbine vane and blades. The amount of air needed is determined by turbine temperature and the materials that need to be cooled. If the turbine materials need less cooling or can be made from materials that can withstand higher temperatures, this would make more air available for propulsion. Increasing the turbine’s temperature capability is thus key to improving engine efficiency. However, engines run hotter as processing temperature is increased, and this increased heat tends to degrade metals.
Inside turbines, pre-sintered preforms (PSPs) are being used to repair vanes that are breaking down due to excessive heat and wear. PSPs, with a small amount of braze alloy mixed with the parent metal, are used primarily in the turbine section for repairing vane cracks and wear areas. As temperatures continue to climb in these zones, new materials and technologies are being developed to create a better thermal barrier. This is expected to significantly lower maintenance, repair and overhaul (MRO) costs. Examples include the development of advanced braze alloys, the use of ceramics on high temperature metal to ceramic components, and the introduction of active brazing, which allows metal to be bonded directly to ceramic without metallization.
Braze alloys developed for high temperature applications Braze alloys are used in a variety of advanced military aircraft and commercial aerospace engine components and grades are being developed that directly bond ceramic to metal or other materials. Alloy compositions vary and include those designed for functional use in very high-temperature applications (750-850°C).
Alloys are selected to meet the specific service temperature conditions as well as the requirements of all the components to be joined. Examples include alloys used in new turbine hot sections, brazing silicon nitride ceramic to new super alloy engine parts. See Table 1 for an overview of available braze alloys, showing the engine part it is used in and the component/base material.
S-Bond’s active solder technology has been applied to thermal management components for power supplies, avionics and in the repair of compressor blades. - See more at: http://www.s-bond.com/markets.htm#aerospace
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