Near-net-shape manufacturing: Spray-formed metal matrix composites and toolingSpray forming is a materials processing technology in which a bulk liquid metal is converted to a spray of fine droplets and deposited onto a substrate or pattern to form a near-net-shape solid. The technology offers unique opportunities for simplifying materials processing without sacrificing, and oftentimes substantially improving, product quality. Spray forming can be performed with a wide range of metals and nonmetals, and offers property improvements resulting from rapid solidification (e.g. refined microstructures, extended solid solubilities and reduced segregation). Economic benefits result from process simplification and the elimination of unit operations. The Idaho National Engineering Laboratory is developing a unique spray-forming method, the Controlled Aspiration Process (CAP), to produce near-net-shape solids and coatings of metals, polymers, and composite materials. Results from two spray-accompanying technical and economic benefits. These programs involved spray forming aluminum strip reinforced with SiC particulate, and the production of tooling, such as injection molds and dies, using low-melting-point metals.
Document ID
19940025942
Acquisition Source
Headquarters
Document Type
Conference Paper
Authors
Mchugh, Kevin M. (Idaho National Engineering Lab. Idaho Falls, ID, United States)
Date Acquired
September 6, 2013
Publication Date
February 1, 1994
Publication Information
Publication: NASA, Washington, Technology 2003: The Fourth National Technology Transfer Conference and Exposition, Volume 1
IDRelationTitle19940025124Collected WorksThe 27th Aerospace Mechanisms Symposium19940025935Collected WorksTechnology 2003: Conference Proceedings from the Fourth National Technology Transfer Conference and Exposition, Volume 119940025124Collected WorksThe 27th Aerospace Mechanisms Symposium19940025935Collected WorksTechnology 2003: Conference Proceedings from the Fourth National Technology Transfer Conference and Exposition, Volume 1