Modeling and Experimental Study of Advanced Materials for Aerospace

Author

Joseph William Newkirk, Missouri University of Science and TechnologyFollow
Frank W. Liou, Missouri University of Science and TechnologyFollow
Karen M. Brown Taminger
William J. Seufzer
Zhiqiang Fan
Harihar R. Sistla
Sreekar Karnati

Abstract

Laser and Electron beam deposition are capable of producing a number of high performance alloys systems, as well as many advanced materials. Advanced materials include functionally gradient materials, structural amorphous materials, extended solubility alloys, and high entropy alloys. In order to develop these capabilities and materials a program combining modeling and simulation with experimental trials and validation is being carried out. Mo S&T’s laser systems and NASA Langley’s EBF3 are being modeled and the various issues involved with successfully being able to produce advanced materials on a component level with full functionality are being investigated. Examples outlining the progress in this program will be presented.

Recommended Citation

J. W. Newkirk et al., "Modeling and Experimental Study of Advanced Materials for Aerospace," Proceedings of the Materials Science & Technology Conference and Exhibition (2011, Montreal, Quebec, Canada), Oct 2013.

Meeting Name

Materials Science & Technology Conference and Exhibition (MS&T '13) (2011: Oct. 27-31, Montreal, Quebec, Canada)

Department(s)

Materials Science and Engineering

Second Department

Mechanical and Aerospace Engineering

Document Type

Article - Conference proceedings

Document Version

Citation

File Type

text

Language(s)

English

Publication Date

31 Oct 2013