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Chase Cox
Researcher at Vanderbilt University
Publications - 38
Citations - 1122
Chase Cox is an academic researcher from Vanderbilt University. The author has contributed to research in topics: Friction stir welding & Welding. The author has an hindex of 14, co-authored 36 publications receiving 826 citations. Previous affiliations of Chase Cox include Schlumberger.
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Journal ArticleDOI
Friction stir welding: Process, automation, and control
Brian T. Gibson,D.H. Lammlein,Tracie Prater,William R. Longhurst,Chase Cox,Marjorie C. Ballun,K.J. Dharmaraj,George E. Cook,Alvin M. Strauss +8 more
TL;DR: In this article, the basic principles of friction stir welding (FSW) are discussed, including terminology, material flow, joint configurations, tool design, materials, and defects, with an emphasis on recent advances in aerospace, automotive, and ship building.
Journal ArticleDOI
Non-beam-based metal additive manufacturing enabled by additive friction stir deposition
Hang Z. Yu,Mackenzie E. Jones,George W. Brady,R. Joey Griffiths,David Garcia,Hunter A. Rauch,Chase Cox,Nanci Hardwick +7 more
TL;DR: The additive friction stir deposition (ASD) as mentioned in this paper is a fast, scalable, solid-state process that results in refined microstructures and has flexible options for feed materials.
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A Perspective on Solid-State Additive Manufacturing of Aluminum Matrix Composites Using MELD
R. Joey Griffiths,Mackenzie E. J. Perry,Jennifer M. Sietins,Yunhui Zhu,Nanci Hardwick,Chase Cox,Hunter A. Rauch,Hang Z. Yu +7 more
TL;DR: The additive friction stir (MELD) process is an emerging solid-state process that enables additive manufacturing of a broad range of metals and metal matrix composites as mentioned in this paper, such as Al-SiC, Al 6061-Mo, and Al 60 61-W composites.
Journal ArticleDOI
Heated Friction Stir Welding: An Experimental and Theoretical Investigation into How Preheating Influences Process Forces
Paul C. Sinclair,William R. Longhurst,Chase Cox,David H. Lammlein,Alvin M. Strauss,George E. Cook +5 more
TL;DR: In this article, the authors investigate the advantages of elevating temperature for friction stir welding and find that the process forces do not decrease steadily with increasing initial temperature, as might be expected, but exhibit a more complex polynomial shape.
Journal ArticleDOI
The friction stir welding of small-diameter pipe: an experimental and numerical proof of concept for automation and manufacturing
TL;DR: In this article, full penetration friction stir welds are performed on butted sections of alumin-ium alloy 6061-T6 pipe, which are relatively small in diameter (4.2 inches) and relatively thin walled (0.2 inch).