Invention Grant
- Patent Title: Additive manufacturing system utilizing an epitaxy process and method of operation
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Application No.: US15109351Application Date: 2015-01-15
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Publication No.: US10012088B2Publication Date: 2018-07-03
- Inventor: Thomas N. Slavens , Thomas J. Martin , Alexander Staroselsky , Sergey Mironets , Brooks E. Snyder , Mark F. Zelesky
- Applicant: United Technologies Corporation
- Applicant Address: US CT Farmington
- Assignee: United Technologies Corporation
- Current Assignee: United Technologies Corporation
- Current Assignee Address: US CT Farmington
- Agency: O'Shea Getz P.C.
- International Application: PCT/US2015/011617 WO 20150115
- International Announcement: WO2015/109102 WO 20150723
- Main IPC: C30B13/06
- IPC: C30B13/06 ; F01D5/14 ; B22F5/04 ; B22F3/105 ; B33Y10/00 ; B33Y30/00 ; B33Y40/00 ; B33Y50/02 ; B23K26/342 ; B23K26/70 ; B23K15/00 ; B23K15/02 ; B23K26/00 ; C30B13/24 ; C30B29/52 ; F01D5/30 ; C30B11/00 ; C30B11/14 ; C30B29/60 ; B23K101/00 ; B23K103/08
Abstract:
An additive manufacturing system utilizing an epitaxy process, and method of manufacture, utilizes a heating source and a cooling source to control thermal gradients and a solidification rate of each slice of a workpiece manufactured from a seed having a directional grain microstructure. An energy gun is utilized to melt selected regions of each successive layer of a plurality layers of a powder in a powder bed to successively form each solidified slice of the workpiece.
Public/Granted literature
- US20160326880A1 AN ADDITIVE MANUFACTURING SYSTEM UTILIZING AN EPITAXY PROCESS AND METHOD OF OPERATION Public/Granted day:2016-11-10
Information query
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