Invention Grant
- Patent Title: Density enhancement methods and compositions
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Application No.: US14912661Application Date: 2014-08-18
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Publication No.: US10207327B2Publication Date: 2019-02-19
- Inventor: Adam Bayne Hopkins , Salvatore Torquato
- Applicant: The Trustees of Princeton University , UNIFORMITY LABS, INC.
- Applicant Address: US NJ Princeton US CA Menlo Park
- Assignee: The Trustees of Princeton University,Uniformity Labs, Inc.
- Current Assignee: The Trustees of Princeton University,Uniformity Labs, Inc.
- Current Assignee Address: US NJ Princeton US CA Menlo Park
- Agency: Seyfarth Shaw LLP
- International Application: PCT/US2014/051468 WO 20140818
- International Announcement: WO2015/073081 WO 20150521
- Main IPC: B32B5/18
- IPC: B32B5/18 ; B22F7/00 ; B33Y10/00 ; B23K26/342 ; B22F7/02 ; B28B1/00 ; C04B35/111 ; C04B35/547 ; C04B35/56 ; B33Y70/00 ; C04B28/02 ; C04B20/00 ; B22F1/00 ; B22F3/105 ; B23K26/354 ; B22F3/11 ; B23K26/00 ; B29C45/00 ; C03C3/04 ; C03C12/00 ; C04B35/626 ; C22C14/00 ; C22C32/00 ; C22C38/00 ; C22C38/02 ; C22C38/44 ; C22C38/56 ; B29C64/153 ; B29C64/165 ; B29C64/20 ; B33Y30/00 ; B33Y40/00 ; C22C1/04 ; C22C29/08 ; C22C1/08 ; B29K105/00
Abstract:
The present invention relates to granular composite density enhancement, and related methods and compositions. The applications where these properties are valuable include but are not limited to: 1) additive manufacturing (“3D printing”) involving metallic, ceramic, cermet, polymer, plastic, or other dry or solvent-suspended powders or gels, 2) concrete materials, 3) solid propellant materials, 4) cermet materials, 5) granular armors, 6) glass-metal and glass-plastic mixtures, and 7) ceramics comprising (or manufactured using) granular composites.
Public/Granted literature
- US20160200045A1 DENSITY ENHANCEMENT METHODS AND COMPOSITIONS Public/Granted day:2016-07-14
Information query
