Solid objects are made by means of a novel multi-step forming, debinding, sintering and infiltrating process, using a metal-ceramic composition. In this process, the mixture is held for a period of time to degas and settle the powdered material from a liquid binder. The packed geometry is then heated to above the melting temperature of the binder to remove the binder portion of the solid geometry. Upon removal of the binder the binder-free solid geometry is raised to a temperature where the metal pre-sinters together into a three-dimensional rigid matrix with interconnected porosity to form a solid precursor. The porous matrix includes the particulate ceramic material and a first metal, which are at least partially sintered. A molten second metal is then introduced to fill the porous matrix and form an infiltrated matrix. In addition to speed of production, improvements associated with this method include a solid object having improved thermal conductivity, hardness, wear resistance and reduced shrinkage as compared with the rapid tooling techniques taught in the prior art.

Powdered material rapid production tooling method and objects produced therefrom
Application Number
Publication Number
Application Date
April 16, 1999
Publication Date
October 28, 1999
Griffo Anthony
Atre Sundar V
Thomas Julian A
Weaver Timothy J
German Randall M
The Penn State Research Foundation
C22C 01/10
B22F 03/26
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