US2019001412A1PendingUtilityA1

Shrinking support structures

78
Assignee: DESKTOP METAL INCPriority: Apr 14, 2016Filed: Sep 5, 2018Published: Jan 3, 2019
Est. expiryApr 14, 2036(~9.7 yrs left)· nominal 20-yr term from priority
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Claims

Abstract

A variety of additive manufacturing techniques can be adapted to fabricate a substantially net shape object from a computerized model using materials that can be debound and sintered into a fully dense metallic part or the like. However, during sintering, the net shape will shrink as binder escapes and the base material fuses into a dense final part. If the foundation beneath the object does not shrink in a corresponding fashion, the resulting stresses throughout the object can lead to fracturing, warping, or other physical damage to the object resulting in a failed fabrication. To address this issue, a variety of techniques are disclosed for substrates and build plates that contract in a manner complementary to the object during debinding and sintering.

Claims

exact text as granted — not AI-modified
What is claimed is: 
     
         1 . A method comprising:
 fabricating a support structure including a substrate for an object from a support material having at least one of a debind shrinkage rate and a sintering shrinkage rate matching a build material; and   fabricating an object from the build material on the support structure, wherein the object has a net shape based on a computerized model, wherein the build material includes a powdered material for forming a final part and a binder system including one or more binders, wherein the one or more binders resist deformation of the object during a fabrication, a debinding, and a sintering of the object into the final part, and wherein the support structure is configured to match a shrinkage of the object during at least one of the debinding and the sintering.   
     
     
         2 . The method of  claim 1  further comprising fabricating the support structure on a build plate formed of a material that is debindable and sinterable. 
     
     
         3 . The method of  claim 1  wherein fabricating the support structure includes fabricating a build plate for use as the support structure by injection molding the build plate with the support material. 
     
     
         4 . The method of  claim 1  wherein fabricating the support structure includes fabricating a structural support for at least one of a bridge or an overhang in the object from the support material. 
     
     
         5 . The method of  claim 1  wherein the support material has a composition substantially similar to the build material. 
     
     
         6 . The method of  claim 1  wherein the substrate includes two or more independent substrate plates coupled by a number of tie bars that move the independent substrate plates together at a rate corresponding to a shrinkage of the object during at least one of the debinding and the sintering. 
     
     
         7 . The method of  claim 1  wherein the object has two or more discrete and separate contact surfaces in a plane along a top surface of the substrate, wherein the substrate comprises two or more corresponding separate substrate regions formed about a projection of each of the two or more discrete and separate contact surfaces, the substrate further comprising at least one tie bar coupling the two or more discrete and separate contact surfaces to one another in order to facilitate a movement of the corresponding separate substrate regions in a manner geographically matched to a motion of the two or more discrete and separate contact surfaces during at least one of the debinding and the sintering. 
     
     
         8 . The method of  claim 1  wherein a shape of the substrate is based upon a convex hull of a projection of the object into a plane of a build plate that receives the object during fabrication. 
     
     
         9 . The method of  claim 8  wherein the shape is a shell uniformly displaced by a predetermined offset from the convex hull of the projection. 
     
     
         10 . The method of  claim 8  wherein the shape of the substrate includes an interior opening formed by a shell displaced by a second predetermined offset from an interior boundary of the projection. 
     
     
         11 . The method of  claim 1  wherein the substrate includes a plurality of perforations through the substrate positioned to provide a drainage route through the substrate for a debind solvent. 
     
     
         12 . The method of  claim 11  wherein the plurality of perforations extend from a top surface of the substrate to a bottom surface of the substrate within regions of the substrate where an adjacent layer of the object does not vertically cover the substrate. 
     
     
         13 . The method of  claim 11  wherein the plurality of perforations extend from a top surface of the substrate to one or more side surfaces of the substrate. 
     
     
         14 . The method of  claim 11  further comprising positioning the plurality of perforations in the substrate independently from a geometry of the object. 
     
     
         15 . The method of  claim 11  wherein the plurality of perforations are positioned within a region of the substrate enclosed in an x-y plane of the substrate by a vertical wall of the object extending in a z-axis from a top surface of the substrate and surrounding the region of the substrate. 
     
     
         16 . The method of  claim 1  wherein the substrate forms a continuous, closed surface below a projection of the object into a plane of a build plate that receives the object during fabrication. 
     
     
         17 . The method of  claim 1  further comprising fabricating an interface layer between the support structure and the object that resists bonding of the support structure to the object during sintering. 
     
     
         18 . The method of  claim 1  wherein the substrate includes at least one of a raft, a shrink raft, a shrinking substrate, a setter, a sintering setter, a print bed, or a build plate. 
     
     
         19 . A method comprising:
 fabricating a support structure including a substrate for an object from a support material;   fabricating an interface layer that resists bonding of the support structure to the object during sintering; and   fabricating an object from a build material on the support structure, wherein the object has a net shape based on a computerized model, wherein the build material includes a powdered material for forming a final part and a binder system including one or more binders, wherein the one or more binders resist deformation of the object during a fabrication, a debinding, and a sintering of the object into the final part, and wherein the substrate contracts in a manner complementary to the object during debinding and sintering.   
     
     
         20 . A method comprising:
 receiving an article including a support structure formed of a support material having at least one of a debind shrinkage rate and a sintering shrinkage rate matched to a build material, an object fabricated from the build material on the support structure, wherein the build material includes a powdered material for forming a final part and a binder system including one or more binders that resist deformation of the object during a fabrication, a debinding, and a sintering of the object into the final part, and an interface layer between the object and the support structure that resists bonding of the support structure to the object during sintering; and   processing the article to form the object into the final part, wherein processing includes at least one of debinding the article and sintering the article.

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