Free form fabrication of metallic components
First Claim
1. A method of selective sintering of a powder, comprising the steps of:
- mixing powders of a base metal, a lower melting temperature metal, and a polymer binder to form a powder blend;
spreading a layer of said powder blend on a platform;
directing a beam of energy onto selected areas of said layer of said powder blend to melt said polymer binder, said polymer binder resolidifying to bind said metal powders in said selected areas; and
heating said selected areas of bound metal powders to eliminate said polymer binder and to densify said selected areas by transient liquid sintering and isothermal resolidification at a temperature sufficient to melt said lower melting temperature powder but not said base metal powder.
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Abstract
A method of free form fabrication of metallic components, typically using computer aided design data, comprises selective laser binding and transient liquid sintering of blended powders. The powder blend includes a base metal alloy, a lower melting temperature alloy, and a polymer binder that constitutes approximately 5-15% of the total blend. A preform part is built up, layer-by-layer, by localized laser melting of the polymer constituent, which rapidly resolidifies to bind the metal particles. The binder is eliminated from the preform part by heating in a vacuum furnace at low atmospheric pressure. The preform part may require support during elimination of the polymer binder and subsequent densification by controlled heat treatment. Densification is performed at a temperature above the melting point of the lower temperature alloy but below the melting point of the base metal alloy to produce transient liquid sintering of the part to near full density with desired shape and dimensional tolerances. The densified part may be subjected to a final hot isostatic pressing (HIP) treatment to close residual porosity and complete the chemical homogenization of the part. Elimination of residual porosity improves fatigue properties of part, and homogenization improves ambient temperature ductility, toughness, and high temperature strength. An advantage of the process is rapid production of complex shaped metal prototypes and complete small batch production runs of high cost metal components without special tooling or machining operations.
293 Citations
20 Claims
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1. A method of selective sintering of a powder, comprising the steps of:
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mixing powders of a base metal, a lower melting temperature metal, and a polymer binder to form a powder blend; spreading a layer of said powder blend on a platform; directing a beam of energy onto selected areas of said layer of said powder blend to melt said polymer binder, said polymer binder resolidifying to bind said metal powders in said selected areas; and heating said selected areas of bound metal powders to eliminate said polymer binder and to densify said selected areas by transient liquid sintering and isothermal resolidification at a temperature sufficient to melt said lower melting temperature powder but not said base metal powder. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method of free form fabrication of metallic components, comprising the steps of:
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blending powders of a base metal, a lower melting temperature metal, and a polymer binder to form a powder blend; spreading a layer of said powder blend on a platform; directing a beam of energy onto selected areas of said layer of blended powder to cause localized melting of said polymer binder, said polymer binder resolidifying to bind said metal powders in said selected areas; repeating said steps of spreading said powder blend and directing said energy beam onto selected areas to build up a preform part of bound powders; providing support for said preform part; heating said preform part to vaporize and eliminate said polymer binder from said preform part; and densifying said preform part by transient liquid sintering and isothermal resolidification at a temperature sufficient to melt said lower melting temperature powder but not said base metal powder. - View Dependent Claims (12, 13, 14, 15, 16)
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17. A method of free form fabrication of metallic components, comprising the steps of:
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forming a powder blend comprising powders of a base metal, a lower melting temperature alloy of said base metal, and a high purity nylon binder comprising fine spherical particles; spreading a layer of said powder blend on a platform; directing a laser beam onto selected areas of said layer of blended powder to cause localized melting of said nylon binder, said melted nylon binder resolidifying to bind said metal powders in said selected areas; repeating said steps of spreading said powder blend and directing said laser beam onto selected areas to build up a preform part of bound powders; providing support for said preform part; heating said preform part to vaporize and eliminate said nylon binder from said preform part; and densifying said supported preform part by transient liquid sintering and isothermal resolidification at a temperature sufficient to melt said lower melting temperature alloy powder but not said base metal powder. - View Dependent Claims (18, 19, 20)
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Specification
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- Resources
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Current AssigneeTeledyne Scientific & Imaging, LLC (Teledyne Technologies Incorporated)
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Original AssigneeRockwell International Corporation
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InventorsBurkett, Robert, Bampton, Clifford C., Ryang, Hong-Son
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Primary Examiner(s)Jordan, Charles T.
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Assistant Examiner(s)CHI, ANTHONY
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Application NumberUS08/530,770Time in Patent Office952 DaysField of Search419/37, 419/47, 419/49, 419/52, 419/54US Class Current419/37CPC Class CodesB22F 1/09 Mixtures of metallic powdersB22F 1/10 Metallic powder containing ...B22F 10/16 by embedding the binder wit...B22F 10/34 of powder characteristics, ...B22F 10/37 of powder bed aspects, e.g....B22F 10/43 characterised by materialB22F 10/47 characterised by structural...B22F 2003/1042 with support for articles t...B22F 2998/00 Supplementary information c...B22F 2998/10 Processes characterised by ...B22F 3/10 Sintering onlyB22F 3/1021 Removal of binder or filler...B29K 2503/06 Metal powders, metal carbid...B33Y 10/00 Processes of additive manuf...B33Y 40/00 Auxiliary operations or equ...B33Y 40/20 Post-treatment, e.g. curing...B33Y 70/00 Materials specially adapted...Y02P 10/25 Process efficiency
