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A method and apparatus for selectively sintering a layer of powder to produce a part comprising a plurality of sintered layers. The apparatus includes a computer controlling a laser to direct the laser energy onto the powder to produce a sintered mass. The computer either determines or is programmed with the boundaries of the desired cross-sectional regions of the part. For each cross-section, the aim of the laser beam is scanned over a layer of powder and the beam is switched on to sinter only the powder within the boundaries of the cross-section. Powder is applied and successive layers sintered until a completed part is formed. The powder can comprise either plastic, metal, ceramic, or polymer substance. In the preferred embodiment, the aim of the laser is directed in a continuous raster scan and the laser turned on when the beam is aimed with the boundaries of the particular cross-section being formed.

InventorCarl R. Deckard
Original AssigneeBoard of Regents, The University of Texas System
Current U.S. Classification264/497; 156/62.2; 156/272.8; 219/121.66; 219/121.8; 219/121.85; 264/113; 264/125; 264/642
International Classification: B27N 300; B32B 3100; B23K 900; B29C 6700

View patent at USPTO
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Claims

1. A method of producing a part comprising the steps of:

depositing a first portion of powder onto a target surface;
scanning the aim of a directed energy beam over the target surface;
sintering a first layer of the first powder portion corresponding to a first cross-sectional region of the part by operating the beam when the aim of the beam is within boundaries defined by said first cross-sectional region;
depositing a second portion of powder onto the first sintered layer;
scanning the aim of a directed energy beam over the first sintered layer;
sintering a second layer of the second powder portion corresponding to a second cross-sectional region of the part by operating the beam when the aim of the beam is within boundaries defined by said second cross-sectional region, including the substep of--joining
the first and second layers during the sintering of the second layer; and
depositing successive portions of powder onto the previous sintered layers and sintering each successive portion to produce successive sintered layers joined to a previous sintered layer and a part comprising a plurality of sintered layers.

2. The method according to claim 1, comprising the further steps of:

providing a control means operably connected to the directed energy mechanism; and
supplying the control means with the boundaries of each cross-sectional region of the part.

3. The method according to claim 1, comprising the further steps of:

providing a control means having a computer; and
supplying the overall dimensions of the part to the computer, the computer determining the boundaries of each cross-sectional region of the part.

4. The method according to claim 1, the scanning steps including directing the aim of the beam only within the respective boundaries of the respective cross-sectional regions.

5. The method according to claim 1, wherein the scanning and sintering steps include the steps of moving the aim of the beam in a raster scan and turning on and off the beam during the raster scan when the aim is within the boundaries.

6. The method according to claim 5, wherein the raster scan is produced by redirecting the beam in a first direction and redirecting the beam from the first direction to a second direction to impact a generally planar target area.

7. The method according to claim 5, wherein the beam is redirected using a pair of mirrors coupled to respective galvonometers, the first mirror being shifted to produce movement of the beam in the target area in a first general direction, and the second mirror being shifted to produce movement of the beam in the target area in a second general direction perpendicular to the first direction.

8. The method according to claim 1, including impregnating the part with an adhesive.

9. The method according to claim 1, wherein the powder is continuously deposited onto the target surface.

10. The method according to claim 1, wherein the powder is deposited onto the target surface in a series of discrete steps.

11. A method of forming an integral three-dimensional object, comprising the steps of:

positioning a target in proximity to means for storing and supplying a powder material;
depositing a quantity of said powder material into the area of the target;
utilizing means for directing an energy beam into the target area to change a property of at least part of said quantity of powder material to form a layer; and
repeating said depositing and utilizing steps to form a plurality of said layers;
each of said layers being integrally bonded to the next adjacent of said layers by said utilizing steps to form an integral three-dimensional object.

12. An apparatus for producing a part comprising:

means for producing a directed energy beam;
a powder dispenser having an outlet directed to a target area;
means for directing the beam to the target area and for scanning the target area with the aim of the beam in a repetitive pattern;
means for controlling the operation of the beam means to selectively sinter powder dispensed in the target area during the scanning pattern, including
computer means operatively coupled to the directing means to monitor the aim of the laser beam during the scanning pattern,
the computer means being programmed with information indicative of the desired boundaries of a plurality of cross-sectional regions of the part being produced,
The computer means being operable for modulating the beam means when the aim of the beam is within the desired boundaries of the first cross-sectional region to sinter a first layer of powder in the target area,
and for modulating the beam means when the aim of the beam is within the desired boundaries of the second cross-sectional region to sinter a second layer of powder and to join the first and second layers of powder,
and for modulating the beam means when the aim of the beam is within succeeding desired boundaries of succeeding cross-sectional regions to sinter succeeding layers of powder and to join the sintered layers to form said part.

13. An apparatus in accordance with claim 12, the computer means being programmed with the desired boundaries of a plurality of serially-arranged, parallel, cross-sectional regions of the part being produced.

14. The apparatus in accordance with claim 12,

the computer means being programmed with the overall dimensions and configuration of the part being produced, the computer means being operative to numerically divide the part into a plurality of serial, parallel, discrete, cross-sectional regions and to derive the desired boundaries for each region.

15. The apparatus in accordance with claim 12,

the programmed information being indicative of the boundaries of each cross-sectional regions of a plurality of serial, parallel, discrete, cross-sectional regions,
the computer means being operable to modulate the beam means to sequentially form a plurality of cohesive, sintered layers corresponding to the cross-sectional regions.

16. The method according to claim 1, the second cross-sectional region having different dimensions from the first cross-sectional region.

17. The apparatus according to claim 12, the respective pattern comprising a raster scan over the target area.

18. The apparatus according to claim 12, the beam means comprising a laser and the directing means including at least one lens to focus the laser beam.

19. The apparatus according to claim 12, the scanning means including a pair of mirrors driven by respective galvonometers.

20. An apparatus for producing a part comprising:

laser means for selectively emitting a laser beam;
structure for providing a target area for producing the part;
means for dispensing powder into said target area; and
laser control means responsive to a plurality of defined boundaries in which at least some of the boundaries are different for --
moving the aim of the laser beam across the target area,
modulating the laser to selectively sinter a first layer of powder dispensed within a first defined boundary in the target area,
modulating the laser to selectively sinter subsequent layers of powder dispensed within respective defined boundaries to produce a part comprising a plurality of sintered layers joined together.

21. The apparatus according to claim 20, the control means including means for directing the aim of the laser beam in said target area and means for modulating the laser by turning the beam on and off to selectively sinter the powder in the target area.

22. The apparatus according to claim 21, the directing means being operable to move the aim of the laser beam in a raster scan of the target area.

23. The apparatus according to claim 21, the directing means including at least one lens to focus the laser.

24. The apparatus according to claim 21, the directing means including a prism to change the direction of the laser beam emitted from the laser means.

25. The apparatus according to claim 21, the directing means including a scanning system to move the aim of the laser beam in said target area in a repetitive pattern.

26. The apparatus according to claim 25, the scanning system including a pair of mirrors driven by respective galvanometers.

27. The apparatus according to claim 20, the control means including a computer and interface hardware to turn on and off the laser beam as the aim of the beam is moved in the target area.

28. The apparatus according to claim 27, the computer being programmed with the defined boundaries of each layer of the part to turn on the laser beam with the aim of the beam within the defined boundaries for each layer.

29. The apparatus according to claim 27, the computer being operable to determine the defined boundaries of each layer of the part given the overall dimensions of the part.

30. The apparatus according to claim 20, the powder dispensing means including a hopper for receiving powder and a metered outlet directing the powder to the target area.

31. The apparatus according to claim 20, said dispensing means being operable to dispense plastic, ceramic, polymer, or metal powder.

Drawings