Method of making a three dimensional object by stereolithography

US 5,130,064 A
Filed: 10/30/1989
Issued: 07/14/1992
Est. Priority Date: 04/18/1988
Status: Expired due to Term

First Claim

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1. A stereolithographic method of constructing an object by forming stacked layers of a medium solidified by exposure to synergistic stimulation applied in a pattern, comprising the steps of:

exposing a portion of a layer to synergistic stimulation comprising a first set of nonconsecutive parallel skin lines; and

exposing the portion to a second set of nonconsecutive parallel skin lines substantially interposed between and parallel to the first set of nonconductive parallel lines.

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Abstract

A stereolithographic method for constructing an object from a medium capable of solidification upon exposure to synergistic stimulation (e.g. a laser beam). Stacked layers of solidified medium are constructed by exposing the medium to synergistic stimulation in magnitude and pre-selected pattern, such that each layer is formed with external boundaries and up and down facing surfaces as necessary. At least a portion of a layer which is neither upfacing nor downfacing is also skinned, e.g., provided with a continuous skin formed by overlapping skin vectors or traces of the laser beam. Alternatively, all intermediate or internal cross-sectional layers are provided with skin and cross-hatch. Upfacing and downfacing features, and intermediate layers may be provided with a skin created by scanning in a first pass using non-consecutive skin vectors followed by scanning in at least one additional pass that completes the exposing process by filling in between the originally drawn vectors. To reduce waffling, regions of intersecting vectors at least in down-facing surfaces are determined. Exposure of one or more of the respective intersecting vectors is reduced at the regions of intersection to provide downfacing features with a uniform exposure.

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54 Claims

1. A stereolithographic method of constructing an object by forming stacked layers of a medium solidified by exposure to synergistic stimulation applied in a pattern, comprising the steps of:
- exposing a portion of a layer to synergistic stimulation comprising a first set of nonconsecutive parallel skin lines; and
  
  exposing the portion to a second set of nonconsecutive parallel skin lines substantially interposed between and parallel to the first set of nonconductive parallel lines.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The method of claim 1 wherein adjacent lines of the first set are sufficiently spaced apart to prevent lines of solidified medium of the first set from adhering to each other.
  - 3. The method of claim 2 further comprising the step of reducing any curl by using a technique selected from the group consisting of smalleys, rivets, webs, multipass and the combination thereof.
  - 4. The method of claim 1 wherein the medium comprises a powder.
  - 5. The method of claim 1 wherein the medium comprises a photopolymer.

6. A stereolithographic method of constructing an object by forming stacked layers of a medium solidified by exposure to synergistic stimulation applied in a pattern, comprising the steps of:
- solidifying a first skin on at least a first portion of a first layer by selectively exposing medium to synergistic stimulation comprising a first set of parallel skin lines;
  
  solidifying a second skin on at least a second portion of a second layer by selectively exposing medium to synergistic stimulation comprising at least a second set of parallel skin lines which are not parallel to the skin lines of the first set.
- View Dependent Claims (7, 8)
- - 7. The method of claim 6 wherein the medium comprises a photopolymer.
  - 8. The method of claim 6 further comprising the step of reducing any curl by using a technique selected from the group consisting of smalleys, rivets, webs, multipass and the combination thereof.

9. A method for reducing non-uniform cure depths of a portion of a layer of an object made by stereolithography, comprising the steps of:
- exposing a portion of the layer to synergistic stimulation in a grid pattern of hatch lines extending in a first direction and in a second direction;
  
  exposing the portion of the layer to synergistic stimulation comprising the first set of skin lines extending in the first direction, the first set of skin lines overlapping the hatch lines extending in the second direction but not overlapping the hatch lines extending in the first direction;
  
  exposing the portion of the layer to synergistic stimulation comprising a second set of skin lines extending in a second direction, the second set of skin lines overlapping the hatch lines extending in the first direction but not overlapping the hatch lines extending in the second direction.

10. A method for reducing irregularities in cure depth of a region of a layer of an object made by stereolithography by exposing a building material to synergistic stimulation to at least partially solidify the material, comprising the steps of:
- exposing first area elements of the region to synergistic stimulation comprising at least a first set of lines spaced apart from each other so that no direct adhesion occurs between material at least partially solidified by the at least first set;
  
  exposing second area elements of the region to synergistic stimulation comprising at least a second set of lines, with the lines of the at least second set adhered to each other and to the lines of the at least first set and with the at least second set of lines exposing substantially all area elements of the region not at least partially solidified by the at least first set, such that the combined exposure of the at least first set and the at least second sets of lines results in substantially the same exposure to the first area elements and the second area elements.
- View Dependent Claims (11, 12, 13, 14)
- - 11. The method of claim 10 wherein the lines in each set of the at least first set are parallel to each other.
  - 12. The method of claim 11 wherein corresponding to each set of the at least first set is a set of the at least second set which has lines running parallel to a corresponding individual set of the at least first set.
  - 13. The method of claim 12 wherein corresponding individual sets of the at least first set and at least second set do not overlap each other.
  - 14. The method of claim 10 wherein the medium is a photopolymer.

15. A method for reducing irregularities in cure depth of a region of a layer of an object made by stereolithography, comprising the steps of:
- at least partially solidifying a first portion of a region of a layer by exposing the first portion to synergistic stimulation comprising a first set of lines spaced apart from each other so that no direct adhesion occurs between the lines;
  
  at least partially solidifying a second portion of the region of the layer, which at least substantially includes all area elements not at least partially solidified in association with the first set, by exposing the second portion to synergistic stimulation comprising a second set of lines, wherein the exposure of the second set when combined with the exposure of the first set results in substantially all area elements being given similar exposures, wherein the lines of the second set are adhered to each other and to the lines of the first set.
- View Dependent Claims (16)
- - 16. The method of claim 15 wherein the medium is a photopolymer.

17. A method for reducing irregularities in cure depth of a region of a layer of an object made by stereolithography, comprising the steps of:
- at least partially solidifying a first portion of a region of a layer by exposing the first portion to synergistic stimulation comprising a first set of lines spaced apart from each other so that no direct adhesion occurs between the lines,at least partially solidifying a second portion of the region of the layer by exposing the second portion to synergistic stimulation comprising a second set of lines spaced apart from each other so that no direct adhesion occurs between the lines of the second set, and with the second set of lines overlapping the first set of lines at intersection area elements which being exposed by both the lines of the first set and the lines of the second set, receive an increased exposure;
  
  at least partially solidifying a third portion of the region of the layer, which at least substantially includes all area elements not receiving the increased exposure resulting from the combined exposures of the first and second sets, by exposing the third portion to synergistic stimulation comprising at least a third set of lines, wherein the combined exposure of the first, second, and at least third sets results in substantially all area elements of the entire region receiving substantially equivalent exposures, wherein the lines of the at least third set are adhered to each other and to the lines of the first and second sets.
- View Dependent Claims (18)
- - 18. The method of claim 17 wherein the medium is a photopolymer.

19. A method for reducing irregularities in cure depth of a region of a layer of an object made by stereolithography, comprising the steps of:
- at least partially solidifying a first portion of a region of a layer by exposing the first portion to synergistic stimulation comprising a first set of lines spaced apart from each other so that no direct adhesion occurs between the lines;
  
  at least partially solidifying a second portion of the region of the layer by exposing the second portion to synergistic stimulation comprising a second set of lines spaced apart from each other so that no direct adhesion occurs between the lines of the second set;
  
  at least partially solidifying a third portion of the region of the layer by exposing the third portion to synergistic stimulation comprising a third set of lines spaced apart from each other so that no direct adhesion occurs between the lines of the third set, and wherein at least some individual area elements, exposed by the lines of the first set, the lines of the second set, and the lines of the third set, receive a maximum exposure where they overlap;
  
  at least partially solidifying a fourth portion of the region of the layer, which at least substantially includes all area elements not receiving the maximum exposure resulting from the combined exposures of the first, second, and third sets, by exposing the fourth portion to synergistic stimulation comprising at least a fourth set of lines, wherein the combined exposure of the first, second, third, and at least fourth sets results in substantially all area elements being given similar exposures, wherein the lines of the fourth set are adhered to each other and to the lines of the first, second, and third sets.
- View Dependent Claims (20)
- - 20. The method of claim 19 wherein the medium is a photopolymer.

21. A method for reducing irregularities in cure depth of a region of a layer of an object made by stereolithography, comprising the steps of:
- at least partially solidifying a first portion of a region of a layer by exposing the first portion to synergistic stimulation comprising a first set of lines spaced apart from each other so that no direct adhesion occurs between the lines,at least partially solidifying a second portion of the region of the layer by exposing the second portion to synergistic stimulation comprising a second set of lines spaced apart from each other so that no direct adhesion occurs between the lines of the second set, and wherein at least a portion of the lines of the first set and a portion of the lines of the second set adhere to each other, and wherein the lines of the first set do not overlap the lines of the second set, wherein at least some individual area elements exposed by the lines of at least one of the sets receive a maximum exposure;
  
  at least partially solidifying a third portion of the region of the layer, which at least substantially includes all area elements not receiving the maximum exposure resulting from the exposures of the first and second sets, by exposing the third portion to synergistic stimulation comprising at least a third set of lines, wherein the combined exposure of the first, second, and the at least third sets results in substantially all area elements being given similar exposures, wherein the lines of the at least third set are adhered to each other and to the lines of the first and second sets.

22. A method for reducing irregularities in cure depth of a region of a layer of an object made by stereolithography, comprising the steps of:
- at least partially solidifying a first portion of down-facing a region of a layer by exposing the first portion to synergistic stimulation comprising a first set of lines;
  
  at least partially solidifying a second portion of the down-facing region of the layer, which at least substantially includes all area elements of the first portion not at least partially solidified in association with the first set, by exposing the second portion to synergistic stimulation comprising at least a second set of lines intersecting the first set of lines at intersection points, the exposure of the at least second set of lines is reduced at the intersection points, such that the exposure of the at least second set when combined with the exposure of the first set results in substantially all area elements being given similar exposures.

23. A method for determining a solidification depth of at least a portion of a skin of a three-dimensional object being formed by stereolithography from a medium solidified by exposure of a set of spaced skin lines to a beam of synergistic stimulation having a power and a scanning velocity, comprising the steps of:
- a) determining the power of the beam of synergistic stimulation;
  
  b) determining the spacing between the skin lines;
  
  c) determining the scanning velocity of the beam;
  
  d) calculating the exposure the beam provides based on the power of the beam, the spacing between the skin lines and the scanning velocity of the beam;
  
  e) specifying medium parameters of the medium relating solidification depth to exposure; and
  
  f) determining the solidification depth from the calculated exposure and the relationship between solidification depth and exposure.
- View Dependent Claims (24, 25)
- - 24. The method of claim 23 wherein the medium is a photopolymer.
  - 25. The method of claim 24 wherein the medium parameters are contained in a graph of exposure versus solidification depth for the medium.

26. A method for selecting exposure parameters to provide a desired skin depth of a skin formed from a set of spaced skin lines on a layer of an object made by stereolithographically by forming stacked layers of a medium solidified by exposure to a beam of synergistic stimulation having a scanning velocity, comprising the steps of:
- a) selecting the desired skin depth;
  
  b) specifying medium parameters of the medium relating solidification depth to exposure;
  
  c) determining the exposure required to obtain the desired skin depth by using the material parameters of the medium which relate skin depth to exposure;
  
  d) specifying two of beam power, skin line spacing and scanning velocity;
  
  e) calculating the remaining unspecified parameter of step d) using the determined exposure and the two parameters specified in step d).
- View Dependent Claims (27)
- - 27. The method of claim 26 wherein the medium is a photopolymer.

28. A method for determining material parameters of a material having a penetration depth and a critical exposure corresponding to specific synergistic stimulation, which parameters are parameters necessary for predicting cure depth of a skin on a layer of an object made stereolithographically, comprising the steps of:
- forming a first skin on a first area of a layer by exposing the first area to a beam of synergistic stimulation having a beam power in a pattern of first skin vectors having a first offset traced at a first velocity, providing a first amount of exposure;
  
  forming at least a second skin on at least a second area of a layer by exposing the at least second area to the laser in a pattern of at least second skin vectors having at least a second offset traced at at least a second velocity, providing at least a second amount of exposure different from the first amount of exposure;
  
  measuring the thickness of the first skin and the at least second skin;
  
  determining the first and at least second amounts of exposures according to the relationship of exposure=beam power÷
  
  (offset×
  
  velocity);
  
  fitting the measured thicknesses versus logarithm of exposures for the first and at least second skins to a linear relationship; and
  
  determining the slope of the linear relationship which is the penetration depth and determining the X-intercept of the linear relationship which is the critical exposure.
- View Dependent Claims (29, 30, 31, 32, 33)
- - 29. The method of claim 28 wherein the beam of synergistic stimulation is a laser beam.
  - 30. The method of claim 28 wherein the linear relationship is determined by plotting.
  - 31. The method of claim 28 wherein at least one of the patterns of the first and at least second skin vectors comprises non-consecutive skin vectors.
  - 32. The method of claim 28 wherein the first and at least second set of skin vectors comprise two sets of skin vectors.
  - 33. The method of claim 28 wherein the material is a photopolymer.

34. A stereolithographic method of constructing an object having internal and external regions, by forming stacked layers of a medium solidified by exposure to synergistic stimulation applied in a pattern, comprising the steps of:
- exposing substantially all external regions of the object to synergistic stimulation to provide skin fill on the external regions;
  
  specifying internal regions of the object to be selected and unselected portions wherein there is at least a selected portion and there is at least an unselected portion;
  
  exposing the selected portion of the internal regions to synergistic stimulation to provide skin fill on the selected portions of the internal regions; and
  
  exposing the unselected portion to synergistic stimulation in a hatch pattern.

35. A stereolithographic method of constructing an object by forming stacked layers of a medium solidified by exposure to synergistic stimulation applied in a pattern, comprising the steps of:
- identifying any up-facing regions, down-facing regions, and internal regions of a first layer;
  
  identifying any internal regions of a second layer;
  
  exposing any down-facing region of the first layer to synergistic stimulation to solidify substantially all area elements of the down-facing region;
  
  exposing any up-facing region of the first layer to synergistic stimulation to solidify substantially all area elements of the up-facing region;
  
  exposing at least a first portion of any internal region of the first layer to synergistic stimulation to solidify substantially all area elements within the first portion wherein the first portion has a width substantially greater than a cure width of lines of a hatch pattern; and
  
  exposing a second portion of any internal region of a second layer to synergistic stimulation in lines of a hatch pattern.
- View Dependent Claims (36, 37, 38, 39, 40, 41, 42, 43, 44)
- - 36. The method of claim 35 wherein the exposing of the first portion is performed according to a set of parallel skin vectors.
  - 37. The method of claim 35 further comprising the step of hatching the first portion of any internal region of the first layer.
  - 38. The method of claim 37 further comprising the step of hatching the first portion with lines of an X/60/120 degree hatch pattern.
  - 39. The method of claim 35 further comprising the step of hatching all regions of each layer of the object.
  - 40. The method of claim 35 wherein the medium comprises a photopolymer.
  - 41. The method of claim 40 wherein the synergistic stimulation comprises UV light.
  - 42. The method of claim 40 wherein all area elements of down-facing region are provided with a equivalent exposures.
  - 43. The method of claim 40 further comprising the step of reducing any curl by using a technique selected from the group consisting of smalleys, rivets, webs, multipass and the combination thereof.
  - 44. The method of claim 35 wherein the layers are periodic.

45. A stereolithographic method of constructing an object by forming stacked layers of a medium solidified by exposure to synergistic stimulation applied in a pattern, comprising the steps of:
- forming a skin on at least a portion of a layer by exposing the medium to synergistic stimulation comprising a first set of parallel skin lines;
  
  further solidifying the portion by exposing it to synergistic stimulation comprising a second set of parallel skin lines, said lines in said second set being non-parallel to said lines in said first set.
- View Dependent Claims (46, 47, 48, 49, 50, 51, 52, 53, 54)
- - 46. The method of claim 45 wherein the lines of the first set and second set are perpendicular to each other.
  - 47. The method of claim 45 wherein the skin lines of at least one of the first set and second set are non-overlapping.
  - 48. The method of claim 45 wherein the skin lines of at least one of the first set and second set are overlapping.
  - 49. The method of claim 45 further comprising the step of hatching the layer prior to exposing the first and second sets of skin lines.
  - 50. The method of claim 49 wherein the hatching comprises a first set of parallel hatch lines and a second set of parallel hatch lines, with the lines of the second set of hatch lines not parallel to the lines of the first set of hatch lines, and the first set of hatch lines runs parallel to the first set of skin lines, and the second set of hatch lines runs parallel to the second set of skin lines.
  - 51. The method of claim 50 wherein the hatch lines of the first set are perpendicular to the hatch lines of the second set.
  - 52. The method of claim 45 wherein the medium comprises a photopolymer.
  - 53. The method of claim 45 further comprising the step of reducing any curl by using a technique selected from the group consisting of smalleys, rivets, webs, multipass and the combination thereof.
  - 54. The method of claim 45 further comprising the step of further solidifying the portion by exposing it to synergistic stimulation comprising at least a third set of parallel skin lines, said lines in said at least third set being non-parallel to said lines in the first and second sets.

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Current Assignee
3D Systems, Inc. (3D Systems Corporation)
Original Assignee
3D Systems, Inc. (3D Systems Corporation)
Inventors
Smalley, Dennis R., Hull, Charles W.
Primary Examiner(s)
Tentoni, Leo B.

Application Number

US07/429,435
Time in Patent Office

988 Days
Field of Search

264/22, 264/40.1, 264/236, 264/255, 264/298, 264/308, 264/347, 156/64, 156/273.3, 156/273.5, 156/275.5, 156/307.1, 427/8, 427/53.1, 427/54.1, 364/468, 364/474.05, 364/474.24, 364/476, 364/521, 364/522, 364/523, 365/107, 365/119, 365/120, 365/127, 365/106, 250/492.1
US Class Current

264/401
CPC Class Codes

B29C 64/135   the energy source being con...

B29C 64/40   Structures for supporting 3...

B33Y 10/00   Processes of additive manuf...

B44B 1/006   using computer control means

G01J 1/4257   applied to monitoring the c...

G03F 7/0037   Production of three-dimensi...

G03F 7/70416   2.5D lithography

G05B 2219/49013   Deposit layers, cured by sc...

G06T 17/00   Three dimensional [3D] mode...

G06T 17/10   Constructive solid geometry...

G06T 17/20   Finite element generation, ...

Method of making a three dimensional object by stereolithography

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Method of making a three dimensional object by stereolithography

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