Fire retardant polymer nanocomposites for laser sintering
First Claim
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1. A method of producing a flame retardant part comprising the steps of:
- a. depositing a first portion of powder onto a target surface, said first portion of powder comprising a first material and a second material, said second material comprising nanoparticles;
b. scanning the aim of a directed energy beam over the target surface;
c. 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;
d. depositing a second portion of powder onto the first sintered layer, said second portion of powder comprising a first material and a second material, said second material comprising nanoparticles;
e. scanning the aim of a directed energy beam over the first sintered layer;
f. 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
g. 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.
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Abstract
A method and apparatus for forming three dimensional flame retardant objects by laser sintering that includes homogeneously combining, by an extrusion process, certain polymer materials with nanoparticles and using the resultant powder in a laser sintering device to produce freeform parts.
32 Citations
14 Claims
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1. A method of producing a flame retardant part comprising the steps of:
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a. depositing a first portion of powder onto a target surface, said first portion of powder comprising a first material and a second material, said second material comprising nanoparticles;
b. scanning the aim of a directed energy beam over the target surface;
c. 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;
d. depositing a second portion of powder onto the first sintered layer, said second portion of powder comprising a first material and a second material, said second material comprising nanoparticles;
e. scanning the aim of a directed energy beam over the first sintered layer;
f. 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
g. 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. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. An apparatus for producing a flame retardant part comprising:
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a. a scanning system for selectively emitting a directed energy beam;
b. a structure for providing a target area for producing the part;
c. a powder comprising a first material and a second material, said second material comprising nanoparticles;
d. a spreading mechanism for spreading said powder across said target area; and
e. a control system for deflecting the aim of the energy beam and for modulating the energy beam to selectively sinter within defined boundaries a layer of powder dispensed in said target area, the control system being operable to effect selective sintering of sequential layers of powder within respective defined boundaries to produce a part comprising a plurality of layers sintered together. - View Dependent Claims (9, 10, 11, 12, 13, 14)
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Specification
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Current AssigneeGerhardt E. Wissler, Joseph H. Koo, Louis A. Pilato
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Original AssigneeGerhardt E. Wissler, Joseph H. Koo, Louis A. Pilato
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InventorsKoo, Joseph H., Pilato, Louis A., Wissler, Gerhardt E.
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Application NumberUS11/193,143Publication NumberTime in Patent OfficeDaysField of SearchUS Class Current264/497CPC Class CodesB29C 64/153 using layers of powder bein...B29K 2105/16 Fillers
