Polymer object optical fabrication process
First Claim
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1. A method of fabricating three-dimensional micro-structures directly from computer models, comprising:
- providing a container at least a part of which is optically transparent;
placing a photoreactive material into the container so that the photoreactive material is accessible by a laser light;
modifying the photoreactive material by a non-degenerate two-photon absorption;
providing an array of controllable pixel elements;
providing a femtosecond laser pulses having a wavelength selected to induce a non-degenerate two-photon polymerization;
directing the femtosecond laser pulses onto the array of controllable pixel elements so that the femtosecond laser pulses are processed by the array of controllable pixel elements into a pulsed patterned source light;
inducing the non-degenerate two-photon polymerization by the pulsed patterned source light;
providing a first optical projection system for projecting the pulsed patterned source light;
providing a picosecond pulsed laser light having a wavelength selected to induce the non-degenerate two-photon polymerization;
providing a second optical projection system for projecting the picosecond pulsed laser light;
synchronizing the pulsed patterned source light and the picosecond pulsed laser light;
aiming the pulsed patterned source light so that the pulsed patterned source light travels through the optically transparent part of the container into the photoreactive material and focuses inside the photoreactive material;
providing the second optical projection system for projecting the picosecond pulsed laser light to form a thin flat sheet;
providing the first optical projection system for projecting the pulsed patterned source light to intersect the thin flat sheet;
directing and focusing the thin flat sheet to intersect the pulsed patterned source light, wherein the intersection creates a fabrication region with the intersecting focal planes of the thin flat sheet and the pulsed patterned source light, such that the pulsed patterned source light is projected perpendicular to the thin flat sheet so that a preselected regions of the photoreactive material are cured at the fabrication region; and
directing the container having the photoreactive material therein through the intersecting focal planes at an angle less than a critical angle of a material of which the container is made and of the photoreactive material, whereby the synchronized overlapping of the pulsed patterned source light and the thin flat sheet operating at two different wavelengths of preselected energies meet the combined energy requirements necessary to achieve the non-degenerate two-photon polymerization in the fabrication region within the photoreactive material.
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Abstract
High-volume mass-production and customization of complex three-dimensional polymer and polymer-derived-ceramic microstructures are manufactured in a single step directly from three-dimensional computer models. A projection based non-degenerate two-photon induced photopolymerization method overcomes the drawbacks of conventional one and two-photon fabrication methods. The structure includes dual, synchronized, high-peak power, pulsed femtosecond and picosecond lasers combined with spatial light modulation. Applications include high-resolution rapid prototyping and rapid manufacturing with an emphasis on fabrication of various Micro-Electro-Mechanical Systems (MEMS) devices, especially in the area of MEMS packaging.
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Citations
10 Claims
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1. A method of fabricating three-dimensional micro-structures directly from computer models, comprising:
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providing a container at least a part of which is optically transparent; placing a photoreactive material into the container so that the photoreactive material is accessible by a laser light; modifying the photoreactive material by a non-degenerate two-photon absorption; providing an array of controllable pixel elements; providing a femtosecond laser pulses having a wavelength selected to induce a non-degenerate two-photon polymerization; directing the femtosecond laser pulses onto the array of controllable pixel elements so that the femtosecond laser pulses are processed by the array of controllable pixel elements into a pulsed patterned source light; inducing the non-degenerate two-photon polymerization by the pulsed patterned source light; providing a first optical projection system for projecting the pulsed patterned source light; providing a picosecond pulsed laser light having a wavelength selected to induce the non-degenerate two-photon polymerization; providing a second optical projection system for projecting the picosecond pulsed laser light; synchronizing the pulsed patterned source light and the picosecond pulsed laser light; aiming the pulsed patterned source light so that the pulsed patterned source light travels through the optically transparent part of the container into the photoreactive material and focuses inside the photoreactive material; providing the second optical projection system for projecting the picosecond pulsed laser light to form a thin flat sheet; providing the first optical projection system for projecting the pulsed patterned source light to intersect the thin flat sheet; directing and focusing the thin flat sheet to intersect the pulsed patterned source light, wherein the intersection creates a fabrication region with the intersecting focal planes of the thin flat sheet and the pulsed patterned source light, such that the pulsed patterned source light is projected perpendicular to the thin flat sheet so that a preselected regions of the photoreactive material are cured at the fabrication region; and directing the container having the photoreactive material therein through the intersecting focal planes at an angle less than a critical angle of a material of which the container is made and of the photoreactive material, whereby the synchronized overlapping of the pulsed patterned source light and the thin flat sheet operating at two different wavelengths of preselected energies meet the combined energy requirements necessary to achieve the non-degenerate two-photon polymerization in the fabrication region within the photoreactive material. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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Current AssigneePoof Technologies, LLC
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Original AssigneeIllumiform LLC
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InventorsCregger, Robert Brian
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Primary Examiner(s)Wyrozebski; Kat
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Assistant Examiner(s)DODDS, SCOTT
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Application NumberUS11/561,191Publication NumberTime in Patent Office1,369 DaysField of Search264/308, 264/401, 700/120US Class Current700/120CPC Class CodesB29C 64/106 using only liquids or visco...B29C 64/135 the energy source being con...B33Y 10/00 Processes of additive manuf...B33Y 30/00 Apparatus for additive manu...B33Y 50/02 for controlling or regulati...B33Y 80/00 Products made by additive m...
