RU2004104448A - METHOD FOR PRODUCING PRODUCTS USING LASER STEREOLITOGRAPHY AND A DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (11)

1. A method of manufacturing products using laser stereolithography, including the creation of a computer model for forming a layered image of a three-dimensional product and layer-by-layer formation of a product from a liquid photopolymerizable composition (FPK) on a flat surface of a platform that is discretely immersed in a tank with liquid FPK to a depth equal to the thickness of the next processed layer, by sequential scanning with a laser beam of the liquid layers of the specified composition, characterized in that the computer model is additionally introduced information about the formation of supports for the product, scanning is carried out with a laser beam with a wavelength of the green region of the spectrum, for which they use FPK capable of polymerizing under the influence of visible light, while the specified composition is thermostated at a temperature that maintains it in a liquid state, and each successive liquid layer being processed FPK on a flat surface of the platform is aligned before scanning with a laser beam, which is moved perpendicular to the surface of the FPK layer using a beam movement system ortalnogo type. 2. The method according to claim 1, characterized in that the wavelength of the laser radiation is 532 nm. 3. The method according to claim 1 or 2, characterized in that the thickness of the processed layer is set equal to or more than 15 microns. 4. The method according to claim 1, characterized in that the supports are formed in parallel with the formation of the product. 5. The method according to claim 1, characterized in that as a FPC capable of polymerizing under the influence of visible light, a mixture of high viscosity methacrylated diglycidyl diphenylol propane and a low viscosity acrylic polyfunctional monomer is used, which includes an initiating system containing a dye and a co-initiator capable of transferring energy from a photoexcited dye molecule to the co-initiator. 6. The method according to claim 5, characterized in that a “Bengal rose” is used as a dye in the initiating system of the FPK, and dimethylaminoethanol is used as a co-initiator. 7. A laser stereolithographic installation containing a laser, optical means for scanning a laser beam, a tank with a photopolymerizable composition (FPK), a platform with a device for its vertical movement, made with the possibility of discrete immersion of the platform in the tank with a FPK to a depth equal to the thickness of the next processed layer, and a computer control system, characterized in that it further comprises an acousto-optical modulator located between the laser and the optical means of scanning the laser beam, a thermostat for maintaining the FPK in a liquid state and a leveling system for the surface of the next processed layer of the FPK before scanning with a laser beam, the laser being made with a wavelength of radiation of the green region of the spectrum, the optical means of scanning the laser beam contain a portal-type beam moving system, and the composition was used as a FPK capable of polymerizing under the influence of visible light. 8. The apparatus of claim 7, wherein the wavelength of the laser radiation is 532 nm. 9. Installation according to claim 7 or claim 8, characterized in that the minimum thickness of the processed layer is 15 microns. 10. The apparatus according to claim 7, characterized in that a mixture of high viscosity methacrylated diglycidyl diphenylol propane and a low viscosity acrylic polyfunctional monomer comprising an initiating system containing a dye and a co-initiator capable of transferring energy from a photoexcited molecule is used as an FPC capable of polymerizing under the influence of visible light. to the co-initiator. 11. The apparatus of claim 10, characterized in that a “Bengal rose” was used as a dye in the initiating system of the FPK, and dimethylaminoethanol was used as a co-initiator.