RU95112076A - Method of manufacturing fiber capillaries and flexible waveguide made of fiber capillaries - Google Patents

Abstract

FIELD: glass fibers. SUBSTANCE: invention relates to quartz glass fiber capillaries and flexible waveguides based on them designed to be used in the area of oncologic radiology for radiotherapy of malignant tumors and may also be used as principal unit in other devices of analogous destination. In a method of manufacturing fiber capillaries, inner surface of stock material is coated simultaneously with drawing capillary therefrom in the stage of plastic deformation in heating zone, and coating is applied using a solid material with high diamagnetic properties. In flexible waveguide made as a bundle of thin-wall capillary fibers, outlet end of bundle is fit to change azimuth-radial distribution of fiber capillaries. EFFECT: improved special quality of waveguide. 8 cl, 3 dwg

Claims (8)

1. A method of manufacturing fiber capillaries, comprising supplying a glass tubular preform to the heating zone, coating the inner surface of the preform with adsorbed material and pulling a capillary from it, characterized in that the coating of the inner surface of the preform and stretching the capillary is carried out simultaneously at the stage of plastic deformation, and as adsorbed The material uses solid materials with high diamagnetic properties.  2. The method according to p. 1, characterized in that the coating of the inner surface of the workpiece with adsorbed material is carried out before feeding it into the heating zone with a ratio of softening temperatures of the workpiece and adsorbed material more than 2: 1.  3. A flexible waveguide of fiber capillaries, made in the form of a bunch of thin-walled capillary fibers with input and output ends, characterized in that the output end of the beam is configured to change the azimuthal radial distribution of the fiber capillaries.  4. The flexible waveguide according to claim 3, characterized in that the input end face of the capillary fiber bundle is provided with a bell.  5. The flexible waveguide according to claim 4, characterized in that the bell is made of magnetically active material.  6. The flexible waveguide according to claim 3, characterized in that the beam of thin-walled capillary fibers contains optical fibers.  7. Flexible waveguide according to paragraphs. 3, 6, characterized in that one optical fiber is located in the center of the beam, and the rest - on its periphery.  8. Flexible waveguide according to claims. 3, 6, 7, characterized in that the fiber in the center of the beam is made of a radial gradient monofilament.