TH16630A - "Substances containing fine powder of natural organic substances" - Google Patents

Abstract

Materials containing fine particles of natural organic materials are revealed in this invention as fine particles. The microscopic silk particles are produced. By a process which consists of a part of the conversion of silk fibers into particles that Rough with a mechanical size change path And the second step of changing the particle size of Silk fibers that are grown into fine particles by means of a mechanical size change. And step Third, the conversion of fine silk particles into ultra-fine filament particles. The average diameter of the particles is 10 (mu) m or less by means of a dry mechanical sizing path, where silk particles are introduced into the beta process during or at least later of the size change process. The first to the third Specific examples of materials are films, sheets, paints, treated materials, fibers, etc.

Claims (5)

1.thermoplastic film Containing Fine powder of 1 to 40% natural organic matter by weight selected from the group containing Powdered silk, powdered wool, powdered cellulose, and powdered chittin. And a mixture of less than 10% water by weight and particle size Less than 10 mu average and thermoplastic resins were selected from a group containing elastomers and polyolefins. It is formed by the puffing method, the T-mold method and the rolling extrusion method. 2. The stacked sheet with the film as described in Claim 1, which is one of several layers. Layer coated overlaid 3. A coating material that creates an information face. In which the aforementioned coating materials are assembled With fine powders of 5 to 80% natural organic matter by weight selected from the group containing powdered silk, powdered wool, powdered cellulose, powdered chittin. And collagen powder The average particle size is less than 15 mu and a mixture of less than 10% water by weight. 4. Products with a surface to be written. It was created by the glaze material of claim 3. 5. Super fine filament particles were produced by a process consisting of The first size reduction procedure is for reducing the size of silk fibers to coarse particles by means of dry mechanical size reduction. The second reduction procedure is for reducing the size of such coarse silk particles to Super fine particles by means of a dry mechanical size reduction method and a third reduction procedure for reducing the size of such fine silk particles to Ultra-fine particles with an average particle diameter of not more than 10 m m by means of Dry mechanical reduction The filament is a process during or after at least one process. 6. Methods of producing thermoplastic films. It consists of the steps of formation. The thermoplastic material is a film by the puffing method, the T-shaped mold method and the roller extrusion method, the improvement consists of such thermoplastic material with fine powder of Organic matter 1 to 40% by weight is chosen from the group containing Powdered silk, powdered wool, powdered cellulose, and powdered chittin. It contains less than 10% water content, with an average particle weight and size less than 10 mu, and thermoplastic resins were selected from Group consisting of elastomers and polyolefins 7. Methods for producing thermoplastic films according to claim 6, where the film is formed by assigning the section Of water of such thermoplastic material containing fine powder Only 5% of such natural organic materials. 8. Method for producing super-fine powder of silk fibers. Containing The first step is for grinding silk fibers into coarse powder. By means of dry grinding, the second step of grinding coarse silk fibers into fine powder. Dry mechanical grinding The third step is for grinding the silk fibers into a super fine powder with strands. The average particle diameter is not greater than 10 mu by means of dry mechanical pulverization and beta process to at least enter the silk powder into the process. One of the above steps one through three. Or after these three steps. 9. Methods for producing super fine powder of silk fibers. As stated in In claim 8, whereby the dry mechanical pulverization method used in the said second pulp step It is a round grinder. And at the dry mechanical pulverization method used in the said third mill step It is an injectable grinding agent. 1 0. Method for producing super fine powder of silk fibers. As set out in claim 8, where beta-process liquid is a neutral solvent or solution of neutral saline 1 1. Solvent and resin composition obtained by combining fiber particles. Super small silk As stated in claim No. 10, in solvents and resins 1 2. Films or plates on the super-fine silk particles obtained by the addition of fiber particles. 1 to 60% super fine silk by weight according to claim 10 in solvent and resin solution 1 3. Overlap sheet with film. Or a plate containing the extremely fine filament particles identified in claim 12, in the form of one of the many layers of the compressed sheet overlaid on the base. Thermoplastic, containing 1 to 60% of super-fine silk particles by weight obtained by combining super-fine silk particles. As stated in claim No. 10, enter the thermoplastic resin 1 5. Filament films or sheets with super-fine filament obtained by combining 1 to 60% of the filament fraction. The weight specified in claim No. 10 is added to the thermoplastic resin 1 6. The stacked sheet with film. Or a sheet containing the microscopic silk particles described in Clause 15 in a layered manner. One of the base overlay plate 1 7. Molded form, which is obtained by injection molding, blow molding or compression molding. Particle-containing thermoplastics The super-fine silk is obtained by combining 1 to 60% of super-fine silk particles by weight as described in Clause 10 into thermoplastic resins 1 8. Molded form. From components Where it consists of the molded designs described in Clause 17 as a single piece of material 1 9. Filament treatment material consisting of resin emulsions containing silk particle particles. The microfibers are described in claim 10 2 0. Fiber-treated materials as described in Clause 19, where the resin emulsion is Consists of three chick, one Or more of groups containing Polyurethane elastomer resin, siliconized resin, fluoride resin And acrylic resin 2 1.Fiber or fir The fabric is a material of fiber. Or cotton that is a material of fiber Where it enters the process of making materials into fibers As set out in Clause 19 2. 2. Color with superfine silk particles. Where obtained by combining the particles of Super fine silk As stated in claim No. 10, into resin 2. 3. Color with super-fine silk particles As stated in claim 22, the aforementioned resin is a solvent type 2 resin. 4. Color with superfine silk particles. As stated in claim 22, where the said resin is aqueous resin 2. 5. Color displayed on the surface to represent information obtained by incorporating 1 to 90% filament particles by weight as described in Clause 10 into the paint composition.