The present invention provides a method of producing a topping hanger comprising: (a) inspecting raw materials; (b) calculating a formula; (c) mixing uniformly; (d) dehumidifying the raw materials; (e) injection molding a colored mixed body: introducing the dehumidified raw materials into an injection molding machine at temperature 200-350° C., and the colored mixed body being produced by injecting molding after adjusting parameters of molds; (f) injection molding a transparent exterior body: a transparent PET and acrylics being formed of the transparent exterior body outside of the colored mixed body by injection molding at temperature 200-350° C.; and (g) packing the products. The transparent exterior body fully coats with the colored mixed body via injection molding, and this feature effectively enhances quality and visual effect, and chemical and color stability of the products, and reduces the cost. The present invention reduces damage during objects with colors contacting human.

Methods for making an osteoimplant are provided. In one embodiment the method includes applying a mechanical force to an aqueous slurry of insoluble collagen fibers to entangle the insoluble collagen fibers so as to form a semi-solid mass of entangled insoluble collagen fibers; and lyophilizing the semi-solid mass of entangled collagen fibers to form the osteoimplant. An osteoimplant containing entangled insoluble collagen fibers is also provided.

Methods for making an osteoimplant are provided. In one embodiment the method includes applying a mechanical force to an aqueous slurry of insoluble collagen fibers to entangle the insoluble collagen fibers so as to form a semi-solid mass of entangled insoluble collagen fibers; and lyophilizing the semi-solid mass of entangled collagen fibers to form the osteoimplant. An osteoimplant containing entangled insoluble collagen fibers is also provided.

Provided is a thermoplastic resin composition having high flame resistance, high fluidity during injection molding, and improved impact resistance in a molded article. To provide a method for producing a thermoplastic resin composition, the method including a step (1) of obtaining a polyester resin mixture by melt-kneading a crystalline terephthalate-based polyester resin, and a polyester resin A including at least one kind selected from the group consisting of isophthalic acid, orthophthalic acid, naphthalenedicarboxylic acid, anthracene dicarboxylic acid and pyridine dicarboxylic acid as an aromatic dicarboxylic acid component with an extruder, and a step (2) of mixing the polyester resin mixture, a polycarbonate resin, a flame retardant and a toughening agent.

A composite resin molded body includes a base compound resin and a molten-kneaded mixture which contains an organic fibrous filler, and a dispersing agent. In the composite resin molded body, a content of the organic fibrous filler is at least 5 mass % and at most 70 mass %, and a proportion T of the organic fibrous filler carbonized in the composite resin molded body is equal to or less than 0.1.

An acoustic lens for an ultrasonic probe includes a vulcanization-molded article of a rubber composition including a first silicone rubber composition having a plasticity number of 100 or less, and a second silicone rubber composition having a plasticity number of 150 or more and 300 or less.

An improved shock absorbing, light-weight, thermally insulative orthotic pad designed for use in a “pad and boot” assembly for hoofed livestock. The pad is comprised of a mixture of small particles incorporated and encased in elastomeric materials. The particles have a lower density than the elastomeric materials and possess better thermally insulative properties. The pad is preferably elliptically shaped when viewed from the top or bottom, may be wedge-shaped when viewed from the side, and may include a triangular projection designed to contact a horse's frog and/or a front projection designed to cushion an animal's toe. The pad may also have side clips and toe bumper.

A method for manufacturing a rubber composition includes kneading a rubber component, an inorganic filler and a thioester-based silane coupling agent, and adding a vulcanizing agent and one or more compounds selected from the group of an imide compound and an N-oxyl compound to a mixture of the rubber component, the inorganic filler, and the thioester-based silane coupling agent such that the vulcanizing agent and the imide compound and/or the N-oxyl compound are kneaded with the mixture including the rubber component, the inorganic filler, and the thioester-based silane coupling agent.

A method is proposed for producing a functional material, wherein in at least one mixing step (14) a pulverized rigid foam (16) and at least one binding agent (18) are mixed to form a raw mass, and wherein in at least one pressing step (22) the raw mass is pressed to form the functional material, the method proceeding in a continuous manner at least from the mixing step (14) up to and including the pressing step (22).

The embodiments of the present application provide a method for making continuous micro-irrigation tubing, the continuous micro-irrigation tubing so made, a method for performing irrigation using the said continuous micro-irrigation tubing, and the application of the said continuous micro-irrigation tubing in agricultural irrigation, wherein the method for making continuous micro-irrigation tubing comprises: preconditioning a filler; blending the preconditioned filler with high-pressure polyethylene resin at a predefined weight ratio and making said filler and resin into filler pellet; making preformed tubing from the filler pellet; and threading the preformed tubing into a high-temperature extractor in which continuous extraction is performed to make continuous micro-irrigation tubing. The method enables the making of continuous micro-irrigation tubing containing micro-pores on the tubing wall. After the continuous micro-irrigation tubing is filled with water, water exudes through the micro-pores.