A method of molding a thermoplastic resin material includes: a first molding step in which a second mold that, with a first mold, nips and presses the thermoplastic resin material and molds a product, is divided into plural sections, and one section at the divided second mold is structured so as to be able to enter into and exit from another section, and the one section is made to protrude-out with respect to the another section, and, at the one section, the thermoplastic resin material is pressed, and a portion of the product is molded; and a second molding step in which, after the first molding step, the one section is retracted into the another section, and, at the another section, the thermoplastic resin material is pressed, and a remaining portion of the product is molded.

A main object of the present invention is to provide beneficial improvements relating to a method for producing a fiber reinforced plastic product, the method including curing while pressurizing a prepreg preform by using a core having a fusible part as means for pressurizing. A method for producing a fiber reinforced plastic product, the method including: a core preparation step of preparing a core comprising a fusible part and an outer skin covering the fusible part; a molding step of disposing a prepreg preform inside a mold together with the core, and heating and pressurizing the prepreg preform in the mold to obtain a cured product; and a core removal step of removing materials of the fusible part from the cured product, in the molding step, at least a portion of the prepreg preform being pressurized by expansion of the core, in which the fusible part comprises a first fusible part and a second fusible part having a fusion temperature higher than that of the first fusible part, a material of the first fusible part and a material of the second fusible part are incompatible with each other, and in the molding step, the first fusible part fuses partially or entirely, while the second fusible part does not fuse partially or entirely.

A thermally conductive rope includes a plurality of tows of crystalline carbon fiber, a plurality of tows of additional fiber, and at least one of a thermoset and thermoplastic.

A 3D thermoplastic pultrusion system and method based upon a 3D variable die system and including one or more sets of 3D thermoplastic forming machines to continuously produce thermoplastic composite pultrusions with at least one of varying cross-section geometry and constant surface contours, varying cross-section geometry and varying surface contours, and constant cross-section geometry and varying surface contours. The 3D thermoplastic pultrusion system and method including at least one of multiple pairs of shapeable and flexible bands and a rotating assembly that rotates the one or more sets of 3D thermoplastic forming machines to impart a twist to the thermoplastic composite.

A method for molding fiber-reinforced plastic. A core is formed in a desired shape by accommodating, in a flexible bag, a grain group containing plurality of grains. The core is placed inside a prepreg containing resin and fibers, and the prepreg, in which the core is housed is placed in a molding die and compression molded. When doing so, the grain group contains first and second grains (a,b) that satisfy the equation (1). (1) 1.1(Da/Db)2.0 In the equation Da is the grain diameter of the grains (a), and Db is the grain diameter of the grain (b). When using a molding die to mold a molded article having a cavity, the above mentioned molding method enables an increase in the internal pressure of the core in order to change the peripheral surface area of the core, without using a pressurized gas and/or pressurized liquid.

A roller-type depressing device, an imprinting device, and a roller-type depressing method which are capable of suppressing an uneven elastic deformation of a main roller, and which are also capable of depressing an object uniformly. A roller-type depressing device depresses an object, and includes a main roller having at least a surface formed of an elastic material, and depressing the object, a roller moving unit moving the main roller relative to the object, a pressure adjusting unit adjusting pressure applied to the object by the main roller, a pressure receiving stage receiving the pressure from the main roller via the object, an intermediate roller having at least a surface formed of a material with a larger elastic modulus than the elastic material, and supporting the main roller, and, a backup roller formed shorter in an axial direction than the main roller and the intermediate roller, and supporting the intermediate roller.

Provided is a method for manufacturing a fiber reinforced plastic molded body, the method including: performing thermocompression molding, by using a molding die, on a molding precursor which is obtained by arranging a prepreg including a thermosetting resin and a fiber around a thermoplastic solid body.

An apparatus for molding a pouch includes: a die assembly with a die; a stripper assembly to press and fix both sides of a pouch film disposed on the die; and a punch assembly with a punch to mold an electrode assembly accommodation part in the pouch film. The stripper assembly includes: a stripper disposed at a punch assembly lower portion to press and fix the pouch film; a stripper driving piece at a punch assembly upper portion to provide force so that the stripper presses the pouch film; and a connection part to connect the stripper driving piece to the stripper to transmit the force. The connection part includes: two or more connection rods coupled to the stripper; a connection bar coupled to the stripper driving piece; and a connection piece to connect one or more of the connection rods to the connection bar to transmit the force.

A tool organizer and method of making the same is provided which allows a user to quickly and easily store tools and other items of various sizes, shapes and configurations. The customizable organizer includes a depressible core capable of maintaining an impression of an object that is pressed into it. The organizer also includes a covering material such as a fabric, flock or elastomeric coating, which protects the outer surface of the core, and also provides an aesthetically pleasing appearance. A tacky adhesive is applied on an upper surface of the core so that when a tool or other item is pressed into the covering material that overlay the core, the tacky adhesive maintains the covering material in close conformity to the customized impression of the tool or other item created in the organizer.

A roller-type depressing device that can depress an object like a die or a molding target by controlling the pressure of a roller, an imprint device, and a method utilizing the same are provided. A roller-type depressing device depresses an object like a die or a molding target by a main roller, and includes a pressure adjusting plate, a roller moving unit that moves the main roller relative to the object, a pressure adjusting unit that holds the pressure adjusting plate so that force produced by a pressure difference in fluid applied to both faces of the pressure adjusting plate acts on the main roller, a pressure receiving stage receiving pressure of the main roller, a pressure adjuster that adjusts the pressure difference in fluid applied to both faces of the pressure adjusting plate, and a pressure equalizer that equalizes pressure applied to the object by the main roller.