One describes a railroad sleeper (1) for fixation of at least a pair of rails (2,2) of a railroad network, comprising a contact surface (3), wherein each rail of the pair of rails (2,2) is fixed spaced apart from each other, the railroad sleeper (1) being configured by comprising a hollow sector (4) delimited by association of the contact surface (3) with the anchorage walls (5,5), thus establishing a free portion (17) adjacent to the anchorage walls (5,5) and opposite the contact surface (3). One further describes an embodiment in which the hollow sector (4) of the railroad sleeper is delimited by a support surface and the process of manufacturing a railroad sleeper.

A method and assembly for providing multi-stage extrusion of an article exhibiting an open interior. A multi-stage extrusion operation includes a first stage extrusion for receiving an initially extruded or otherwise pre-existing inner sleeve and extruding a surrounding sleeve and a plurality of radially projecting portions. A second stage subsequently extrudes an outer circular sleeve about the radially projecting portions. A third stage extrudes at least one wing portion to an outer edge of the outer circular sleeve.

A method of forming a blown film comprising extruding a molten composition through a die opening to form a film; wherein the molten composition comprises at least one polyethylene and within the range from 0.10 wt % to 10 wt % of a cyclic-diene terpolymer by weight of the composition; causing the film to progress in a direction away from the die opening; cooling the film at a distance from the die opening, the distance adjusted to effect the properties of the film; and isolating a blown film therefrom.

The present invention relates to a composition and a method for manufacturing a thermoplastic polyurethane thread of particularly 250 denier or less with enhanced physical properties by collecting virgin type thermoplastic polyurethane resin or polyurethane scraps remaining after using the thermoplastic polyurethane resin for airbag patterns or after processing the thermoplastic polyurethane resin, mixing various additives and the different types of thermoplastic polyurethane together, compounding the resulting mixture and then coextruding the resulting thermoplastic polyurethane compound with an extruder into a thermoplastic polyurethane thread.

An acrylic material can block up to about 98% of ultraviolet wavelength radiation from passing through. The acrylic material can also be produced to block a substantial amount of infrared energy, resulting in a material that can be used to fabricate an enclosure that can keep occupants cool and safe from harmful ultraviolet radiation. The acrylic can be manufactured from an acrylic mix containing elements of ultraviolet blocking and infrared blocking technology. The acrylic mix can be extruded in various dimensions and thicknesses, depending on application. For marine enclosure applications, the sheets can be formed in 60-inch by 120-inch by 0.080 inch thick sheets.

A thermal conducting sheet having a high adhesion between layers even if the thermal conducting sheet has a multilayer structure is provided. The thermal conducting sheet including a low-hardness layer and a reinforcing layer laminated on one side or both sides of the low-hardness layer. The reinforcing layer having a hardness greater than a hardness of the low-hardness layer. The low-hardness layer comprises: acrylic polymer, silicon carbide, aluminum hydroxide, magnesium hydroxide, and plasticizer.

The present invention relates to a process for the production of a panel for floor or wad coverings comprising the steps of mixing and homogenising raw materials, thereby obtaining a dryblend, extruding said dryblend, thereby obtaining one or more thermoplastic layers, laminating the afore-mentioned thermoplastic layers, thereby obtaining a laminate, and profiling said laminate, thereby obtaining a panel for floor or wall coverings, wherein at least one thermoplastic layer is extruded by means of a co-rotating twin-screw extruder with pressure element.

The present invention relates to a process for the manufacture of a sealing gasket for a refrigerator, which simultaneously uses at least three extruders to form in a single operation a sealing gasket. The extruders simultaneously feed, in an extrusion die, a rigid or semi-rigid polymer, a flexible polymer and a mixture of a binder polymer and a magnetic material, for simultaneously forming the sealing gasket and, wherein a magnetizable zone is fully embedded within the gasket. After the sealing gasket has been formed in the extrusion die, it is cooled in a cooling section and then passed to a magnetization step to cause permanent magnetic fields and to ensure that the sealing gasket is fully magnetized.

Disclosed is a method for detecting a blowout in an irrigation pipe being formed by an extrusion manufacturing process. The irrigation pipe is extruded. Further a positive air pressure inside the irrigation pipe may be created by circulating air through the irrigation pipe during the extrusion manufacturing process. The irrigation pipe with positive air pressure is then fed into a tank, wherein the tank comprises a coolant liquid. Further at least one air bubble is trapped at a surface of the tank.

A thermoplastic composite structure is produced by extruding a bead of composite material to a desired cross sectional shape. An extruder extrudes the polymer bead containing reinforcing fibers, using a low compression first extruder stage where the polymer is mixed and de-gassed, and a high compression second stage where the polymer is consolidated and extruded. The cross sectional profile of the polymer bead may be altered using a variable extruder gate.