A product may include a mold assembly comprising a mold inner tube, a mold outer tube, a first end cap, and a second end cap, and an inner texture sleeve; a cured mold product comprising about 20 parts by weight of a dry powder and about 540 parts by weight of water; and at least one sleeve positioned circumferentially around the cured mold product being constructed and arranged to provide constrictive force on the cured mold product.

An extrusion system includes a system to pump a thermoplastic resin melt through an extrusion die, the thermoplastic resin including a polymer base whose rheological properties are modified using fillers, a perforation/embossed roll, and a resilient/pressure backing nip roll through which the extruded thermoplastic resin melt travels between the perforation/embossed roll and the resilient/pressure backing nip roll in a roll nip/station area, exiting the roll nip/station area and around the resilient/pressure backing nip roll and subsequently released from the resilient/pressure backing nip roll as a perforated film, film or fabric carrier supported perforated film, coex laminate, or cut into sheet

A molded a product includes a body including a hollow interior region and a plurality of openings in communication between an interior region and an exterior of the body. The body is formed from a resilient material that enables the product to stretch and retract to an original shape without tearing or breaking when removing a first part of a core of a mold from a first portion of the interior region through a first opening of the plurality of openings and a second part of the core of the mold from a second portion of the interior region through at least one of the first opening and a second opening of the plurality of openings, the first and second parts of the core of the mold being larger than each of the plurality of openings.

A method of manufacturing an optical spacer includes dispensing thermal glue within a mold; pressing the thermal glue using an optical spacer substrate to generate an optical spacer including an aperture; and, releasing the mold from the optical spacer. The thermal glue may be cured prior to releasing the mold from the optical spacer.

A fluid manifold may include a body that may include a proximal end, a distal end, and a primary manifold component extending from the proximal end of the body to the distal end of the body and enclosing a primary channel. The fluid manifold may further include at least one auxiliary manifold component diverging from the primary manifold component and enclosing an auxiliary channel connected to the primary channel at a primary channel exit port. The fluid manifold may further include at least one compression valve region disposed along the body of the manifold where the compression valve region may be operable between an open position and a closed position.

A multi-part compression mold for forming a complex part having a desired fiber alignment, and methods therefor, are disclosed. The multi-part mold comprises at least three sections. Specific arrangements of fiber-bundle-based preforms are introduced to more than one of the mold sections of the multi-part mold, and subjected to compression molding. The arrangements of preforms, in conjunction with the multi-part mold, result in a complex part having fibers that substantially align with anticipated principle stress vectors that arise in the complex part, when in use.

A plant for the continuous vulcanisation of mixtures of natural or synthetic latex inside a plurality of vulcanisation moulds aligned close to each other, each including: a base and a lid able to be removably coupled; an advancing mechanism for advancing the moulds along guides inside a vulcanising oven; and a sprayer for spraying the mixture inside the bases before entry into the vulcanising oven. The plant includes: an assembly set and a disassembly set of the moulds, belonging respectively to the input station and to the output station of the vulcanising oven; a first transport mechanism for transferring each base from the disassembly set to the assembly set; a second transport mechanism for transferring each lid from the disassembly set to the assembly set. The vulcanising oven includes a tunnel with a radiofrequency set for vulcanising the mixture.

A method of fabricating an airfoil element out of composite material, comprises: making a fiber preform (300), said preform being impregnated with resin; polymerizing the resin with a matrix so as to obtain an airfoil element made of composite material comprising fiber reinforcement densified by a matrix; and fastening metal reinforcement on the composite material airfoil element, the metal reinforcement being fastened on the airfoil element by rivets. The method further comprises, prior to impregnating the fiber preform (300) with resin, inserting spacer elements (10) between the fibers of the fiber preform (300) and removing said spacer elements after the resin has been polymerized so as to form at least one passage between the fibers of the fiber reinforcement of the composite material airfoil element.

A fluid manifold may include a body that may include a proximal end, a distal end, and a primary manifold component extending from the proximal end of the body to the distal end of the body and enclosing a primary channel. The fluid manifold may further include at least one auxiliary manifold component diverging from the primary manifold component and enclosing an auxiliary channel connected to the primary channel at a primary channel exit port. The fluid manifold may further include at least one compression valve region disposed along the body of the manifold where the compression valve region may be operable between an open position and a closed position.

A molded article including carbon fibers and thermoplastic resin, the molded article being provided with a hole h1, wherein the molded article has a region a around the hole h1, the relationship between the linear expansion coefficient C1 in the plate thickness direction in region a and the linear expansion coefficient C2 in a molded article region other than the region a is C1/C2<1, and the relationship of the carbon fiber volume fraction Vf1 of region a and the carbon fiber volume fraction Vf2 of a molded article region other than the region a is 0.2<Vf1/Vf2.