A system and method for forming a seal member onto a substrate from a material is disclosed. The system includes a mold comprising an ultraviolet transmissible material, the mold having a first portion and a second portion operatively coupled to the first portion, the first portion having a first cavity, a second cavity, and a channel extending from an outer surface of the mold to the second cavity. The first cavity has a first shape that is complementary to a first side of the substrate and the second cavity has a second shape that is complementary to the seal member. The system also includes an applicator in fluid communication with the channel, where the applicator is configured to provide the material to the second cavity through the channel, and an ultraviolet irradiation device configured to irradiate the mold with ultraviolet light to cure the material when the material is provided to the second cavity, such that the seal member is formed on the substrate.

A photographic equipment supporting rod comprising an inner core and a jacket, wherein the jacket wraps outside the inner core integrally or wraps a part of the inner core integrally. The jacket can be directly formed on the inner core by using injection moulding or foam moulding during production, without respectively process and assemble the inner core and the sheath, which requires less dimension accuracy, and is not necessary to additionally provide a connecting structure. Therefore, the manufacturing process can be effectively simplified, the production efficiency can be improved, and the production cost can be reduced. Moreover, since the inner core and the jacket are integrated, relative sliding is less likely to occur during use, which can effectively prevent the jacket from being worn, so as to prolong the service life thereof.

A forming device includes a closure, an exterior face, and one or more guides. The closure is sized and shaped to substantially close off an opening of a select space, and the exterior face is configured to confront and shape insulation. The forming device may further include a plurality of lip members extending away from the closure, the lip members being contiguous with the closure and generally surrounding the closure. The lip members may be curved. Insulation is applied to the forming device and it is inserted and held in place to allow the insulation to expand and harden.

The present disclosure relates to a tool used to producing anatomical phantoms. The tool includes an inner flexible mold which sits inside a rigid, thermally conductive outer shell. The rigid shell may be made out of aluminum. The silicone mold and thermally conductive shell both include at least two interlocking components. The shell is held together by a locking mechanism which can expand upon internal pressure. An anatomical phantom is produced from polyvinyl alcohol hydrogel by freezing and thawing a PVA liquid precursor in the silicone mold and demolding it.

a method for making a bicycle saddle comprises the steps of placing a cover onto a mold cavity of a female mold; pouring a pressure-loading layer of a temper Foam material into the mold cavity; placing a first male mold into the mold cavity for defining a first closed portion and maintaining the mold in such closed condition a first period of time for foaming the temper foam material into the pressure-loading layer; removing the first male mold; pouring a supporting layer of an ordinary foam material into the mold cavity; closing the mold cavity by the second male mold with a shell coupled thereon for defining a second closed portion and maintaining the mold in such closed condition a second period of time for foaming the ordinary foam material into the supporting layer, and removing the second male mold to extract a finished bicycle saddle.

A method for the manufacture of a polymer foam composite includes forming a polymer foam that is at least partially uncured; contacting the formed polymer foam with a fibrous mat including a plurality of nonwoven fibers having an average diameter of 100 um or less under conditions effective to infiltrate a portion of the polymer foam into the mat, to provide a pre-composite; and curing the pre-composite to form the polymer foam composite. The pre-composite includes a polymer foam layer and an intermixed layer including the fibrous mat and the same polymer as the polymer of the polymer foam layer. The polymer foam composite includes a cured polymer foam layer and an intermixed layer integrally bonded to the first layer, wherein the intermixed layer includes the fibrous mat and a cured polymer the same as the polymer of the cured polymer foam layer.

A method of integrating a device in upholstery of a foam seat element, including the steps of: placing the device in a plastic bag or surrounding it with a plastic film; placing the assembly in an injection mold; and injecting foam to form the seat element in one piece.

A structural component for a vehicle and a process and system for forming the structural component. A first cavity is formed in a first hollow passage between a first bladder and an interior surface of a component forming the structural component. A first structural reinforcement layer is formed in the first cavity by filling the first cavity with a first polymer resin and foaming the first polymer resin to form a first polymer resin foam. A second cavity is formed in the first hollow passage and a second structural reinforcement layer is formed in the second cavity by filling the second cavity with a second polymer resin and foaming the second polymer resin to form a second polymer resin foam.

A mold for injection molding includes a design-surface-side mold which is capable of forming a design surface of a resin molded product and a non-design-surface-side mold which is capable of forming a mold cavity with the design-surface-side mold. A convex portion is provided in any one of the design-surface-side mold and the non-design-surface-side mold so as to protrude toward the other one. The mold for injection molding is configured to be capable of switching a first mold closing state in which the convex portion is present from any one of the design-surface-side mold and the non-design-surface-side mold over the other one and a second mold closing state in which the convex portion is not present from any one of the design-surface-side mold and the non-design-surface-side mold over the other one.

Provided are a method of manufacturing a porous body capable of easily manufacturing a porous body, a porous body, a method of manufacturing a device, a device, a method of manufacturing a wiring structure, and a wiring structure.

A photocurable composition including a condensing gas and a polymerizable compound is applied to a substrate or a mold, the photocurable composition is sandwiched between the substrate and the mold and then the photocurable composition is irradiated with light to cure the photocurable composition, and the mold is released from a surface of the cured photocurable composition.