The present invention relates to an autoclave molding apparatus for use in molding a composite material composed of a fibrous base material and a matrix and sealed together with a molding tool in a vacuum bag, using steam for heating and compressing the composite material. The present invention provides an autoclave molding apparatus capable of effectively reducing the overshoot of the temperature of the composite material caused by poor dissipation of curing heat in a curing process and thereby capable of producing a composite material molded article having uniform and sufficient strength. More specifically, an autoclave molding apparatus of the present invention is characterized in that a condensed water holder(s) configured to hold condensed water generated by heating is mounted on at least a portion of the vacuum bag and/or at least a portion of the molding tool.

Assisted magnetic forming uses a magnetic field to assist in the forming or molding of metallic and non-metallic materials. For example, such a forming process may form a blank of ferromagnetic metals like high-strength steel and high-hard armor, non-ferromagnetic metals like aluminum and magnesium, as well as non-metals like ceramics, plastics, and fiber-reinforced composites into formed or molded parts. The magnetic field is generated to partially or completely saturate the blank during the forming process, which increases the blank's formability and/or moldability while in the presence of the magnetic field.

Disclosed are various embodiments of holders configured to couple to moldable hand grips for firearms and at least partially submerge the hand grips in heated water baths. According to various embodiments, a holder can include a non-moldable body that is configured to couple to a moldable hand grip. The holder can further include a non-moldable user handle extending from the body.

A method and system for inserting a liner and lining pipes from inside a water main or other larger pipe. The method and system generally includes inserting a string inside the first pipe between a first end and a second end, inserting the string through a liner positioning tool, attaching a first end of the string to the liner, and then pulling the liner into the first pipe with the first string such that the liner extends from the first end to the second end of the pipe. One end of the string may be attached to the liner by a pulling insert, which may be a threaded insert that screws into an end of the liner, and which may further include a fluid passage to allow hot water or other fluid to flow through the insert while the string is connected to it.

Disclosed is a dip-coating method as a method of coating an outer surface of a target mold including steps of: preparing and putting a supporting liquid in a container; applying a coating material to the target mold; dipping the target mold in the supporting liquid; shaking the target mold surrounded by the coating material in the supporting liquid; curing the coating material surrounding the target mold in the supporting liquid; and taking out the coated target mold from the supporting liquid.

A method of manufacturing a sealed circuit card assembly includes disposing a circuit card assembly within a volume defined by a housing and at least partially filling the volume with a curable liquid such that the curable liquid encapsulates at least a circuit card. The method may also include curing the curable liquid to form a potted circuit card assembly and, after at least partially filling the volume with the curable liquid and after curing the curable liquid, vacuum impregnating the potted circuit card assembly with a sealant to seal any exposed interfaces or cracks to form the sealed circuit card assembly. Accordingly, the sealed circuit card assembly may include a first cured material encapsulating the circuit card of the circuit card assembly and a second cured material disposed within, for example, a porosity of the first cured material.

A device and method for expediting the repair of laminated automobile glass, comprising a supporting bridge removably mountable to a windshield surface over a damaged area, with a receptacle for receiving an injector or dispenser for UV curable repair resin, and guide means between said bridge and dispenser comprised of a guide pin and a guide groove with linear and helical portions. The resin dispenser can be quickly aligned, inserted into place and sealed against the windshield with only a partial twist. The dispenser includes a manually operable plunger which partially defines an expandable chamber to hold UV curable repair resin and provide a means of controllably applying vacuum or pressure to the resin and damaged cavity, valve means to allow selectable control of air to be released from or allowed into said chamber to facilitate creation and application of vacuum or pressure, further including means to lock the plunger in multiple selectable positions to maintain applied vacuum or pressure. Integrated ultra high intensity UV LED's surround the damaged area and apply sufficient intensity UV to fully cure the repair and surfacing resin without the use of any barrier film.

The present system is configured to absorb, using a fluid medium in a reservoir, electromagnetic radiation to heat the fluid medium. The fluid medium may then conduct heat into a mold cavity formed by interior mold surfaces of at least two mold pieces. The fluid medium may heat up to, but not beyond, a phase transition temperature of the fluid medium, reducing instances of accidental damage to moldable material in a mold cavity during thermally-accelerated curing of the moldable material. In some instances a mold may be placed in liquid contained by the reservoir. In some instances, a mold may have integral reservoirs in individual mold pieces.

Disclosed are various embodiments of moldable hand grips for firearms. According to various embodiments, a hand grip can include a non-moldable frame and a heat-moldable grip portion disposed on the frame. The hand grip can be submerged at least partially in a water bath heated to a temperature between about 150 F. to about 212 F., resulting in the heat-moldable grip portion of the hand grip transitioning to a moldable state. After the heat-moldable grip portion of the hand grip transitions to the moldable state, the hand grip can be removed from the water bath, and the user can grab the hand grip to mold the heat-moldable grip portion to conform to his or her individual hand shape. The heat-moldable grip portion can then cool and return to a non-moldable state, resulting in a hand grip that conforms to the individual user's hand shape.

Devices, systems, and methods of improving heat transfer between a composite wind turbine blade surface are provided to reduce cure time. The assembly includes molds having heating wires disposed proximate the mold surface for delivering heat to the composite blade during layup and/or resin cure. Additionally, the vacuum bag disposed on top of the composite part includes a plurality of fluid channels for distributing a thermal fluid (e.g. heated/cooled water, air or oil) across the composite surface (opposite the mold surface).