A resin molded article includes a primary molded portion made from a synthetic resin material and a wire of which a front end portion is embedded in the primary molded portion. A sensor is connected to the front end portion of the wire, and is arranged such that the sensor is partially exposed from an outer surface of the primary molded portion. A seal member has a tubular shape and is in liquid-tight areal contact with a region of an outer periphery of the primary molded portion that is rearward of the exposed portion of the sensor. A secondary molded portion is in liquid-tight areal contact with an outer periphery of the seal member, and encases at least an entire region of the primary molded portion that is forward of the seal member.

Provided are an inner part and a resin molded article according to which it is possible to mitigate the concentration of stress at a distal end of a melt rib. An inner part, around which an outer portion is to be arranged through integral molding, includes a main body portion made of resin, and a melt rib provided protruding outward from the main body portion. The melt rib is formed such that a height of the melt rib is greater than a thickness of the melt rib, the thickness decreases from the main body portion to a distal end of the melt rib, and the melt rib includes a melting portion configured to partially melt during molding of the outer portion.

A method for molding a display module includes forming a cavity using a die plate of a first die and a plurality of side surface dies; filling the cavity with a coating material; fixing the display module to a second die using a coupling body disposed on a second surface of the display module, opposite of a first surface of the display module disposed with a plurality of LEDs; soaking the display module in the coating material filled in the cavity; curing the coating material; and separating the cured coating material of the display module from the die plate.

A conveyor component comprises a thermoformable portion chemically bonded to an injection molded base portion. A surface of the thermoformable portion is prepared for bonding. Then an injection moldable material is injected onto the prepared surface to form the injection molded base portion.

A fiber-reinforced composite molded article has excellent weldability, stiffness and dimensional stability; and is an article formed from a polyamide resin obtained by at least partially bonding a polyamide resin molded article that is formed from a polyamide resin composition and a fiber-reinforced polyamide resin base that is obtained by impregnating a reinforcing fiber base with a polyamide resin for impregnation, and wherein the heat quantity required for melting of the polyamide resin for impregnation satisfies 300<Q<425 (J/g) and the SP value of the polyamide resin for impregnation as calculated from Fedors' equation satisfies 11<<13.2 ((cal/cm.sup.3).sup.1/2).

In an injection molded polypropylene field joint of an oil or gas pipeline, the three- dimensional geometry of the injection molded/cast coating can have an influence on the stress placed on the line coating during cooling. Specifically, it has been found that molding or casting a coating having circumferential grooves, or other groove geometry, proximal to the interface with the line coating, will reduce line coating failure proximal to the field joint, in particular line coating failure related to the initial spooling/reeling of the pipe.

This specification discloses an article of manufacture. The article of manufacture has at least one structural blank and at least one guide. The structural blank has a plurality of oriented fiber plies in a thermoplastic matrix. The guide has a plurality of random dispersed fibers in a thermoplastic matrix. The guide is affixed to the structural blank by injection molding and over molding the guide onto the structural blank. The article of manufacture can take a number of forms for use in industries such as aircraft, automobiles, motorcycles, bicycles, trains or watercraft.

An apparatus for manufacturing a semiconductor device includes a base portion, a bonding stage arranged on the base portion and having a placement surface for placing a substrate; and one or more connecting members which connect the base portion and the bonding stage, wherein at least one of the one or more connecting members is a connecting plate that deflects following the expansion and contraction of the bonding stage in the plane direction caused by a temperature change.

An insert-molded container in which a secondary container made of transparent synthetic resin is integrally provided to the outside of a primary container, the secondary container includes a gate mark, and a vapor-deposited layer is provided on the outer surface of the primary container in a peripheral area of the gate mark is manufactured by a manufacturing method of insert-molded container. The method includes: a cover attaching step of attaching a cover member made of transparent synthetic resin to the outer surface of a part of the primary container where a vapor-deposited layer is provided; a placing step of placing the primary container in a mold with the cover member facing a gate; and an insert molding step of injecting a transparent synthetic resin material from the gate.

A cushion includes a cover and a cushioning element having a top surface heat-fused to the cover. The cushioning element comprises an elastomeric material having a plurality of voids formed therein. At least 60% of a bottom surface of the cushioning element is exposed such that when the cushion is disposed over a surface at least 60% of the bottom surface of the cushioning element is in direct contact with the surface. Methods of forming the cushion include disposing a cover adjacent a mold, conforming the cover to a selected shape of the mold, injecting molten elastomeric material into the mold, bonding the molten elastomeric material to the cover, solidifying the molten elastomeric material to form the cushioning element, and separating the mold from the cover. The cushioning element maintains the cover in the selected shape.