A housing part includes a base section having a pair of oppositely disposed flat sides, a pair of housing sections each extending away from one of the pair of oppositely disposed flat sides, and a plurality of fibers disposed in the base section and the housing sections. A main fiber orientation of the fibers in each of the housing sections is oriented away from the base section.

An injection-molding machine (10) has a static mold (14), a mold shaft (15) inserted into an inner space (14a) of the static mold (14) and having a central axis (15a), a rotation mechanism (17) which rotates the mold shaft (15) around the central axis (15a), and a raw material injection mechanism (1) which injects as a raw material, a composite material containing resin and fiber into the inner space (14a) of the static mold (14). The raw material is injected from a tip section of the mold shaft (15) into the inner space (14a) of the static mold (14) along the mold shaft (15). A technique of properly controlling the fiber orientation in the injection molding of the composite material part is provided.

A composite resin molded product for an acoustic member is a composite resin molded product for an acoustic member containing a main agent resin and fibrous fillers dispersed in the main agent resin, and a concentration of the fibrous fillers is 50% by weight or more in the composite resin molded product, and crystallinity of the main agent resin around the fibrous fillers is higher than crystallinity of the main agent resin in other parts in the composite resin molded product.

A sliding member for a journal bearing is provided. A sliding layer includes fibrous particles dispersed in a synthetic resin, and has a sliding surface side region and an interface side region. The particles have an average particle size D.sub.sur, axi and D.sub.sur, cir respectively in an axial and circumferential cross-section in the sliding surface side region, and D.sub.int, axi and D.sub.int, cir respectively in axial and circumferential cross-sections in the interface side region. D.sub.sur, axi and D.sub.int, cir are 5-30 μm, and D.sub.sur, cir and D.sub.int, axi are 5 to 20% of respectively D.sub.sur, axi and D.sub.int, cir. A dispersion index of the particles having the major axis length of 20 μm or longer is 5 or more, both in the sliding surface side region in view of the axial cross-section and in the interface side region in view of the circumferential cross-section.

Described herein is a polyamide composition (P) including specific flat glass fibres (B) with elongated shape having a non-circular cross-sectional area. The polyamide composition (P) is advantageously used for the production of molded parts. Also described herein is a method of using molded parts obtainable by molding of the polyamide composition (P) to produce mechanical parts. The molded parts are characterized by having improved fatigue resistance properties. Also described herein is a polyamide composition (P) including PA 6.6 as polyamide (A) and flat glass fibres (B).

Provided are a pellet including a thermoplastic resin and cellulose nanofibers that enables the production of a molded body which has a good appearance in which yellowing is suppressed, and a method for producing a molded body using the same. According to one aspect, there is provided a pellet including a thermoplastic resin and cellulose nanofibers, wherein the number of pore-containing pellets per 100 pellets is 10 or less. Further, according to another aspect, there is provided a method for producing a molded body, which includes a step of preparing the pellets, and a step of injection molding the pellets in a mold to obtain a molded body.

To produce sealing plates (1) consisting of a plurality of sealing rings (3) connected by radial webs (2) by injection molding, wall-type guide elements (5) are arranged obliquely to the direction of flow in the mold channel (6) which is therefore initially largely constricted in the region of weld lines (15) formed by the convergence of the fronts of the divided plastic melt streams, said guide elements being moved out of the mold channel (6) during the further filling of same so that the strength is significantly improved in the region of the weld lines (15).

A method for providing accessories for washbasins and sinks in general, particularly of the type of covers and shelves, that includes the following steps: providing a first mold part which reproduces in negative form the visible surfaces of at least one accessory; providing a second mold part which reproduces in negative form the hidden surfaces of the accessory; mating the first mold part with the second mold part; and injecting material in the melted state into the cavity defined between the first mold part and the second mold part. The method also includes the steps of solidifying the material, and opening the first mold part and the second mold part, with consequent extraction of the at least one accessory.

A housing and a method for processing the housing, the housing includes a first surface, the first surface includes a filler area with a first length, the method includes: providing a metal piece including a groove and a second surface, the groove includes a groove bottom, the groove bottom defines a recess extending through the groove bottom and the second surface, the recess has a second length, the second length is greater than or equal to the first length; injecting filling liquid into the recess and the groove, the filling liquid solidified to form the filler of the filler area; and cutting the metal piece along the second surface to form the first surface of the housing.

A method of manufacturing a bumper for impact absorption and a bumper for the impact absorption manufactured from the same are provided. The method includes: filling solid salts in a mold, injecting a molten metal into the mold, and solidifying the molten metal with the solid salts to obtain a solidified product, spraying water onto the solidified product to dissolve the solid salts, which results in obtaining a porous metal having pores, disposing the porous metal in an injection mold, and injecting-inserting a resin composite into the injection mold to surround the porous metal while filling at least a part of the pores in the porous metal.