A mold includes: a first molding surface configured to form a lens surface of a scanning lens being elongated in a main-scanning direction; and a first coolant passage, which is disposed within the mold and through which a coolant to control the temperature of the first molding surface flows, wherein the first coolant passage includes: a first passage portion corresponding to a first lens portion which is a portion protruding most in an optical axis direction in the lens surface; and a second passage portion corresponding to a second lens portion which is a portion retreated most in the optical axis direction in the lens surface, and the second passage portion is located to be closer to the second lens portion than a virtual plane, which passes through the first passage portion and is orthogonal to the optical axis direction.

Two shot injection molding processes are disclosed for making thermoplastic parts of two different compositions, the second shot composition having a higher thermal conductivity than the first, and the mold cavity surface temperature is greater than 70 C., preferably 70-100 C. In embodiments, the cavity surface temperature is within 20 C. of the Vicat temperature for the composition being injected, the cavity pressure is between 20 and 150 MPa, and the melt temperature of the second shot material is 200-400 C., or 250-340 C. The resulting molded part provides for improved thermal conductivity between the two molded compositions.

In the injection compression molding mold, cooling water passages are provided between a fixed-side surface formation portion and a heater, cooling water passages are provided between a movable-side surface formation portion and a heater, and a cavity is formed by the fixed-side surface formation portion, the movable-side surface formation portion, and a looped member. When the fixed-side surface formation portion and the movable-side surface formation portion are heated to predetermined temperature, resin is injected and filled into the cavity. Next, inside of the cavity is pressurized, and then heating is stopped and cooling water is supplied to the cooling water passages to perform cooling. Then, before the resin is completely solidified, the resin in the cavity is compressed while being cooled and solidified.

Disclosed are: a polypropylene-based resin composition comprising 100 parts by mass of polypropylene-based resin (A) (provided that, when the polypropylene-based resin includes other resins and/or inorganic filler, the total amount of the polypropylene-based resin and other resins and/or inorganic filler is taken as 100 parts by mass), 0.80 to 5.0 parts by mass of on or more types of aluminum flakes (B) having an average particle size of 5 to 90 m, and 0.005 to 0.06 parts by mass of carbon black (C); and a molded article obtained by injection-molding this polypropylene-based resin composition. The polypropylene-based resin composition and the molded article obtained from this are excellent in a flip-flop metallic feeling, a heavy luxury feeling, light resistance and a feeling of luminance.

An injection mold that has an injector mold plate with a first injector mold plate face and an opposite second injector mold plate face, an ejector mold plate having a first ejector mold plate face and an opposite second ejector mold plate face, with the first injector mold plate face faces the first ejector mold plate face, at least one tempering medium channel connecting a tempering medium inlet of the injection mold to a tempering medium outlet of the injection mold, wherein the at least one tempering medium channel traverses an area of at least one of the second injector mold plate face and/or the second ejector mold plate face and defines a free opening in the respective mold plate face along at least a length of the at least one tempering medium channel.

In one or more embodiments, micro light guides are constructed that include a wall and one or more features extending from or protruding into one or more surfaces of the wall. The microstructure light guide is defined by a mold and formed as a single article with uniform internal stresses. In at least some embodiments, the mold that defines the microstructure light guide employs pixelated mold portions that enable selective temperature adjustment of discrete regions of the mold portions to form the microstructure light guide.

An injection molding method that includes: (a) fitting an injection molding machine with an injection mold defining one or more molding cavities, with at least one mold plate provided with one or more channels for circulation of a tempering medium, (b) providing a feed of plastic material, (c) heating the molding cavities by circulating through the channels a first tempering medium, (d) injecting plastic material into the closed heated mold to fill the molding cavities, (e) cooling the molding cavities of the filled closed injection mold until at least partly solidifying the molded plastic parts by circulating through the channels a second tempering medium, (f) opening the injection mold by parting the injector plate from the ejector plate, (g) ejecting the at least partly solidified molded plastic parts by actuation of ejector pins of the ejector plate, and (h) repeating the cycle of steps (c)-(g).

A composite material molded article that includes soft magnetic powder; and resin containing the soft magnetic powder in a dispersed state, wherein when the composite material molded article is divided into nine portions in total such that, out of surfaces of the composite material molded article, an interlinkage surface that intersects a magnetic flux excited in the composite material molded article is equally divided into three portions in a vertical direction and three portions in a horizontal direction, in these portions, a density decrease ratio Dd of a density of a portion having a minimum density Dmin to a density of a portion having a maximum density Dmax, namely {(DmaxDmin)/Dmax}100, is 1.2% or less.

A manufacturing method of a glass fiber product is disclosed. A glass fiber resin is provided. The glass fiber resin includes a thermoplastic resin, a glass fiber, and an additive. The amount of the thermoplastic resin is between 30 wt % and 70 wt %, the content of the glass fiber is between 40 wt % and 70 wt % and the amount of the additive is between 0.1 wt % and 15 wt %. A molding process is performed for the glass fiber resin to mold the glass fiber resin into a semi-finished product. A mechanical machining process is performed on the semi-finished product to form at least one recessed structure in the semi-finished product, so as to form a final product.

A method for forming a part in an injection mold, includes: heating a molding material to a molding temperature; injecting the molding material through a gate and into a molding cavity of the injection molding apparatus of any of the preceding claims; pressing the stationary half and the moving half together to form the molding cavity between the resin mold surface and the insert molding surface; moving the movable mold insert, and thereby moving the insert molding surface and adjusting the molding cavity shape, the molding cavity depth, the molding cavity volume, or a combination comprising at least one of the foregoing along at least a portion of the molding cavity; cooling a surface of the molding cavity with the cooling system; separating the resin mold surface and the moving half mold surface; and ejecting the part from the injection molding apparatus.