Provided are a production method of a mold having a recessed pedestal pattern for preventing a liquid flow and a manufacturing method of a pattern sheet. A production method of a mold having a recessed pedestal pattern, has: a step of preparing an insert mold having a protruding needle pattern group; a step of preparing a mold having a first mold provided with a protruding pedestal shape and a second mold; a holding step of holding the protruding pedestal shape of the first mold and the protruding needle pattern group of the insert mold in an overlapping manner; a clamping step of performing clamping with the first mold and the second mold to form a cavity; and an injection step of filling the cavity with a resin.

An injection mold includes two mold halves, each of the mold halves including a mold cavity coupled with a plastic material inlet to make a plastic part within the mold cavity, a solid metal material housing the mold cavity, a conformal cooling channel positioned around the solid metal material, a plurality of mesh-containing cavities containing metallic mesh material and positioned around the solid metal material, wherein the metallic mesh material of any of the plurality of mesh-containing cavities is of a constant size.

Disclosed is a polyvinylidene fluoride/ultra-high molecular weight polyethylene blend microporous membrane and preparation method thereof, which belongs to the field of microporous membrane. The blend microporous membrane has good hydrophobicity, mechanical properties and permeability. The preparation method includes: preparing a suspension by polyvinylidene fluoride, ultra-high molecular weight polyethylene, antioxidant and diluent; then feeding the obtained suspension into a twin-screw extruder, and the cast membrane gel extruded from the outlet is directly injected into a metal mold for injection molding; the mold temperature and the outlet temperature of the extruder are the same, and the cavity surface of the mold has micro-prism array structure; then cooling the mold in aqueous medium to obtain a nascent gel membrane; drying the obtained nascent gel membrane in a freeze dryer after removal of the diluents by extraction. The prepared membrane can be used in the membrane separation technology such as membrane distillation.

Provided are a mold for manufacturing a percutaneous absorption sheet that can be detected from an image, and an apparatus and a method for manufacturing a percutaneous absorption sheet having a needle-like protrusion using the mold. The mold is a mold for manufacturing a percutaneous absorption sheet in which a plurality of needle-like recessed portions are disposed, and the problem is solved by a mold for manufacturing a percutaneous absorption sheet in which the mold has a gray color in which a brightness value in a case where a brightness in an HSL (Hue Saturation Lightness) color space is represented in 256 levels is in a range of 30 or more and 200 or less.

Provided are a production method of a mold having a recessed pedestal pattern for preventing a liquid flow and a manufacturing method of a pattern sheet. A production method of a mold having a recessed pedestal pattern, has: a step of preparing an insert mold having a protruding needle pattern group; a step of preparing a mold having a first mold provided with a protruding pedestal shape and a second mold; a holding step of holding the protruding pedestal shape of the first mold and the protruding needle pattern group of the insert mold in an overlapping manner; a clamping step of performing clamping with the first mold and the second mold to form a cavity; and an injection step of filling the cavity with a resin.

A golf ball has a large number of exposed portions 22 on a surface thereof. An average value Hav of heights H of these exposed portions 22 is not less than 0.5 m and not greater than 50 m. The surface of the golf ball has one or more first zones and one or more second zones. An average value Hav1 of the heights H of the exposed portions 22 on these first zones is higher than an average value Hav2 of the heights H of the exposed portions 22 on these second zones. Preferably, the average value Hav1 and the average value Hav2 satisfy the following mathematical formula.
3(Hav1Hav2)50

A method for manufacturing a golf ball having a core, an intermediate layer and a cover that is formed of a resin material composed primarily of a polyurethane resin and has a thickness of 0.1 mm to 0.7 mm by injection molding the cover using a vertically separating two-part injection mold having specific gate and support pin configurations. This method enables a relatively soft urethane resin cover that is thin and of high quality to be formed, and has a good golf ball productivity.

An injection molded article is obtained by injection molding a molten resin into a mold. The injection molded article includes: a base as a thin plate-shaped member that is connected to a gate of the mold; and a plurality of protrusions each integrally molded on the base and having a thickness greater than a plate thickness of the base. The plurality of protrusions have holes each extending through the base, and the holes in the respective protrusions are connected through another component to form a flow channel. A processed region processed to have a surface roughness greater than a surface roughness of a mirror surface region including a region between the holes on the base is formed in a projected region where a region having a predetermined thickness value is projected on the base.

A sample holder 100 for use in a device for image-based analysis of multiple samples, the sample holder comprising: an optically flat surface 10; multiple locations of interest 16, 18 dispersed across the optically flat surface 10 that each, in use, correspond to locations of a sample of the multiple samples; and multiple focal structures 12 associated with the multiple locations of interest 16, 18; wherein the focal structures 12 each comprise at least one pyramid shaped indentation 30 in the optically flat surface 10.

Superhydrophobic conveyor belt components and methods for molding those components out of thermoplastic polymers. The plastic components have superhydrophobic regions on outer surfaces that shed aqueous solutions and remain dry. The water-shedding regions are textured with a nano- or micro-structure that is rough enough to endow the region with superhydrophobic properties.