The present application describes making a resilient pad composite.

The present application describes making a resilient pad composite.

To provide a manufacturing method of a laminate body, including: a step of forming onto a supporting body a curable resin composition layer formed from a thermosetting resin composition to obtain a curable resin composition layer with a supporting body; a step of laminating the curable resin composition onto a substrate on a curable resin composition layer forming surface side to obtain a pre-cured composite with a supporting body formed from a substrate and a curable resin composition layer with a supporting body; a step of performing a first heating of the pre-cured composite and thermally curing the curable resin composition layer to obtain a cured composite with a supporting body formed from a substrate and a cured resin layer with a supporting body; a step of performing hole punching from the supporting body side of the cured composite with a supporting body to form a via hole in the cured resin layer; step of removing resin residue in the via hole of the cured composite with a supporting body; a step of peeling the supporting body from the cured composite with a supporting body to obtain a cured composite formed from a substrate and a cured resin layer, and a step of forming a dry plated conductor layer by dry plating on an inner wall surface of the via hole of the cured composite and on the cured resin layer.

It comprises: a film made of a resin in which an aperture pattern is formed, the aperture pattern passing through the film, the aperture being with a shape and dimension corresponding to the thin-film pattern in a pre-established region for formation of the thin-film pattern on the substrate; and a metal member that has an aperture part opposite the aperture pattern with a shape and dimension larger than the aperture pattern, the metal member being provided as a thin sheet in intimate contact with one surface of the film on an outside part of the aperture pattern of the film. The film is mutually distanced and distributed, at a position where the film does not overlap the aperture pattern, into a plurality of divided parts on one surface of the metal member.

Disclosed are an undercover for vehicles with high elasticity and rigidity and a method of manufacturing the same. The undercover for vehicles with high elasticity and rigidity may include a needle-punched nonwoven fabric having a multi-layer structure of felt layers including a first PET fiber and a low-melting-point PET fiber, and each of the felt layers may have improved tensile strength and have optimized fiber alignment, to thereby improve the binding between fibers, mechanical rigidity and elasticity, as well as to reduce the weight of components, improve durability and secure harmlessness and inline workability.

Disclosed are an undercover for vehicles with high elasticity and rigidity and a method of manufacturing the same. The undercover for vehicles with high elasticity and rigidity may include a needle-punched nonwoven fabric having a multi-layer structure of felt layers including a first PET fiber and a low-melting-point PET fiber, and each of the felt layers may have improved tensile strength and have optimized fiber alignment, to thereby improve the binding between fibers, mechanical rigidity and elasticity, as well as to reduce the weight of components, improve durability and secure harmlessness and inline workability.

A method for manufacturing a disposable absorbent pant includes forming an elasticized multilayer web and joining a third nonwoven web to it and optionally sandwiching leg and waist elastic members between one or more layers of the elasticized multilayer web and/or the third nonwoven web to form disposable absorbent pants.

A method for manufacturing a disposable absorbent pant includes forming an elasticized multilayer web and joining a third nonwoven web to it and optionally sandwiching leg and waist elastic members between one or more layers of the elasticized multilayer web and/or the third nonwoven web to form disposable absorbent pants.

Disclosed is a novel multi-functional laminator, having a laminator body. The laminator body is equipped with a lamination channel for a paper or photo to pass, mounting columns are disposed on two sides of the laminator body respectively, and a sliding rod is disposed between the mounting columns. The novel multi-functional laminator is further equipped with a cutting/perforation integrated mechanism, and the cutting/perforation integrated mechanism is slidably connected to the sliding rod via a sliding hole. When cutting is needed, the paper or photo is placed below the cutting/perforation integrated mechanism and slides for cutting; and when perforation is needed, the paper or photo is placed at a paper inlet of the cutting/perforation integrated mechanism for perforation. A cutting knife and a perforation knife are integrated in the laminator while the volume is applicable; and with a collector added for recycling waste paper after perforation, the use is more convenient.

Disclosed is a novel multi-functional laminator, having a laminator body. The laminator body is equipped with a lamination channel for a paper or photo to pass, mounting columns are disposed on two sides of the laminator body respectively, and a sliding rod is disposed between the mounting columns. The novel multi-functional laminator is further equipped with a cutting/perforation integrated mechanism, and the cutting/perforation integrated mechanism is slidably connected to the sliding rod via a sliding hole. When cutting is needed, the paper or photo is placed below the cutting/perforation integrated mechanism and slides for cutting; and when perforation is needed, the paper or photo is placed at a paper inlet of the cutting/perforation integrated mechanism for perforation. A cutting knife and a perforation knife are integrated in the laminator while the volume is applicable; and with a collector added for recycling waste paper after perforation, the use is more convenient.