A vehicle interior board which is thin, lightweight, has high strength, has less degradation, peeling and the like near an end portion of a metal plate, and has high quality and excellent productivity; and a method for manufacturing the same. The vehicle interior board includes a pair of metal plates and a foamed polyurethane layer formed between the pair of metal plates. A projecting ridge projecting outwardly and extending in a predetermined direction along the outer surface is formed on an outer surface of the metal plate. Thus, it is possible to obtain desired strength and rigidity even when the metal plates or the foamed polyurethane layer are thinned or when a lightweight aluminum plate or the like is adopted as the metal plates. Therefore, it is possible to reduce weight of a vehicle interior board.

Expandable components for aerial vehicles may include an outer structure formed of carbon fiber, an adhesive bladder disposed within the outer structure, and expanding foam materials inserted into the adhesive bladder. The expandable components may be configured to transform from a compressed configuration to an expanded configuration upon application of heat and/or pressure. For example, in the compressed configuration, the outer structure, adhesive bladder, and expanding foam materials may be folded, rolled, or compressed for storage or transport. In the expanded configuration, the expanding foam materials may expand and cure within the adhesive bladder, the adhesive bladder may expand, bond, and cure inside the outer structure, and the outer structure may expand and cure to a desired shape or size.

This disclosure relates to a clothing treatment device comprising: a cabinet having a first lateral panel and a second lateral panel which are disposed so as to face each other, an upper panel and a lower panel which connect the first lateral panel and the second lateral panel and respectively form the upper surface and the floor surface, a first rear panel which connects the first lateral panel, the second lateral panel and the upper panel and forms the rear surface, and a second rear panel which connects the first lateral panel and the second lateral panel and is positioned below the first rear panel; a first base having a front panel which is fixed to the first lateral panel, the second lateral panel, the upper panel and the lower panel and forms the front surface of the cabinet and an input port which is provided through the front panel.

This disclosure relates to a clothing treatment device comprising: a cabinet having a first lateral panel and a second lateral panel which are disposed so as to face each other, an upper panel and a lower panel which connect the first lateral panel and the second lateral panel and respectively form the upper surface and the floor surface, a first rear panel which connects the first lateral panel, the second lateral panel and the upper panel and forms the rear surface, and a second rear panel which connects the first lateral panel and the second lateral panel and is positioned below the first rear panel; a first base having a front panel which is fixed to the first lateral panel, the second lateral panel, the upper panel and the lower panel and forms the front surface of the cabinet and an input port which is provided through the front panel.

The present disclosure relates to a clothing treating apparatus comprising: an outer case which includes a first opening formed at the front side thereof; an inner case which is provided inside the outer case and has a space formed therein to receive clothes; an inner case bottom surface which forms the bottom of the inner case; a first penetrating part which extends through the inner case bottom surface; and a first machinery room forming surface which forms a machinery room disposed under the inner case and separated from the inner case, and provides a holding surface that protrudes to enable a steam nozzle to be installed thereon.

This document discloses a process for manufacturing recyclable injection molded microcellular foams for use in, footwear components, seating components, protective gear components, and watersport accessories. The process includes the steps of providing a thermoplastic polymer which comprises at least one monomer derived from depolymerized post-consumer plastic, inserting a fluid into a barrel of a molding apparatus. The fluid is introduced under temperature and pressure conditions to produce a super critical fluid. The process further includes mixing the thermoplastic polymer and super critical fluid so as to create a single phase solution, and injecting the single phase solution into a mold of an injection molding machine under gas counter pressure. The process further includes foaming the single phase solution by controlling the head and temperature conditions within the mold.

Fabrication system and associated methods of fabricating a sandwich panel. In one embodiment, a method includes holding a first skin and a second skin of the sandwich panel with a gap between opposing faces of the first skin and the second skin, and expanding a foamable material between the first skin and the second skin to form a foam core of the sandwich panel.

A clothes treating apparatus includes a cabinet including first and second lateral panels facing each other, and upper and lower panels connecting the first and second lateral panels and respectively forming the top surface and the bottom surface. The cabinet includes a rear panel connecting the first and second lateral panels. The cabinet includes a first base comprising a front panel fixed to the first lateral panel, the second lateral panel, and the upper and lower panels to define the front surface, and an inlet extending through the front panel. The cabinet includes a first chamber positioned inside the cabinet, and communicating with the inlet to provide a space for receiving clothes. The cabinet includes a second base including a front frame positioned between the front and rear panels, an upper frame extending from the front frame towards the rear panel, and first and second lateral frames.

A clothes treating apparatus includes a cabinet including first and second lateral panels facing each other, and upper and lower panels connecting the first and second lateral panels and respectively forming the top surface and the bottom surface. The cabinet includes a rear panel connecting the first and second lateral panels. The cabinet includes a first base comprising a front panel fixed to the first lateral panel, the second lateral panel, and the upper and lower panels to define the front surface, and an inlet extending through the front panel. The cabinet includes a first chamber positioned inside the cabinet, and communicating with the inlet to provide a space for receiving clothes. The cabinet includes a second base including a front frame positioned between the front and rear panels, an upper frame extending from the front frame towards the rear panel, and first and second lateral frames.

In an injection foam molding method, a relationship between a flow front moving speed (cm/s) of a foamed resin material in an injection step of injecting the foamed resin material into a cavity and amount of gas generated per 1 g of a resin material (ml/g) is defined as follows: the amount of gas generated per 1 g of the resin material is 0.36 ml/g or more; and the flow front moving speed (cm/s) is 75the amount of gas generated per 1 g of the resin material (ml/g)35 or more and 12 cm/s or more.