An upholstery piping component for a vehicle seat includes an elongated anchor and an elongated projection. The elongated anchor is formed from an elastomeric material. The elongated anchor extends along a length. The elongated anchor is configured to be coupled to a first upholstery portion and a second upholstery portion and disposed between the first upholstery portion and the second upholstery portion. The elongated projection is formed from the elastomeric material. The elongated projection is integrally is formed with the elongated anchor. The elongated projection extends from the elongated anchor for at least a portion of the length. The elongated projection is configured to at least partially conceal a seam between the first upholstery portion and the second upholstery portion. The elastomeric material is flexible such that the upholstery piping component is configured to move between a neutral configuration and a modified configuration.

An impact-absorbing assembly includes a covering layer being one or more of artificial turf, rubber mats, polymer mats, short pile carpeting, particulate infill, wood chips, and ground rubber chips. Also included is a layer of underlayment panels positioned beneath the covering layer. The panels have a panel section with a plurality of drain holes formed therethrough. A top surface of the panels is configured to support the covering layer. A bottom surface of the panels has a plurality of bottom projections that cooperate to define bottom channels suitable to permit water flow across the bottom surface, the bottom channels being in fluid communication with the panel drain holes. The bottom projections define a first spring rate characteristic that is part of a first stage and a second spring rate characteristic is part of a second stage, the first stage having a smaller volume of material than the second stage.

Provided is a resin molding in which two types of substrates have a connection part constituted of a thin part provided from the one substrate to the other substrate with a boundary defined by end surfaces of the respective substrates, wherein the density of the one substrate in the connection part is higher than the density of a base part excluding the connection part. The resin molding can have a configuration in which the one substrate is a plate-like substrate including reinforcing fibers and a first thermoplastic resin binding the reinforcing fibers to each other and the other substrate is an injection-molded member connected along the plate face direction of the one substrate from an end surface of the one substrate. Moreover, it is preferred that the connection part have, on the side thereof closer to the other substrate, a section gradually thinned from a position at which the connection part extends and the connection interface be located at an intermediate part of the part that is gradually thinned. It is preferred that the reinforcing fibers be plant fibers, such as kenaf.

A composite structure with an integrated hinge is disclosed. In various embodiments, the composite structure includes a plurality of layers of fiber reinforced polymer material; and a hinge structure comprising one or more layers of bendably flexible hinge material a first region of which is interleaved between adjacent layers of said layers of fiber reinforced polymer material comprising the composite structure and bonded to said adjacent layers by bonding material comprising said composite structure, and a second region of which extends beyond said layers of fiber reinforced polymer material comprising the composite structure.

Protective barriers are commonly installed beneath ceilings when construction work is performed either on these ceilings or on the roofs located above them. These protective barriers can be comprised entirely of one material or of different materials connected by seams. Some or all of these materials can be designed to fail when subjected to temperatures above a certain temperature range causing melting or some other destructive process to occur to these materials. These failures can create access points from the ceiling through the protective barrier to areas below being protected by the barrier, which can allow water from a fire suppression system, typically located near the ceiling, to reach a fire located below the protective barrier.

A trim component for a vehicle interior is disclosed. The trim component may comprise a fiber panel comprising a compression-formed component and a structure comprising a resin. The compression-formed component may provide a structural substrate. The structure may comprise a molded resin feature for the structural substrate formed in at least one hole of the fiber panel. The structure may reinforce the structural substrate. The structure may also comprise a border. The fiber panel may comprise structural fibers and a resin. The structural fibers may comprise at least one of natural fibers; synthetic fibers; glass fibers; carbon fibers; polymeric fibers. The resin may comprise at least one of thermoplastic resin; polypropylene; acrylonitrile butadiene styrene; polycarbonate; thermoset resin; epoxy; polyimide; polyester; vinylester. The component may comprise at least one of a center console; a floor console; a door panel; an instrument panel; a headliner; an overhead console; a sun visor.

A trim component for a vehicle interior is disclosed. The trim component may comprise a fiber panel comprising a compression-formed component and a structure comprising a resin. The compression-formed component may provide a structural substrate. The structure may comprise a border (e.g. edge, dimensionally accurate border, etc.); the structure may comprise a molded feature (e.g. rib, ridge, edge, ancillary component, etc.) configured to reinforce and/or support the fiber panel. The fiber panel may comprise a resin to bond the fibers; the structure comprising a resin (e.g. injection-molded plastic/material) may be bonded to the fiber panel. The trim component may comprise a cover for the structural substrate provided by the compression-formed component.

The present invention is an ergonomic safety work mat which includes a modular ergonomic wooden platform with a synthetic tapered marginal border. The purpose of this invention is to provide occupational workers with a therapeutic, forgiving work surface to protect them from the health risks of working, walking and standing on a concrete floor or common anti-fatigue mat used in many factories today. The wooden platform is raised off the floor to offer suspension, thus promoting a spring effect for absorbing and returning compression force resulting in reduced stress loads and compression force for people who work, walk or stand fort extended periods of time. This product is modular in design so that the tapered borders of separate modular sections connect for a snug fit. The vertical edges of the wood sections also have connection points that provide a leveling effect and further enhance the fit of the module sections.

A structural reinforcement for an article including a carrier that includes: (i) a mass of polymeric material having an outer surface; and (ii) at least one consolidated fibrous insert (14) having an outer surface and including at least one elongated fiber arrangement having a plurality of ordered fibers arranged in a predetermined manner. The fibrous insert is envisioned to adjoin the mass of the polymeric material in a predetermined location for carrying a predetermined load that is subjected upon the predetermined location (thereby effectively providing localized reinforcement to that predetermined location). The fibrous insert and the mass of polymeric material are of compatible materials, structures or both, for allowing the fibrous insert to be at least partially joined to the mass of the polymeric material. Disposed upon at least a portion of the carrier may be a mass of activatable material.

Various embodiments for a panel that may be combined with other similar panels to form a padding layer of an athletic field, or other surface, are disclosed. The panel for use in a padding layer of a panel system includes a male locking element configured to form a dove-tail connection with at least one adjacent panel. The dove-tail connection includes a male locking element of the panel coupling with a female locking element of the at least one adjacent panel and forming an interference fit between the male locking element and the female locking element. A space is proved between the male locking element and the female element when coupled that permits thermal expansion of the panel