The disclosure provides a method of fabricating an applicator member for applying a liquid cosmetic, the method comprising a step of making a porous core out of sintered material and a step of overmolding a shell on the porous core, the shell including at least one inlet orifice for admitting liquid cosmetic into the core and at least one dispenser orifice for dispensing liquid cosmetic by means of the core. The disclosure also provides an applicator member obtained by the method and an applicator comprising such an applicator member and a reservoir.

Described are methods for manufacturing a plastic component, in particular a cushioning element for sports apparel, a plastic component manufactured with such methods, for example a sole or a part of a sole for a shoe, and a shoe with such a sole. The method for the manufacture of a plastic component includes loading a mold with a first material includes particles of an expanded material and fusing the surfaces of the particles by supplying energy. The energy is supplied in the form of at least one electromagnetic field.

Paste-processed ultra high molecular weight polyethylene (UHMWPE) polymers, and processes for the formation of dense UHMWPE films from a highly crystalline ultra high molecular weight polyethylene polymer are provided. The UHMWPE films described herein may be manufactured by 1) compressing a dry, porous UHMWPE tape and then stretching above the melt temperature of the UHMWPE polymer; 2) expanding a dry, porous UHMWPE tape above the melt of the UHMWPE polymer without compression; or 3) expanding a dry, porous UHMWPE tape below the melt of the UHMWPE polymer to form a porous membrane and subsequently compressing the porous membrane at temperatures above the melt of the UHMWPE polymer to forma dense film. This dense film may be further stretched biaxially to enhance the properties of the dense film.

A first compressed portion is formed by heating the plastic powder packed in a cavity of a metal mold and sintering a first portion of the plastic powder packed in the cavity in a first compression state. In addition, a second compressed portion is formed by sintering a second portion of the plastic powder packed in the cavity in a second compression state. A lot of interconnected minute voids are formed in the first compressed portion and a lot of interconnected minute voids smaller than the voids in the first compressed portion are formed in the second compressed portion. Such manufacturing work of a plastic sintered body is performed continuously in the metal mold. In addition, two types of porous portions including voids of different sizes are formed by sintering only one type of the plastic powder in the metal mold.

A method for producing a skin-covered foamed molded article includes blow molding a parison into a skin and heating expanded polystyrene beads filled in a hollow space of the skin to form a foam layer fuse-bonded to the skin, polystyrene resin composition having specific Charpy impact strength, MFR and branching degree. The skin of the skin-covered foamed molded article is formed of the specific polystyrene resin composition.

Embodiments disclosed herein relate to polymer resins having a first thermoset and one or more additional components (e.g., a second thermoset and/or a thermoplastic), composite laminates including the same, methods of making and using the same, and composite laminate structures including the same.

Embodiments described herein relate to a composite structures or sandwiches that may have a relatively high bending stiffness and may have a relatively light weight as well as related methods of use and fabrication of the composite sandwiches. For example, a composite sandwich may include a core structure sandwiched between a two composite skins.

Embodiments described herein relate to a composite structures or sandwiches that may have a relatively high bending stiffness and may have a relatively light weight as well as related methods of use and fabrication of the composite sandwiches. For example, a composite sandwich may include a core structure sandwiched between a two composite skins.

A seat cushion body and method of producing the same are provided. In a method of producing a seat cushion body, fiber material is inserted into a mold. Heat is supplied to the fibers to cause thermal activation of binding fibers, so as to effect thermal cross-linking. The resulting seat cushion body includes a resilient portion formed from the fibers and having a fiber orientation along a main load direction of the seat cushion body. The seat cushion body may include at least one further portion formed from the fibers, which has a fiber orientation and/or a density different from the fiber orientation and/or different from a density of the resilient portion. The resilient portion and the at least one further portion may be integrally formed from the cross-linked fiber material as a unitary body.

A reinforced composite structure that includes multiple regions of different geometric configurations connected together by a transition region. The reinforced composite structure includes reinforcement fibers on at least a portion of the transition region.