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.

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.

The present disclosure relates to a method for manufacturing a shoe, in particular a sports shoe, comprising the steps of providing a plurality of individual particles for a sole element in a mold, providing an upper in the mold, and fusing the plurality of individual particles and the upper by means of an electromagnetic field to bond the plurality of individual particles with each other and with the upper.

Methods for manufacturing cushioning elements for sports apparel are described. A method is provided for manufacturing a cushioning element for sports apparel from randomly arranged particles of an expanded material. The method includes positioning a functional element within a mold and loading the mold with the particles of the expanded material, wherein the loading occurs through at least two openings within the mold and/or wherein the loading occurs between different movable parts of the mold.

The present invention relates to a method for producing an expanded beads molded article including performing in-mold molding by a molding method of filling expanded thermoplastic elastomer beads in a mold in a compressed state, in which expanded thermoplastic elastomer beads having a particular bulk density and a particular closed cell ratio are used, and a particular relationship between the internal pressure of the expanded beads and the compression filling ratio is satisfied. According to the method, an expanded thermoplastic elastomer beads molded article excellent in appearance, excellent in dimensional stability, and excellent in fusion bondability, compression characteristics, and rebound resilience of the expanded beads can be produced.

Provided is a foamed heat-insulating material which encapsulates therein a low-heat conductivity gas and which yields high heat insulating performance. High-melting point beads that have been foamed up to a prescribed expansion ratio with a gas of low thermal conductivity by using a resin that does not soften at the beads-foaming temperature and that has a low gas transmission rate are mixed with low-temperature foam beads to be foamed within a forming die, and the resultant mixture is filled in a beads forming die cavity and foamed by heating.

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.

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.

A composite seat core material is configured from: a base portion that is formed by fusing thermoplastic resin foamed particles having no through-hole to each other; and a connecting portion that is provided on the upper side of the base portion, and is formed by fusing foamed particles having through-holes to each other, the connecting portion having interconnected void spaces that communicates with the outside. With the outer surface of the connection portion partially exposed at the top surface of the composite seat core material, the base portion and the connecting portion are fixed and integrated with each other. A seat member is formed by laminating a polyurethane foam pad on the top surface of the composite seat core material.

The present invention relates to a method for manufacturing a particle foam part, in particular a cushioning element for sportswear, such as a shoe sole, or a cushioning element, which has been produced by such a method, in particular a shoe sole. The method for manufacturing a cushioning element for sportswear such as a shoe sole, may comprise the steps of feeding foam particles into a mold cavity of a mold tool, and welding of the foam particles in the mold cavity while applying a predetermined pressure, wherein the foam particles comprise a fraction of at least 10% by weight of recycled, shredded foam particles (regenerated material) and the welding of the foam particles is effected by means of electromagnetic waves.