A method of forming a polymeric foam material is provided and includes providing a precursor material having a first thickness, the precursor material being an open-cell foam material and applying a uniaxial compressive force to the precursor material to compress the precursor material to a second thickness, the compressive force causing a cell structure of the precursor material to collapse. The method also includes heating the precursor material at a molding temperature for a first time period while the compressive force is applied, the first time period being sufficient to heat the precursor material to a softening temperature, removing the compressive force from the precursor material, and maintaining the cell structure of the precursor material in a collapsed state.

A physically crosslinked, closed cell continuous multilayer foam structure comprising at least one polypropylene/polyethylene coextruded foam layer is obtained. The multilayer foam structure is obtained by coextruding a multilayer structure comprising at least one foam composition layer, irradiating the coextruded structure with ionizing radiation, and continuously foaming the irradiated structure.

A physically crosslinked, closed cell continuous multilayer foam structure comprising at least one polypropylene/polyethylene coextruded foam layer is obtained. The multilayer foam structure is obtained by coextruding a multilayer structure comprising at least one foam composition layer, irradiating the coextruded structure with ionizing radiation, and continuously foaming the irradiated structure.

An apparatus for removing a contaminant from a liquid includes a tension element extending along a length of the liquid and may be near a bottom of the liquid. A plurality of buoyant strips having a polymer defining an open-cell foam are attached to the tension element and extend to a surface of the liquid, with at least a portion of the strips floating on the surface. The polymer may include ethylene alkyl acrylate copolymer (e.g., 100% EMA copolymer).

An apparatus for removing a contaminant from a liquid includes a tension element extending along a length of the liquid and may be near a bottom of the liquid. A plurality of buoyant strips having a polymer defining an open-cell foam are attached to the tension element and extend to a surface of the liquid, with at least a portion of the strips floating on the surface. The polymer may include ethylene alkyl acrylate copolymer (e.g., 100% EMA copolymer).

Proposed are a plastic foam product added with EVA recycled pellets and a method of manufacturing the same, in which there is provided a process for manufacturing a shoe sole by recycling shoe molding waste generated due to defective judgment during a shoe manufacturing process and used shoe waste discarded after use of finished shoe products, thereby allowing shoe manufacturing to meet the trend of pursuing eco-friendly products in Korea and in markets such as Europe, and there is provided a process in which dispersion between materials is strengthened in the process of manufacturing a plastic foam product by adding EVA recycled pellets to an EVA foam compound and mixing them with each other, thereby enabling uniform foaming and thus realizing a good shape and improving the strength and quality of the product.

Proposed are a plastic foam product added with EVA recycled pellets and a method of manufacturing the same, in which there is provided a process for manufacturing a shoe sole by recycling shoe molding waste generated due to defective judgment during a shoe manufacturing process and used shoe waste discarded after use of finished shoe products, thereby allowing shoe manufacturing to meet the trend of pursuing eco-friendly products in Korea and in markets such as Europe, and there is provided a process in which dispersion between materials is strengthened in the process of manufacturing a plastic foam product by adding EVA recycled pellets to an EVA foam compound and mixing them with each other, thereby enabling uniform foaming and thus realizing a good shape and improving the strength and quality of the product.

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.

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.

A physically crosslinked, closed cell continuous multilayer foam structure comprising at least one polypropylene/polyethylene coextruded foam layer is obtained. The multilayer foam structure is obtained by coextruding a multilayer structure comprising at least one foam composition layer, irradiating the coextruded structure with ionizing radiation, and continuously foaming the irradiated structure.