A system and method for creating protective sports articles. The system includes a last. A liner of flexible material that defines a pocket is provided. A plurality of padding pieces are provided that each have a bottom surface and an adhesive disposed over the bottom surface. The method includes inserting the last into the pocket of the liner. The method also includes positioning the bottom surface of each of the padding pieces over the liner to engage the adhesive against the liner. The method further includes applying pressure to the padding pieces to bond the adhesive of the padding pieces to the liner to secure the padding pieces to the liner and to form a completed article. The method further includes removing the completed article from the last.

A system and method for creating protective sports articles. The system includes a last. A liner of flexible material that defines a pocket is provided. A plurality of padding pieces are provided that each have a bottom surface and an adhesive disposed over the bottom surface. The method includes inserting the last into the pocket of the liner. The method also includes positioning the bottom surface of each of the padding pieces over the liner to engage the adhesive against the liner. The method further includes applying pressure to the padding pieces to bond the adhesive of the padding pieces to the liner to secure the padding pieces to the liner and to form a completed article. The method further includes removing the completed article from the last.

A dip-formed article includes a laminate in which a rubber layer is laminated on a fiber base material. The thickness of the rubber layer is 0.2 to 0.8 mm, the rubber constituting the rubber layer penetrates into the fiber base material, the maximum depth to which the rubber has penetrated into the fiber base material is 0.1 to 0.3 mm, and the maximum stress at 50% elongation of the laminate is 20 N or smaller.

A dip-formed article includes a laminate in which a rubber layer is laminated on a fiber base material. The thickness of the rubber layer is 0.2 to 0.8 mm, the rubber constituting the rubber layer penetrates into the fiber base material, the maximum depth to which the rubber has penetrated into the fiber base material is 0.1 to 0.3 mm, and the maximum stress at 50% elongation of the laminate is 20 N or smaller.

A vinyl chloride resin composition with which an increase in surface gloss can be suppressed even in the case of repeating the molding of a vinyl chloride resin molded product using the same mold and also favorable tensile elongation and low surface stickiness can be ensured is provided. A vinyl chloride resin composition comprises: a vinyl chloride resin; a plasticizer; and a silicone oil, wherein a content of the plasticizer relative to 100 parts by mass of the vinyl chloride resin is 80 parts by mass or more, a content of the silicone oil relative to 100 parts by mass of the plasticizer is 0.01 parts by mass or more, and a predetermined weight reduction rate of the silicone oil is 7.0 mass % or less.

A vinyl chloride resin composition with which an increase in surface gloss can be suppressed even in the case of repeating the molding of a vinyl chloride resin molded product using the same mold and also favorable tensile elongation and low surface stickiness can be ensured is provided. A vinyl chloride resin composition comprises: a vinyl chloride resin; a plasticizer; and a silicone oil, wherein a content of the plasticizer relative to 100 parts by mass of the vinyl chloride resin is 80 parts by mass or more, a content of the silicone oil relative to 100 parts by mass of the plasticizer is 0.01 parts by mass or more, and a predetermined weight reduction rate of the silicone oil is 7.0 mass % or less.

In a method for producing bandages such as support bandages for knee and elbow joints, an elastic fabric material layer is provided on which reinforcement elements are placed and an uncured elastomer is applied to the fabric material in several layers or sprayed onto the fabric material layer so as to completely cover and embed the reinforcement elements which are firmly engaged thereby with the fabric material layer and form three-dimensional stabilizing structures projecting from the surface of the fabric material layer.

In a method for producing bandages such as support bandages for knee and elbow joints, an elastic fabric material layer is provided on which reinforcement elements are placed and an uncured elastomer is applied to the fabric material in several layers or sprayed onto the fabric material layer so as to completely cover and embed the reinforcement elements which are firmly engaged thereby with the fabric material layer and form three-dimensional stabilizing structures projecting from the surface of the fabric material layer.

A method of making a molded article. The method includes introducing into a mold a composition including thermoplastic particles with hollow microspheres attached to their outer surfaces, rotating the mold, and heating the mold at a temperature at which the thermoplastic particles melt. The hollow microspheres are included in the molded article. Molded articles are also disclosed. A powder composition that includes thermoplastic powder particles and hollow ceramic microspheres attached to outer surfaces of at least some of the thermoplastic powder particles is also disclosed. The hollow ceramic microspheres are either adhered to the outer surfaces of at least some of the thermoplastic powder particles with a liquid or embedded in the outer surfaces of at least some of the thermoplastic powder particles.

A cover for a housing of an electric machine is provided. The cover may include an inner sidewall and an outer sidewall. The outer sidewall may be spaced apart from the inner sidewall to define a coolant channel therebetween. The inner sidewall and outer sidewall may be defined by an interior surface of the cover such that the coolant channel receives end windings of a stator of the electric machine when the cover is secured to the housing. The interior surface of the cover may define features between the sidewalls to promote turbulence of coolant flowing through the coolant channel. The interior surface of the cover may define a meandering trough between the sidewalls to form a predetermined coolant path relative to a location of the end windings when the cover is secured to the housing.