A molded pool step, a method of fabricating the pool step and a method of matching a decorative pattern on the pool step to the decorative pattern on a pool liner is disclosed. The pool step is fabricated by applying a decorative pattern to one surface of a transparent sheet of moldable material; positioning the sheet of material on a pool step mold such that the sheet contacts a molding surface of the pool step mold; molding the sheet of material on the pool step mold such that the decorative pattern is located a distance inwardly from an outer surface of the pool step and is thereby prevented being contacted by pool water or people using the pool. When the pool step is molded and installed the decorative pattern on the three-dimension pool step is substantially continuous with the decorative pattern on the liner adjacent the pool step.

A molded pool step, a method of fabricating the pool step and a method of matching a decorative pattern on the pool step to the decorative pattern on a pool liner is disclosed. The pool step is fabricated by applying a decorative pattern to one surface of a transparent sheet of moldable material; positioning the sheet of material on a pool step mold such that the sheet contacts a molding surface of the pool step mold; molding the sheet of material on the pool step mold such that the decorative pattern is located a distance inwardly from an outer surface of the pool step and is thereby prevented being contacted by pool water or people using the pool. When the pool step is molded and installed the decorative pattern on the three-dimension pool step is substantially continuous with the decorative pattern on the liner adjacent the pool step.

A golf club includes a head; a shaft; a grip; and a weight member that is located in a butt end region. The grip and the weight member constitute a grip-weight portion. The shaft, the grip, and the weight member constitute a shaft-grip-weight portion. The head has a weight of greater than or equal to 195 g. The grip-weight portion has a weight of greater than or equal to 40 g. The shaft has a weight of less than or equal to 40 g. The golf club has a weight of greater than or equal to 275 g and less than or equal to 300 g. W1/W3 is greater than or equal to 0.40, where W1 represents a weight (g) of the butt end region, and W3 represents a weight (g) of the shaft-grip-weight portion.

A golf club includes a head; a shaft; a grip; and a weight member that is located in a butt end region. The grip and the weight member constitute a grip-weight portion. The shaft, the grip, and the weight member constitute a shaft-grip-weight portion. The head has a weight of greater than or equal to 195 g. The grip-weight portion has a weight of greater than or equal to 40 g. The shaft has a weight of less than or equal to 40 g. The golf club has a weight of greater than or equal to 275 g and less than or equal to 300 g. W1/W3 is greater than or equal to 0.40, where W1 represents a weight (g) of the butt end region, and W3 represents a weight (g) of the shaft-grip-weight portion.

A progressive stage load distributing and absorbing system that lies below a superstructure material which is exposed to percussive forces. The progressive stage load distributing and absorbing system is interposed between the superstructure material and a foundation. The system has a barrier layer that lies below the superstructure material and an underlayment infrastructure positioned below the barrier layer. Included in the underlayment infrastructure are hat-shaped absorbing members that have a relatively compliant stage subsystem and one or more relatively stiff stage subsystems.

Layers of composite material, such as pre-peg, may be deposited on a reconfigurable polymer mold. An array of actuated pins may deform the polymer mold into a desired 3D shape. The composite material may be inside a cavity formed by the mold and a flexible bag. A vacuum pump may remove air from the cavity, creating a partial vacuum. The partial vacuum may cause the flexible bag to press the composite tightly against the mold, so that the composite conforms to the desired 3D shape. One or more heating elements may be embedded in the mold and may heat the composite to cure the composite. Ball joints may connect the actuated pins to the polymer mold.

A globe assembly and method of manufacturing a raised relief globe including laminating the at least two plastic layer sheets as the printing sheet. The plastic sheet has the longitude and transverse. Both the two layers can have the same longitudinal strength and transverse strength. When laminating, maintain the longitude of first layer same direction as the transverse of second layer, so the transverse of the first layer has the same direction as the longitude of the second layer. A map design is then printed on the flat laminating plastic sheet. The plastic sheet is formed into a substantially hemispherical shape. A mold core is positioned on the back side of the sheet. A styrene backing is molded onto the hemispherical shaped sheet. A second molded hemisphere is produced in the substantially the same manner. The two hemispheres are then assembled as the raised relief globe.

A globe assembly and method of manufacturing a raised relief globe including laminating the at least two plastic layer sheets as the printing sheet. The plastic sheet has the longitude and transverse. Both the two layers can have the same longitudinal strength and transverse strength. When laminating, maintain the longitude of first layer same direction as the transverse of second layer, so the transverse of the first layer has the same direction as the longitude of the second layer. A map design is then printed on the flat laminating plastic sheet. The plastic sheet is formed into a substantially hemispherical shape. A mold core is positioned on the back side of the sheet. A styrene backing is molded onto the hemispherical shaped sheet. A second molded hemisphere is produced in the substantially the same manner. The two hemispheres are then assembled as the raised relief globe.

A molding method according to the present invention is a molding method for molding a prepreg by adhering the prepreg to a first mold including an irregular surface, the molding method including the steps of: placing the prepreg on the irregular surface of the first mold; placing, on the prepreg, an elastic sheet including a protrusion having a tip end shape that follows a shape of a recess of the irregular surface; and sealing a space between the first mold on which the prepreg is placed and the elastic sheet, and vacuum suction the space, in which in the vacuum suction step, the prepreg located in the recess is pressed by the protrusion included in the elastic sheet and adheres to the surface of the first mold (11).

A molding method according to the present invention is a molding method for molding a prepreg by adhering the prepreg to a first mold including an irregular surface, the molding method including the steps of: placing the prepreg on the irregular surface of the first mold; placing, on the prepreg, an elastic sheet including a protrusion having a tip end shape that follows a shape of a recess of the irregular surface; and sealing a space between the first mold on which the prepreg is placed and the elastic sheet, and vacuum suction the space, in which in the vacuum suction step, the prepreg located in the recess is pressed by the protrusion included in the elastic sheet and adheres to the surface of the first mold (11).