A method for joining incompatible materials is provided that includes the steps of welding a first component formed of a thermoplastic material and a second component of a porous material to one another to form a subassembly and optionally molding a third component around the subassembly. The method enables the incompatible first component and the third component to be joined to one another, such as to form an electrolyte battery flow frame around an ion exchange material and/or microporous separator material in order to form a separator for an electrolyte flow battery.

A tube-in-tube assembled parison for preparation of an elongated medical device. The parison if formed by assembling in tube-in-tube fashion a first tube of orientable polymer material and a second tube formed of orientable polymer material disposed around the first tube, with an adhesive tie layer disposed between the first and second tubes. The tubes are brought into contact to form a unitary parison. The adhesive may allow movement between the polymer layers during balloon blowing. The first tube, or the second tube, or both, may have been longitudinally pre-stretched after formation thereof but before assembly of the parison.

A sealing device generally includes a rotatable support cylinder having an outer, circumferential surface and a heating element disposed about such surface and secured thereto such that the heating element rotates therewith. The heating element is coiled about the outer surface of the cylinder in the form of an overlapping helical pattern. Juxtaposed film plies may be sealed together by bringing the sealing device into rotational contact with the juxtaposed film plies and heating the heating element to a temperature sufficient to cause the film plies to seal together.

The invention relates to a ski boot with an element in shell form, which at least partially consists of a plastics compound material, wherein the compound material comprises a mixture of caprolactam polyamide and ionomers, and to a method for the production thereof, such that cations and anions of the ionomers form ion bonds, wherein elastic components of the compound material form a physical network that is soluble between 60 C. and 100 C., and so the element in shell form of the ski boot that at least partially consists of the compound material can undergo thermoforming below 100 C.

A sealing device generally includes a rotatable support cylinder having an outer, circumferential surface and a heating element disposed about such surface and secured thereto such that the heating element rotates therewith. The heating element is coiled about the outer surface of the cylinder in the form of an overlapping helical pattern. Juxtaposed film plies may be sealed together by bringing the sealing device into rotational contact with the juxtaposed film plies and heating the heating element to a temperature sufficient to cause the film plies to seal together.

A ski boot with an element in shell form at least partially contains a plastic compound material. The compound material contains a mixture of caprolactam polyamide and ionomers, such that cations and anions of the ionomers form ion bonds. Elastic components of the compound material form a physical network that is soluble between 60 C. and 100 C., and therefore the element in shell form of the ski boot at least partially containing the compound material can undergo thermoforming below 100 C.

The present invention is a method for manufacturing a golf ball including a core, at least one intermediate layer, and a cover, the core being formed of a rubber material, the intermediate layer being formed of a resin composition, and the cover being formed of a urethane resin material, the method including: a step (1) of forming an intermediate layer-encased sphere by encasing the core with the at least one intermediate layer; a step (2) of subjecting the intermediate layer-encased sphere to a heat treatment at a temperature of at least a melting point of a base resin of the resin composition of the intermediate layer and less than 160 C.; and a step (3) of thereafter forming a cover-encased sphere by encasing the intermediate layer- encased sphere with the cover.

The invention comprises a peelable membrane for resealably closing a metal end comprising an outer layer, a tacky layer, and a heat seal layer. The heat seal layer is permanently sealed to the metal end to cover at least one opening in the metal end. The tacky layer causes the peelable membrane to be resealable onto the metal end.

A method for joining incompatible materials is provided that includes the steps of welding a first component formed of a thermoplastic material and a second component of a porous material to one another to form a subassembly and optionally molding a third component around the subassembly. The method enables the incompatible first component and the third component to be joined to one another, such as to form an electrolyte battery flow frame around an ion exchange material and/or microporous separator material in order to form a separator for an electrolyte flow battery.

A method for joining incompatible materials is provided that includes the steps of welding a first component formed of a thermoplastic material and a second component of a porous material to one another to form a subassembly and optionally molding a third component around the subassembly. The method enables the incompatible first component and the third component to be joined to one another, such as to form an electrolyte battery flow frame around an ion exchange material and/or microporous separator material in order to form a separator for an electrolyte flow battery.