Elasticated materials and articles comprising elasticated materials are disclosed. In an embodiment, an elasticated material may comprise a first layer, second layer, an elastomeric strand disposed between the first and second layers, and a plurality of bonds bonding the first and second layers together. The strand may have straight and arcuate portions. The bonds may comprise a first and a second bond and may be disposed on opposite sides of the strand and separated a distance less than an un-tensioned diameter of the strand. The first and second bonds may be disposed along a strand straight portion. The plurality of bonds may further comprise a third and fourth bond which are longitudinally adjacent and disposed on opposite sides of the strand and spaced apart a distance greater than the un-tensioned diameter of the strand. The third and fourth bonds may be disposed along a strand arcuate portion.

A refrigerant-transporting hose including an inner tube, an outer tube, and a reinforcing layer between the inner tube and the outer tube, the outer tube being formed of an outer tube rubber composition, the outer tube rubber composition containing a brominated copolymer rubber obtained by brominating a copolymer rubber of isomonoolefin and p-alkylstyrene, the content of the repeating units having bromine constituting the brominated copolymer rubber being from 0.8 to 1.5 mol % with respect to the total amount of the repeating units constituting the brominated copolymer rubber, a carbon black A having a dibutyl phthalate absorption amount of 40 cm.sup.3/100 g or less, a brominated alkylphenol resin, and zinc oxide, the content of the carbon black A being 35 parts by mass or greater with respect to 100 parts by mass of the brominated copolymer rubber. Such refrigerant-transporting hose achieves both workability and sealing property at an excellent level.

A hydrogen-filling hose includes reinforcing layers provided coaxially layered between an inner surface layer and an outer surface layer that are coaxially layered. The inner surface layer is formed of a thermoplastic resin and has a gas permeation coefficient of dry hydrogen gas, of 1×10.sup.−8 cc⋅cm/cm.sup.2⋅sec.⋅cmHg or less at 90° C. A flow path formed by the inner surface layer has a diameter of 10 mm or more and 25 mm or less. The reinforcing layers includes four layers or more and eight layers or less, and each of the reinforcing layers has a spiral structure that is formed by spirally winding a metal wire material. Pricking holes extending through the outer surface layer in a thickness direction are dispersedly provided therein.

A method of manufacture (200) of an inflatable product with an attachable foam finish is described that includes modifying (202) a molecular structure of at least one foam sheet; gluing (206) a flexible, glueable or weldable material onto the modified at least one foam sheet to create a bonded structure; and gluing (220) the bonded structure to the inflatable product.

This invention relates in general to a multilayer tube and methods of making the same. In particular, this invention relates to a multilayer tube used as a riser, such as those that may be connected to shutoff or “stop” valve on one end and a plumbing hook-up to the other end. The multilayer tube comprises a first inner polymer layer and a second outer polymer layer, wherein the first and second polymer layers are not substantially bonded to each other. To facilitate use, the tube may additionally comprise one or more overmolded components, such as pipe connectors, plumbing connections, plumbing fittings, valve connectors and appliance connectors. The layers are not substantially bonded.

This invention relates in general to a multilayer tube and methods of making the same. In particular, this invention relates to a multilayer tube used as a riser, such as those that may be connected to shutoff or “stop” valve on one end and a plumbing hook-up to the other end. The multilayer tube comprises a first inner polymer layer and a second outer polymer layer, wherein the first and second polymer layers are not substantially bonded to each other. To facilitate use, the tube may additionally comprise one or more overmolded components, such as pipe connectors, plumbing connections, plumbing fittings, valve connectors and appliance connectors. The layers are not substantially bonded.

A vibration absorption device for acoustic insulation for a building structure comprises an absorbent cushion and a vibration isolation cushion. The building structure is selected from a ceiling structure, a floor structure and a partitioning structure separating two adjacent building compartments or a building compartment and the external environment. The absorbent cushion comprises sound absorbing material and the vibration isolation cushion comprising vibration isolation material. The vibration isolation cushion overlies and is laminated to the absorbent cushion. The vibration isolation cushion is rigid relative to the absorbent cushion. The absorbent cushion is supple relative to the vibration isolation cushion. The vibration absorption device is mountable to the building structure, to isolate vibrations and to provide acoustic insulation between the two separated and adjacent building compartments.

The method for producing a laminate having a patterned metal foil includes masking the whole surface of a first metal foil in a laminate having the first metal foil, a first insulating resin layer having a thickness of 1 to 200 μm and a second metal foil laminated in this order, and patterning the second metal foil.

A cover board and roofing system including a cover board are disclosed. In one embodiment, the cover board includes a core having a first surface and a second surface. The core is configured to overlie a roof substrate. The cover board includes at least one facer attached to the first surface, the second surface, or both the first surface and second surface of the core. The cover board includes a reinforcing layer positioned between the core and the at least one facer. The reinforcing layer may comprise a scrim material. An impact resistance of the cover board may be greater than an impact resistance of an identical cover board without the scrim material.

A cover board and roofing system including a cover board are disclosed. In one embodiment, the cover board includes a core having a first surface and a second surface. The core is configured to overlie a roof substrate. The cover board includes at least one facer attached to the first surface, the second surface, or both the first surface and second surface of the core. The cover board includes a reinforcing layer positioned between the core and the at least one facer. The reinforcing layer may comprise a scrim material. An impact resistance of the cover board may be greater than an impact resistance of an identical cover board without the scrim material.