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A method for manufacturing an oxygen absorbing quilt including placing a first sheet on one or more heat elements, wherein the heat elements are included on a bottom portion of a sealing machine; placing one or more oxygen absorbing elements on the first sheet; placing a second sheet over the oxygen absorbing elements and the first sheet, wherein the oxygen absorbing elements are positioned between the first and second sheets; moving a top portion of the sealing machine to a sealing position to press the first and second sheets against the bottom portion; increasing, by one or more heat elements, a temperature of the first and second sheets for a sealing time period to form one or more seals between the first and second sheets; decreasing the temperature of the one or more heat elements; and waiting for a cooling time period.
Resumen de: US2024124208A1
A collectable absorber canister has a predetermined outer configuration selected from the group consisting of an organic shape, an inorganic shape, and a composite shape. A collecting device stores the collectable absorber canister.
Resumen de: WO2024081219A1
A container (20) for storing moisture-sensitive products includes a body (100) having a base (102), a sidewall (104) extending upwardly from the base and leading to an opening that provides access to an interior of the body; an oil (2) disposed within a product compartment (110) in the interior of the body, the product compartment being that portion of the interior of the body in which the oil is disposed while the body is standing upright on the base in a resting position; a cap (200') that covers the opening to form an enclosure that includes the product compartment, the enclosure further including a desiccant compartment positioned above and in fluid communication with the product compartment; and a desiccant material (2000) disposed within the desiccant compartment configured to scavenge moisture from the enclosure so as to stabilize moisture sensitive products suspended in the oil without directly contacting the oil when the body is in the resting position.
Resumen de: US2024117170A1
A composition for electroless plating comprises: from 9 to 29 weight percent, 9.7 to 29 weight percent, or 10 to 29 weight percent, of a first graft rubber copolymer which comprises the polymerized form of at least one conjugated diene monomer and at least one monovinyl aromatic monomer, from 70 to 90 weight percent, preferably 70-89.7 weight percent, more preferably 70 to 85 weight percent, of ungrafted styrenic polymer, from 0.1 to 10 weight percent of a core/shell diene-based rubber having particle size of 100 to 500 nanometers (nm), one or more of a stabilizer and/or antioxidant in total amount of from 0.1 to 5 weight percent, a fatty acid or a salt of fatty acid in an amount of from 0.1 to 2 weight percent, 0 to 5 weight percent of a mold release agent, 0 to 1 weight percent of a metal oxide, 0 to 3 weight percent of a lubricant, and 0 to 20 weight percent of polycarbonate wherein weight percent and ppm are based on total weight of the composition. The composition can be formed into an article having a metal coating electroless plated on the composition.
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Provided are methods of preserving and/or storing Synsepalum dulcificum berry, which may involve separating a pulp of the berry into two or more parts; and freeze drying the berry with the separated pulp.
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The present invention relates to a semiconductive resin composition for a high voltage power cable. Specifically, the present invention relates to a semiconductive resin composition comprising a base resin in which ethylene butyl acrylates having different melting indices are mixed, carbon black, an antioxidant, and a crosslinking agent. In addition, the present invention relates to a semiconductive resin composition for a high voltage power cable, the composition having excellent scorch stability and processability and low volume resistance even at a high temperature.
Resumen de: EP4350057A1
A thermoplastic resin composition for FDM additive manufacturing containing (A) 100 parts by mass of a thermoplastic resin, (B) 0.01 to 5 parts by mass of a primary antioxidant, and (C) 0.01 to 1.4 parts by mass of a secondary antioxidant. The thermoplastic resin (A) is a condensation thermoplastic resin. The primary antioxidant (B) is a phenol antioxidant having at least one structure represented by formula (1). The secondary antioxidant (C) is at least one of a phosphorus antioxidant represented by formula (2), (3), or (4) given in the description and a thioether antioxidant represented by formula (5) or (6) given in the description.In formula (1), R<sup>11</sup> and R<sup>12</sup> each independently represent hydrogen or methyl; and * indicates a bond.
Resumen de: US2024258604A1
The present application discloses a thermally conductive, electrically insulating film comprising: a thermoplastic resin accounting for 15-50% of the weight of the thermally conductive, electrically insulating film, and a thermally conductive filler accounting for 40-70% of the weight of the thermally conductive, electrically insulating film; wherein the thermally conductive filler comprises: a thermally conductive carbon-based filler, a thermally conductive metal oxide or hydroxide filler and a thermally conductive ceramic filler. The thermally conductive, electrically insulating film is used in electronic products or devices to not only impart excellent heat dissipation capability to electronic products and devices, but also meet the insulativity requirement for electronic products and devices. Meanwhile, such a thermally conductive, electrically insulating film further features excellent flame retardancy and mechanical properties to meet the requirements of the operating environment.
Nº publicación: EP4346736A1 10/04/2024
Solicitante:
ANTON DEBATIN GMBH WERK FUER WERBENDE VERPACKUNG [DE]
Anton Debatin GmbH Werk f\u00FCr werbende Verpackung
Resumen de: CA3226572A1
In order to produce a transport bag for transporting liquid samples, in particular blood, urine, tissue samples, or the like, two film layers made of plastic are placed one on top of the other and joined to one another in such a manner that an interior space is formed between the film layers. Before the two film layers are placed one on top of the other, a liquid or viscous carrier material into which absorber particles are or will be mixed is applied to at least one of the film layers. Subsequently, the carrier material with the absorber particles is dried and/or cooled. Preferably, the carrier material is sprayed or spattered or printed or knife coated or brushed onto the film layer.