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Modular Box Assembly

Resumen de: AU2025213682A1

A modular box assembly includes a box; a first thermal liner constructed of a first length of pre-laminated material, the pre-laminated material comprising an insulation batt in facing contact with a first sheet and with a second sheet, the first thermal liner defining three first liner panels; and a second thermal liner constructed of a second length of the pre-laminated material, the second thermal liner defining three second liner panels. A bottom box panel is covered by one of a first liner panel not covering any side box panel and a second liner panel not covering any side box panel. The insulation batt is formed from a mixture of reinforcement fibers and thermoplastic binder fibers, the reinforcement fibers comprising one of natural fibers, recycled cardboard, and a mixture of recycled cardboard and paper fibers. A modular box assembly includes a box; a first thermal liner constructed of a first length of pre-laminated material, the pre-laminated material comprising an insulation batt in facing contact with a first sheet and with a second sheet, the first thermal liner defining three first liner panels; and a second thermal liner constructed of a second length of the pre-laminated material, the second thermal liner defining three second liner panels. A bottom box panel is covered by one of a first liner panel not covering any side box panel and a second liner panel not covering any side box panel. The insulation batt is formed from a mixture of reinforcement fibers and

Modular Box Assembly

Resumen de: AU2025213681A1

A modular box assembly includes a box; a first thermal liner constructed of a first length of pre-laminated material, the pre-laminated material comprising an insulation batt in facing contact with a first sheet and with a second sheet, the first thermal liner defining three first liner panels; and a second thermal liner constructed of a second length of the pre-laminated material, the second thermal liner defining three second liner panels. A bottom box panel is covered by one of a first liner panel not covering any side box panel and a second liner panel not covering any side box panel. The insulation batt is formed from a mixture of reinforcement fibers and thermoplastic binder fibers, the reinforcement fibers comprising one of natural fibers, recycled cardboard, and a mixture of recycled cardboard and paper fibers. A modular box assembly includes a box; a first thermal liner constructed of a first length of pre-laminated material, the pre-laminated material comprising an insulation batt in facing contact with a first sheet and with a second sheet, the first thermal liner defining three first liner panels; and a second thermal liner constructed of a second length of the pre-laminated material, the second thermal liner defining three second liner panels. A bottom box panel is covered by one of a first liner panel not covering any side box panel and a second liner panel not covering any side box panel. The insulation batt is formed from a mixture of reinforcement fibers and

Modular Box Assembly

Resumen de: AU2025213677A1

A modular box assembly includes a box; a first thermal liner constructed of a first length of pre-laminated material, the pre-laminated material comprising an insulation batt in facing contact with a first sheet and with a second sheet, the first thermal liner defining three first liner panels; and a second thermal liner constructed of a second length of the pre-laminated material, the second thermal liner defining three second liner panels. A bottom box panel is covered by one of a first liner panel not covering any side box panel and a second liner panel not covering any side box panel. The insulation batt is formed from a mixture of reinforcement fibers and thermoplastic binder fibers, the reinforcement fibers comprising one of natural fibers, recycled cardboard, and a mixture of recycled cardboard and paper fibers. A modular box assembly includes a box; a first thermal liner constructed of a first length of pre-laminated material, the pre-laminated material comprising an insulation batt in facing contact with a first sheet and with a second sheet, the first thermal liner defining three first liner panels; and a second thermal liner constructed of a second length of the pre-laminated material, the second thermal liner defining three second liner panels. A bottom box panel is covered by one of a first liner panel not covering any side box panel and a second liner panel not covering any side box panel. The insulation batt is formed from a mixture of reinforcement fibers and

COFFEE BEVERAGE AND METHODS

Resumen de: US2025270030A1

A single-serve coffee package has an outer envelope having one folded edge and three heat-sealed edges, comprising 95% by weight materials that are compostable and demonstrate bio-degradability, a filter bag fully within the outer envelope, having one folded edge and sealed edges, forming a closed envelope having opposite sides, each side comprising one layer of filter material, fully compostable and biodegradable, the filter material exhibiting a plurality of openings through the material, enabling water to pass through, the openings having no dimension exceeding a minimum dimension, a volume of grains of ground coffee within the filter bag, dimensions of the grains precluding coffee grains passing through the openings through the filter material, and an atmosphere of gas within the outer envelope, enveloping the filter bag and the coffee grains, the gas inert relative to materials exposed within the outer envelope.

INSULATED PANELS

Resumen de: US2025270022A1

An insulated panel includes a first layer defining an inner surface; a corrugated medium defining a plurality of peaks, the plurality of peaks attached to the inner surface, a plurality of flutes defined between the corrugated medium and the inner surface; and an insulation material at least partially filling a flute of the plurality of flutes.

RESIN COMPOSITION, NONWOVEN FABRIC AND FILM OF BIODEGRADABLE POLYESTER, AND PREPARATION METHOD THEREOF

Resumen de: US2025270367A1

The embodiments relate to a biodegradable polyester resin composition, to a nonwoven fabric, to a film, and to processes for preparing the same in which the biodegradable polyester resin composition comprises a specific diol component and a specific dicarboxylic acid component and may further comprise nanocellulose, whereby the biodegradability, flexibility, strength, and processability are enhanced. Since the biodegradable polyester resin composition has enhanced biodegradability, flexibility, strength, and processability as compared with the conventional natural biodegradable polymer widely used, it can be applied to various fields such as films, packaging materials, and nonwoven fabrics to show excellent characteristics.

METHOD FOR PRODUCING MOLDED BODY

Resumen de: WO2025177972A1

This method for producing a molded body containing a poly(3-hydroxyalkanoate)-based resin includes carrying out: a step for heating and melting a composition containing a poly(3-hydroxyalkanoate)-based resin; and a step for cooling and solidifying the molten composition to obtain a molded body. The cooling and solidifying step includes: a first cooling step for cooling at a temperature T1; and a second cooling step for cooling at a temperature T2. T1 and T2 satisfy equations (1) to (2) below. Equation (1): T1

MULTI-PHASIC THERAPEUTIC DELIVERY SYSTEM

Resumen de: WO2024086572A1

The invention provides new materials and associated methods that are designed to address certain complex biological phenomena associated with pathologies such as cancer. In this context, embodiments of the invention disclosed herein can provide a multimodal, multitemporal approach to cancer therapy by, for example, targeting selected tumor vessels using materials designed deliver antineoplastic agents as well as anti-angiogenic agents, immunotherapeutic agents, and/or imaging agents, in a temporally controlled fashion.

GAS BARRIER FILM AND COMPOSITE RESIN COMPOSITION

Resumen de: TW202128859A

Provided is a gas barrier film which, while being an eco-friendly material in which biomass is used, is not prone to impaired water resistance. A gas barrier film made of a composite resin. The composite resin contains: a polyhydroxyurethane resin (A) which includes repeating units represented by general formula (1.1) and/or a polyhydroxyurethane resin (A) which includes structural units represented by general formula (1.2), having as the basic structure thereof structural units in which a compound (a1) having at least two five-membered cyclic carbonate structures and a compound (a2) having at least two amino groups are polymerized; a starch-based compound (B); and a metal chelate compound (C) in which the polyhydroxyurethane resin (A) and the starch-based compound (B) are crosslinked, the content of the starch-based compound (B) with respect to 100 parts by mass of the polyhydroxyurethane resin (A) being 10-300 parts by mass.

A RECLOSABLE CONTAINER

Resumen de: US2024253879A1

A reclosable container includes a container body made of a cellulosic material and at least one closing formation including a first closure element and a second closure element engageable with each other to keep the container in a closed configuration and disengageable from each other to open the container, wherein at least one of the first closure element and second closure element is made of a hydrosoluble thermoplastic material.

塊状体およびそれを用いてラベルが接着された容器

Resumen de: WO2025173643A1

The present invention provides: a lump body which is more excellent in terms of bag breaking properties than ever before even if a low-viscosity hot melt adhesive is contained in a meltable bag, and which is excellent in terms of solubility (compatibility) between the meltable bag and the hot melt adhesive, and stringiness at the time of coating; and a container to which a label is adhered with use of the lump body. A lump body according to the present disclosure contains a hot melt adhesive in a meltable bag. The meltable bag is formed of a mixed resin film that contains a low density polyethylene resin (A) which has a density of 923-930 kg/m3 and an ethylene-vinyl acetate copolymer resin (B). The hot melt adhesive contains a wax (C), and has a viscosity of 500-2,500 mPa∙s at 140°C.

ポリマー組成物

Resumen de: CN119654351A

The present specification discloses a polymer composition. The polymer composition comprises a polysaccharide component, wherein the polysaccharide component comprises a radical polymerizable functional group and a non-radical polymerizable functional group. Such a polysaccharide component may form a polymer comprising a polymer chain formed by polymerization of radically polymerizable functional groups and a covalent bond formed by reaction of non-radically polymerizable functional groups. The polymer may form an absorbent material having excellent absorbency, form a biodegradable material having excellent biodegradability, or form a material that is an absorbent material and at the same time a biodegradable material. The invention also provides a use of the polymer composition or the polymer.

プラスチック混合物から塩素を除去するためのプロセス

Resumen de: US2024059805A1

A process that removes chlorine or other halogens from plastic mixtures by passing a plastic mixture through an extruder, a mixer, and one or more devolatilization vessels.

Matériau composite contenant du marc de café et apte à être mis en contact avec un produit alimentaire - procédé et produits associés

Resumen de: FR3159390A1

La présente invention concerne un matériau composite comprenant entre 70% et 98,5% en poids d’un matériau polymérique thermoplastique, entre 1% et 29% en poids de marc de café, et entre 0,5% et 5% en poids d’un mélange comprenant au moins un silicate, un récipient comprenant un tel matériau, et un procédé de fabrication d’un tel matériau.

樹脂粒子

Resumen de: JP2022151289A

To provide resin particles that retain flexibility while preventing the phenomenon of a plasticizer exuding from the resin particles during long-term storage at high temperatures.SOLUTION: Resin particles include mother particles containing a biodegradable resin and a plasticizer. The amount of a metal element that can have an ionic valence of 2 or more, determined by fluorescent X-ray analysis, is 0.002 mass% or more and 2.0 mass% or less, relative to the total amount of the resin particles.SELECTED DRAWING: None

BITUMEN-BASED LAMINATE HAVING A BIODEGRADABLE LINER

Resumen de: WO2025175211A1

Laminates including (i) a bitumen-containing sheet (BCS) having a first side surface and a second side surface, and (ii) a biodegradable nonwoven liner (BNL) laminated to the first side surface of the BCS are provided, The BNL comprises a plurality of regenerated cellulose fibers, in which the plurality of regenerated cellulose fibers are inherently hydrophobic and/or rendered hydrophobic via a topically applied hydrophobic additive.

MOLDED HOOK-AND-LOOP FASTENER, METHOD FOR MANUFACTURING SAME, AND HOOK-AND-LOOP FASTENER OVERLAPPING BODY

Resumen de: WO2025173689A1

Provided are a molded hook-and-loop fastener and a method for manufacturing the same. The molded hook-and-loop fastener (10) has a substrate (11) and hook-type engagement elements (12) protruding from the surface thereof, both the substrate (11) and the hook-type engagement elements (12) being constituted of a cellulose ester resin composition, the cellulose resin composition containinh a cellulose ester and an adipic acid ester-based compound in a weight ratio of 94/6 to 55/45 of cellulose ester to adipic acid ester-based compound, and the degree of orientation of the substrate (11) in the machine direction being 0.120‒0.390.

LUMP BODY AND CONTAINER

Resumen de: WO2025173643A1

The present invention provides: a lump body which is more excellent in terms of bag breaking properties than ever before even if a low-viscosity hot melt adhesive is contained in a meltable bag, and which is excellent in terms of solubility (compatibility) between the meltable bag and the hot melt adhesive, and stringiness at the time of coating; and a container to which a label is adhered with use of the lump body. A lump body according to the present disclosure contains a hot melt adhesive in a meltable bag. The meltable bag is formed of a mixed resin film that contains a low density polyethylene resin (A) which has a density of 923-930 kg/m3 and an ethylene-vinyl acetate copolymer resin (B). The hot melt adhesive contains a wax (C), and has a viscosity of 500-2,500 mPa∙s at 140°C.

INSULATED SHIPPING CONTAINER AND METHOD OF MAKING

Resumen de: US2025263218A1

An insulating shipping container includes an exterior box formed of paper defining a cavity and an interior box formed of paper and positioned within said cavity. The interior box defines a product cavity. A compressed mass of compostable insulating plant material is received in the cavity and around the interior box and covered by a collar.

PACKAGES FOR ABSORBENT ARTICLES

Resumen de: US2025262102A1

A package of one or more absorbent articles is provided. The package comprises a package material comprising natural fibers. The package comprises a plurality of panels comprising a consumer-facing panel. The package is sealed such that the one or more absorbent articles are enclosed therein. The package material exhibits a HuBa value of greater than about 5.3 hours, according to the HuBa Test. The package is recyclable. The package comprises a vertical side seal having a side seal strength. The side seal strength is greater than about 5.1 N/15 mm and less than about 15 N/15 mm, according to Seal Tensile Strength Test.

Biotic material apparatus for thermally protecting and/or transporting temperature sensitive products

Resumen de: AU2025210922A1

Embodiments of the subject invention relate to a method and apparatus for shipping products so as to control the temperatures the products are exposed to. Embodiments can increase the amount of time the product and/or portions of the product experience a desired temperature range and/or reduce the amount of time the product and/or portions of the product experience temperatures outside 5 of the desired temperature range and/or experience an undesirable temperature range. Embodiments can incorporate biotic materials, such as wood fibers or moss, positioned around and/or near the product positioned inside a packaging container or around a pallet load, such that the biotic materials restrict heat flow from one or more locations on the exterior of the package to one or more other locations in the interior of the package. 10 Embodiments of the subject invention relate to a method and apparatus for shipping products so as to control the temperatures the products are exposed to. Embodiments can increase the amount of time the product and/or portions of the product experience a desired temperature range and/or 5 reduce the amount of time the product and/or portions of the product experience temperatures outside of the desired temperature range and/or experience an undesirable temperature range. Embodiments can incorporate biotic materials, such as wood fibers or moss, positioned around and/or near the product positioned inside a packaging container or around a pallet load, such that

METHODS

Resumen de: AU2024215069A1

The present invention relates to a method of manufacturing a pellet or film, wherein the pellet or film comprises cutin, and uses thereof in order to replace single-use plastics.

A Growing Media and Process of Fabrication Therefore

Resumen de: AU2024200613A1

Abstract The invention generally relates to improvements in respect of wettable media, such as growing media and process of fabricating these. The growing media is fabricated in a process comprising providing a mould, the mould defining a shape, depositing a defined amount of media into the mould, wetting the media, compressing the media in the mould, agitating the media while compressed, needling the media so as to promote felting and drying the media. Abstract The invention generally relates to improvements in respect of wettable media, such as growing media and process of fabricating these. The growing media is fabricated in a process comprising providing a mould, the mould defining a shape, depositing a defined amount of media into the mould, wetting the media, compressing the media in the mould, agitating the media while compressed, needling the media so as to promote felting and drying the media. Figure 3 Figure 4 Figure 5 Figure 6 Fe b Step 1: Cut wool placed or Step 2: Hot water sprayed blown into mould over wool until soaked 112024200613 01 Feb 2024 Figure 3 Step 3: Wet wool pressed with some agitation/vibration, using press shaped to mould Figure 4 Step 4: Customised recipricocating needle felting tool/machine runs over the wool from end to end i Note: For blocks requiring a seed hole or plug hole, an object or template will be placed at the required depth and felting will work around the object.This may be Step 5: Steps 1-4 repeat until from above or below and then

RESIN PARTICLES AND COSMETIC PREPARATION

Resumen de: EP4603527A1

Resin particles have closed cells inside and have a volume-average particle size of 1 µm or more and 30 µm or less, the closed cells have an average long axis length of 0.1 µm or more and 2.0 µm or less, and a closed cell porosity is 1% or more and 40% or less.

POLYMERIC MULTILAYER FILM FOR USE IN BIOPROCESSING APPLICATIONS

Nº publicación: EP4601875A1 20/08/2025

Solicitante:

SEALED AIR CORP [US]
Sealed Air Corporation (US)

Resumen de: WO2024081188A1

The presently disclosed subject matter is directed to a polymeric, multilayer film suitable for use in a variety of applications, including (but not limited to) the manufacture of bioprocessing containers. The disclosed film comprises a sealant layer comprising: (i) one or more ethylene/alpha olefin copolymers with an average density lower than 0.922 g/cc; (ii) one or more polymers with an average density higher than or equal to 0.950 g/cc and selected among ethylene/alpha olefin copolymers and/or ethylene homopolymers; (iii) high molecular weight siloxane polymers; optionally, at least one gas barrier layer and an outer skin layer. The sealant layer of the disclosed films provides for a low blocking effect and for high seal strength. In addition, the surface of the sealant layer is inert and substantially free from migratory surface additives and from metal containing particulate additives, such that, when the film is used for manufacturing bioprocessing containers, cell growth and products harvesting are not affected. A method for manufacturing the film, a bioprocessing container comprising the film and a method for culturing cells in such container are also herein disclosed.