The presently disclosed subject matter generally relates to recyclable insulation material for shipping containers, groceries bags, etc., machines for making the recyclable insulation material, and methods for the making the recyclable insulation material. In one aspect, a method of forming an insulation product may include forming a continuous sheet of paper into a plurality of flexible loops defining a plurality of air channels extending in a direction that is substantially perpendicular with a machine direction of the continuous sheet of paper. The method may also include immediately attaching a first layer of paper and a second layer of paper to the plurality of flexible loops as they are formed so that the continuous sheet of paper retains the plurality of flexible loops between the first layer and the second layer and that the plurality of flexible loops remain unattached with respect to one another.

Disclosed is a multilayered film that includes a core layer that includes one or more polymers, wherein the core has a first side and a second side and is optionally oriented. Further, the multilayered film includes a sealing layer comprising a primer and a sealing coating, wherein the primer has a primer coating weight from 0.05 to 0.5 g/m.sup.2 and is located between the first side of the core and a first side of the sealing coating, wherein the sealing coating has a sealing coating weight from 0.5 to 20.0 g/m.sup.2, wherein the multilayered film has a seal strength of at least 1 kg/in at 120° C. In various embodiments, the films showed outstanding seal strength, hot tack for both clear and white films over a broad temperature range, seal integrity under the Skye test, low blocking, and other desirable performance metrics.

A reinforced multilayer material includes a mesh material covered on at least one side, and possibly both, by a layer of a resinous film material. The mesh material includes filaments that intersect one another, at least some of the filaments being composite filaments having a carrier portion of a relatively high melting point and a bonding portion of a relatively low melting point, the bonding portion of each composite filament being thermally bonded to other filaments at least some points of intersection. The multilayer material has a mass per unit area of less than 9.0 oz/yd.sup.2 and at least one of a) a bursting strength to mass per unit area ratio of at least 9.0 lbs./(oz/yd.sup.2), where bursting strength is measured in accordance with ASTM-D37 86 and b) a breaking elongation of at least 5% in the warp direction when breaking elongation is measured in accordance with ASTM-5034. A bag is provided that is made at least in part from a multilayer material having at least some of the characteristics described above.

There are provided herein polymeric films and sheet structures comprising treated latex paint and one or more water-insoluble polymer component, methods for producing such films using a continuous film-making process, and articles thereof. Methods provided herein allow recycling of waste latex paint into thin films and sheets using continuous film-making processes and/or while controlling levels of toxic or volatile contaminants.

In some examples, an electromagnetic (EM) shielding tile is described. The EM radiation shielding tile may include one or more of an EM radiation shielding fabric layer, a mu metal layer, and/or a microwave absorbing layer. In some cases, the EM radiation shielding tile may be configured to bond to clothing, electronic devices, or other objects to deflect and/or absorb electromagnetic field radiation.

According to the present invention, provided are a molded article formed of a thermoplastic resin composition, the molded article having a mean deviation of surface frictional coefficient of 0.02 or more and 0.08 or less, a mean deviation of surface roughness of 4 μm or more and 12 μm or less, a work of compression of 0.05 gf.Math.cm/cm.sup.2 or more and 0.30 gf.Math.cm/cm.sup.2 or less, a bulk density of 0.20 g/cm.sup.3 or more and 0.70 g/cm.sup.3 or less, an area ratio of through-holes of less than 3%, and a thickness of 10 μm or more and 1000 μm or less, and a laminate having the molded article.

A printing press for printing a heat seal film for packaging comprises at least two receivers, a first printer and a laminator, wherein, in use, a first receiver is capable of receiving a sealing layer and a second receiver is capable of receiving a printing layer, wherein the printer prints onto the sealing layer to provide a printed sealing layer and simultaneously the laminator laminates the printed sealing layer together with the printing layer.

The present invention provides a novel multilayer structure including a layered product capable of maintaining high performance even after being subjected to extrusion coating lamination. The present invention relates to a multilayer structure including a layered product and a layer (H) stacked on the layered product. The layered product includes a base (X), a layer (Z) containing an aluminum atom, and a layer (Y) containing a compound (A) containing a phosphorus atom. The layer (H) contains a thermoplastic resin (U), and the thermoplastic resin (U) is a polymer containing an a-olefin unit.

The invention relates to flexible multilayer films comprising a first polymer layer (A), a second polymer layer (B), and a central polymer layer (C), wherein the central polymer layer (C) is situated between the first polymer layer (A) and the second polymer layer (B), and wherein the central polymer layer (C) comprises at least one UV absorber and at least one colorant that, in combination, absorb light in the 175 nm to 525 nm wavelength range. The multilayer film is suitable for producing medical bags having UV and light protection.

The present invention relates generally to a pillow or cushion having embossing and/or debossing elements, apparatus, system, and a method thereof. More particularly, the invention encompasses an apparatus and a method to create fabric cushion or pillow that can have embossing or debossing or a combination of embossing and debossing on them. The invention further comprises of embossed and/or debossed cushion or pillow, with or without cushion filler or insert. These inventive cushion or pillow can be used for both indoor and outdoor purposes. The cushion or pillow sizes can be standard sizes, but they can also be custom sized for any measurement. Embossing and/or debossing are the processes of creating either raised or recessed relief, image, or design in emboss-able/deboss-able materials. For example, an embossed pattern would be raised against a background, while a debossed pattern would be sunken into the surface of the material.