A cover board for use in a roofing system includes a core including material from at least one recycled roof membrane. The core has a first major surface and a second major surface. A facing layer is positioned adjacent to at least one of the first major surface and the second major surface.

A cover board for use in a roofing system includes a core including material from at least one recycled roof membrane. The core has a first major surface and a second major surface. A facing layer is positioned adjacent to at least one of the first major surface and the second major surface.

The present disclosure provides an adhesive assemblies such as an adhesive assembly for mounting an object to a surface, the assembly comprising: a first adhesive construction including a first major surface and a second major surface, the first adhesive construction including a first adhesive layer, a first core adjacent to the first adhesive layer, the core comprising core material and including first and second major surfaces; and a first arranged pattern of recesses on at least the first major surface of the first core, each recess terminating in a membrane, wherein the membrane is defined by a bottom surface of the recess and comprises core material; and a first adhesive interface at the bottom surface or within the membrane; and a stiffening carrier laminated to the second major surface of the first adhesive construction, the stiffening carrier having a higher stiffness than the first adhesive construction.

Composite panels and methods of preparation are described herein. In some embodiments, the composite panel can include a first fiber reinforcement, a polyurethane composite having a first surface and a second surface opposite the first surface, wherein the first surface is in contact with the first fiber reinforcement; and a cementitious material adjacent the first fiber reinforce-opposite the polyurethane composite. The polyurethane composite can be formed from (i) one or more isocyanates selected from the group consisting of diisocyanates, polyisocyanates, and mixtures thereof, (ii) one or more polyols, and (iii) a particulate filler. The fiber reinforcement can be formed from a woven or non-woven material, such as glass fibers. The composite panel can further include a material, such as a second fiber reinforcement and a cementitious layer, in contact with the second surface of the polyurethane composite. Articles comprising the composite panels are also disclosed.

A composite material and a method for manufacturing same such that the composite material includes a laminate structure and a substrate. The substrate is a flexible substrate. The laminate structure has an upper surface and a lower surface. The laminate structure includes at least one paper and a resin, for example at least one resin impregnated paper. The laminate structure is bonded to the substrate. The laminate structure includes a plurality of slots extending from the upper surface of the laminate structure towards the substrate to thereby impart flexibility on the composite material.

A composite material and a method for manufacturing same such that the composite material includes a laminate structure and a substrate. The substrate is a flexible substrate. The laminate structure has an upper surface and a lower surface. The laminate structure includes at least one paper and a resin, for example at least one resin impregnated paper. The laminate structure is bonded to the substrate. The laminate structure includes a plurality of slots extending from the upper surface of the laminate structure towards the substrate to thereby impart flexibility on the composite material.

A method includes forming a film, forming a first pattern of two or more vias at least partially through the film, attaching the film to a first support structure, the first support structure comprising an adhesive layer formed over a first carrier, wherein attaching the film to the first support structure comprises bonding a first surface of the film to the adhesive layer of the first support structure, wherein the film is stretchable in at least a first direction along the first surface, and wherein the first carrier maintains the first pattern of vias within a given threshold distortion following a given process conducted after attaching the film to the first support structure.

A method includes forming a film, forming a first pattern of two or more vias at least partially through the film, attaching the film to a first support structure, the first support structure comprising an adhesive layer formed over a first carrier, wherein attaching the film to the first support structure comprises bonding a first surface of the film to the adhesive layer of the first support structure, wherein the film is stretchable in at least a first direction along the first surface, and wherein the first carrier maintains the first pattern of vias within a given threshold distortion following a given process conducted after attaching the film to the first support structure.

Devices and methods related to a chitosan-enhanced melamine sponge are provided. A method comprises grafting chitosan on the melamine sponge matrix via the chemical with two or more carboxyl groups; and crosslinking the chitosan with crosslinker under a heating procedure to make a more robust melamine sponge with a larger surface and smaller pores. The chitosan-enhanced melamine sponge is used to separate chemicals from water as a gravity flow-driven filter, and it can be compressed and backwashed for regeneration.

Devices and methods related to a chitosan-enhanced melamine sponge are provided. A method comprises grafting chitosan on the melamine sponge matrix via the chemical with two or more carboxyl groups; and crosslinking the chitosan with crosslinker under a heating procedure to make a more robust melamine sponge with a larger surface and smaller pores. The chitosan-enhanced melamine sponge is used to separate chemicals from water as a gravity flow-driven filter, and it can be compressed and backwashed for regeneration.