An apparatus and related methods for constructing articles with cured pressure-sensitive adhesives comprising (i) a coater that applies a curable adhesive to a membrane; (ii) a cross-linking apparatus adapted to receive said membrane with said curable adhesive, said cross-linking apparatus comprising a light source positioned a first predetermined height above an aperture plate having an aperture therethrough, wherein said aperture plate is positioned a second predetermined height, said first predetermined height and said second predetermined height selected to define an exposure area of light emitted from said light source on to said curable adhesive to form a composite product; and (iii) a roll adapted to receive said composite product, said roll adapted to control a speed at which said membrane with said curable adhesive is exposed to light from said light source.

Systems and methods are described herein for manufacturing and using roofing membranes that are faster and easier to install than conventional adhesive-only membrane materials. In some embodiments, membrane materials are surface treated using a plasma flow, e.g., a blown-arc plasma flow, atmospheric plasma, corona plasma, or from portable plasma units, generated by passing a compressed plasma-generating gas through an electrical current to form the plasma-treated roofing membrane. The plasma treatments described herein may be applied as part of the manufacturing process, or in-situ at the site of roof installation. In some embodiments, membrane materials have surface chemistries, roughnesses and other surface characteristics that yield desired adhesion properties.

A unique method and apparatus for metal valley installation that waterproofs shingled roof applications in valley (e.g., such as “V” or “W” metal valley angled roof) applications. Applicant's invention provides a membrane situated between the metal valley and the shingles with a portion of the membrane being situated and secured to the roof deck between the ice and water shield and the shingles. The membrane creates a dead zone that collects or prevents ice and water from backing up from the roof valley over the metal valley, over the edge of the metal valley, and in between the ice and water shield and the shingles.

An installation apparatus for self-adhering roofing material comprises a frame, a roofing material carriage, a press roller, a film take-up roller and a drive connection. A plurality of wheels connected to the frame support the frame for rolling motion over a roof surface. The roofing material carriage is configured to hold a roll of roofing material having a self-adhesive side covered by a release film. The press roller is rotatably mounted to the frame so as to press the self-adhesive side of the roofing material fed thereunder onto the roof surface. The film take-up roller is rotatably mounted to the frame so as to pull the release film from the self-adhesive side of the roofing material and wind the release film thereabout. The drive connection extends between a first end, driven by rotation of the press roller, and a second end, driving rotation of the film take-up roller.

Some embodiments of the present disclosure relate to photovoltaic module for use on a roof. In some embodiments, the photovoltaic module may include a solar cell and a polymeric continuous fiber tape. In some embodiments, the polymeric continuous fiber tape comprises a polymer and glass fiber. In some embodiments, the glass fiber is present in an amount greater than about 50% by weight based on a total weight of the polymeric continuous fiber tape. In some embodiments, the polymeric continuous fiber tape comprises an elastic modulus greater than 1 GPa and an optical transmission greater than 80%.

This invention, in embodiments, relates to a device and a method of attaching a roofing membrane to a building surface that prevents and/or reduces overspray of adhesive onto a welding seam area. The device includes an insertion mechanism configured to hold a roofing membrane as the roofing membrane is being attached to a building surface via an adhesive, and an extension frame attached to the insertion mechanism, the extension frame including a channel that is configured to support and to hold at least one board, to thereby reduce the adhesive from spraying onto a welding seam area as the roofing membrane is being applied to the building surface.

Some embodiments of the present disclosure relate to roofing composites. In some embodiments, the roofing composite includes a first layer having a top surface. In some embodiments, the top surface of the first layer comprises a first embossed surface portion, a second embossed surface portion, and a flat surface portion between the first and second embossed surface portions. In some embodiments, the flat surface portion is between the first and second embossed surface portions. In some embodiments, the roofing composite is configured to attach to a roof structure, such as a roof deck. Methods of forming roofing composited are also disclosed.

Fastener systems for roofing systems are disclosed for fastening a fabric, mesh, or base sheet to a roof deck prior to application of a liquid applied roof coating. The fastening assemblies may be attached to an uncleaned or unprimed roof deck and a fabric is laid atop the fasteners. The fasteners secure the fabric using mechanical binding or chemical bonding without penetrating or dimpling the fabric.

A thermoplastic membrane composite comprising (i) a planar thermoplastic body having first and second opposed planar surfaces; (ii) a fabric backing fixedly attached to said first planar surface thereby forming an interface between said thermoplastic body and said fabric backing; and (iii) expandable graphite disposed at or near the interface.

A membrane including a top waterproofing layer and optionally a layer of fiber material, wherein the top waterproofing layer includes at least one thermoplastic polymer P, at least one thermochromic pigment TP, and at least one UV-light absorber A. Such membranes are able to change their color as a response to a change in temperature, which enables controlling the amount of heat energy absorbed into the membrane and transmitted to a building structure. Further, a method for producing a membrane and to a method for covering a substrate using the membranes of the invention.