Removable flooring, which can be peeled from a flooring substrate is prepared by applying to an adhesive layer attached to the surface of a flooring substrate a particulate material followed by application of a cross-linkable or curable polymer composition, or by applying to the adhesive layer a slurry comprising the particulate material and the cross-linkable or curable polymer composition. The cross-linkable or curable polymer composition surrounds the particulate material and adheres to the adhesive layer to provide, upon cure, a coherent, flooring layer comprising the adhesive, particular material and cured polymer which can be peeled from the underlying flooring substrate as a single substrate.

A laminate comprises a wicking fabric and a polymeric film adhered to both sides of the wicking fabric, wherein the wicking fabric comprises a plurality of holes, the polymeric films on both sides of the wicking fabric are fused together at each hole, and the laminate functions as an air barrier when measured in accordance with ASTM E2178-13, and allows the passage of liquid water as per ASTM E2273-18.

A system for using an augmented reality (AR) enabled mobile computing device for performing one-touch registration of three-dimensional (3D) scans of an environment is provided. The system includes one or more processors, a mobile computing device, and a 3D scanner being movable from a first position to a second position. The processors are responsive to executable instructions which cause the 3D scanner at the first and second positions to determine 3D coordinates of a first and second collection of points on object surfaces in the environment. In addition, the 3D scanner receives an estimated location of the mobile computing device from the mobile device in response to the 3D scanner being in contact with the mobile computing device at the first and second locations. A registration of the first collection of points and the second collection of points is based on the estimated locations of the mobile computing device.

The present invention relates to a polyester film for window attachment, including a polyester layer (A) containing a halogen-free blue dye and a pigment. According to the present invention, it is possible to provide a polyester film for window attachment which does not adversely affect the environment when discarded, and has excellent light resistance.

Disclosed is a composite floor, comprising a wear-resistant layer, a polyvinyl chloride patterned fabric layer, a base material layer, a balance layer, and a muting layer that are sequentially arranged, the wear-resistant layer being a melamine wear-resistant paper layer. The composite floor has a clear and vivid pattern, and the wear and scratch resistance is far better than that of a conventional floor, the manufacturing process comprising laying, hot pressing, demolding and tempering steps. The manufacturing process has simple steps, and the obtained composite floor has high dimensional stability and good wear and scratch resistance.

Films with structured adhesives and structured liners are described. Associated methods of making such films are also described. Films as described herein may be particularly suitable to providing adhesive films with structured adhesives with readily recyclable liners.

Provided are roofing membranes comprising pressure-sensitive adhesives particularly adapted for use at cold temperature, and methods for using same. In one aspect, the disclosure provides a roofing membrane comprising: a bituminous sheet having a lower bituminous surface and an upper bituminous surface; and a non-bituminous cold-temperature pressure-sensitive adhesive disposed on the lower bituminous surface, the upper bituminous surface, or both, wherein the cold-temperature pressure-sensitive adhesive has an average adhesion of at least 10 lbs/ft (146 N/m) at 2° C. as measured by a two hour T-peel test.

A multilayer tape is provided. A method of masking a surface is also provided. The multilayer tape includes an inner layer, at least one middle layer, and an outer carrier layer. The inner layer has a pair of parallel adhesive strips demarking an inner gap having a predetermined width. The middle layer is adhered to the inner layer and has a pair of parallel adhesive strips demarking a middle gap narrower than the inner gap. The outer carrier layer is adhered to the middle layer. The method includes applying a multilayer tape system to a surface and removing the outer carrier layer to expose a preselected gap width. The multilayer tape system includes an inner layer, at least one middle layer, and an outer carrier layer.

Embodiment relates to film for bonding, and a light-transmitting laminate including the same and the like, a film for bonding comprising an embossed surface, wherein the embossed surface has an A2/A1 value of 1 or less are disclosed. A film for bonding have improved in deairing stability during formation of a light transmitting laminate, an edge sealing characteristic, and the like by controlling characteristics of a embossed surface.

Safety window films are described. In particular, safety window films including a substrate including polyurethane—the substrate having a first and second major surface, an optically clear pressure sensitive adhesive, and a polymeric liner are described. The first major surface of the substrate is the top surface of the safety film, and the polyurethane has a Shore hardness of less than 80 D. Such films may provide improved physical and optical performance over conventional safety window films, while being easier to install.