A vermiculite laminated film for a vacuum insulation panel is provided. The vermiculite laminated film includes a first vermiculite sheet including a first surface with a positive charge, a second vermiculite sheet including a second surface with a positive charge and laminated on the first vermiculite sheet to allow the second surface to face the first surface of the first vermiculite sheet, and an anion interlayer between the first surface and the second surface.

A construction material with an exposed fleece surface including (i) a planar fleece substrate having first and second opposed planar surfaces, (ii) said planar fleece type substrate is partially saturated on the first planar surface with a first compound that penetrates the fleece type substrate about half way, (iii) said first compound is then partially removed leaving a thin layer of first compound about half way between the first and second opposed planar surfaces of the fleece substrate, (iv) a second compound is applied on the first planar surface forming a fleece membrane with an exposed surface that is partially saturated with two distinct compounds, (v) and said second compound or a different third compound is applied along one edge of the exposed second planar fleece surface of the fleece substrate forming a side lap along the length of the fleece membrane.

A textile fabric is provided, including: a main body and at least one film layer. The main body includes two surfaces opposite to each other, and each of the two surfaces has a surface texture being concave and convex. The at least one film layer is coveringly disposed on at least one of the two surfaces, and each said film layer is concave and convex corresponding to the surface texture. Therefore, the at least one film layer has an appearance corresponding to the surface texture, and the textile fabric has good toughness, is waterproof and is not easily damaged, which solves the problems of insufficient structural strength and poor durability of a conventional textile fabric.

According to the various aspects, a hybrid panel assembly includes a glass panel, a frame configured to surround the glass panel, and a layer manufactured binder disposed between and bonds the glass panel and the frame. In an aspect, the layer manufactured binder is made of a cured resin that is formed layer-by-layer and the frame is made of a copper clad laminate.

Multilayer bands for protecting a painted product are provided. A multilayer band comprises a protecting layer made of a felt comprising polymer fibers and an adhesive layer comprising an adhesive and covering at least a portion of a surface of the protecting layer. The polymer may comprise recycled PET and the adhesive may comprise polyisobutylene. Methods are also disclosed for applying such a multilayer band on a vehicle body part, such as a door or a bumper.

The invention relates to a panel, such as a floor panel, wall panel, or a ceiling panel, comprising at least one core layer and at least one decorative top layer, wherein at least one core layer comprises a significant of natural fibers having an average fiber length of at least 4 mm.

An interior material is composed of: a covering material formed of a resin material and having a front surface which is a design surface and a back surface which is a fixed surface; and a base material to which the fixed surface of the covering material is fixed. An outer stitch is formed on the design surface of the covering material. A protrusion is formed along the outer stitch on the fixed surface. A hole with which the protrusion is engageable is formed at the base material. The covering material is fixed to the base material by engaging the protrusion with the hole.

A safety device for a breaker hammer is provided to enhance safety by preventing stray debris from flying out during operation and causing injury or damage within the operating environment. The cover device comprises multiple layers: EPDM heavy-duty rubber as a base, 304 stainless steel woven wire net for filtration and heat resistance, heavy-duty filter fabric for additional particle capture, and Kevlar fabric for impact resistance. These layers are bonded together and secured around the hammer with ratchet tie-down straps. This protective cover ensures debris containment, reduces the risk of injury and property damage, and allows construction work to proceed safely in high-traffic areas. The device's design balances durability, flexibility, and ease of installation, making it suitable for various construction settings.

A customizable accessory for steel-walled insulated drinking vessels, comprising a magnetic wrap that conforms to the shape of the drinking vessel. The magnetic wrap includes a magnetic layer formed from a flexible magnetic material and a decorative layer made from a printable, wipe-clean material. The decorative layer is adhered to the magnetic layer using an industrial-strength adhesive. The accessory can be customized to fit different vessel circumferences and the magnetic layer provides a magnetic strength of at least 15 mil and a pull strength of at least 12.5 foot-pounds per square foot. The accessory is lightweight and can be manufactured by printing a design on the design layer, applying an industrial-strength adhesive to the adhesive side of the design layer, and bonding the design layer with the magnetic layer. The combined layers are then rolled tightly to retain a cylindrical shape for application to the drinking vessel.

A tube includes a tube head and a tube sleeve extending along a main axis (A), The tube sleeve includes a substrate layer, and a metallic foil. The metallic foil includes a metallic layer arranged at least locally on an external face of the substrate layer and forming locally the most external layer of the sleeve. The metallic foil is engraved by a micro embossed pattern which presents a depth less than 20 m.