A wall panel may have a rigid layer, a first insulation layer made from a two-part rigid urethane pour foam, and a second insulation layer made from a phase change material. The first insulation layer may be chemically bonded to the rigid layer and may also be bonded to the phase change layer. The first insulation layer may be positioned between the second insulation layer and the rigid layer. The rigid layer may be a finished surface or a veneer layer may be applied to the rigid layer.

An insulated panel assembly having improved insulative R-value. The insulated panel assembly comprises a cover panel, a first insulation layer, and at least one additional insulation layer, wherein the at least one additional insulation layer has a higher R-value than the first insulation layer. The first insulation layer is secured to the cover panel. The first insulation layer further forms at least one recessed portion. The at least one additional insulation layer is positioned in the at least one recessed portion of the first insulation layer. Examples of the at least one additional insulation layer may include vacuum insulated panels and modified atmosphere insulation panels.

A geopolymeric material is described having compressive strength at 28 days ranging from 15 to 100 N/mm.sup.2, obtainable by curing for 12 hours at a temperature ranging from 20° C. to 60° C., from a geopolymeric aqueous mixture comprising the following inorganic components in the following parts by dry mass: metakaolin 1565 potassium silicate and/or sodium silicate 2040 aggregates recycled from CDW (Construction and Demolition Waste) 5300; said geopolymeric aqueous mixture is obtainable by mixing 20175 parts by mass of water with said inorganic components, and has a viscosity at 23° C. between 100 and 10000 Pa.Math.s, wherein: i) the viscosity is measured via Brookfield methodology, ii) the aggregates recycled from CDW belong to one or more of the classes 17.01.01, 17.01.02, 17.01.03, 17.01.07 according to the European Waste Catalogue, iii) the aggregates recycled from CDW have a grain size less than or equal to 4 mm, preferably less than or equal to 2 mm.

Methods, systems, and panels for retrofitting an existing exterior of a building. In one example, the method may include: (a) obtaining data about an exterior geometry of the existing exterior; (b) using the obtained data, defining a custom retrofit panel system for the exterior geometry; and (c) constructing the custom retrofit panel system including a plurality of panels, in which constructing a panel includes: (i) forming a panel frame by additive manufacturing, the panel frame defining interstitial spaces; (ii) at least partially filling the interstitial spaces with at least one filler; and (iii) in which the constructed panel includes a building facing surface configured to mate with the exterior geometry of the existing exterior.

A building construction system of includes a prefinished exterior weather-tight insulating skin (panel), a cavity and structural zone where electrical, mechanical, plumbing, HVAC, data/audio systems can run freely and be modified, and a prefinished interior wall panel which is easily removable allowing access to the cavity and structural zone. The exterior and interior panels are mounted to structural components and create the cavity therebetween.

The present invention relates to a building exterior panel and an assembly structure thereof. A building exterior panel according to an embodiment of the present invention comprises: a front steel plate; a rear steel plate spaced apart from the front steel plate in the rear direction thereof; an upper frame disposed between the upper ends of the front steel plate and the rear steel plate and having a width in the thickness direction; a first side frame disposed at an end of a first side surface located at one end among horizontal opposite ends of the front steel plate and the rear steel plate; a second side frame disposed at an end of a second side surface located at the other end among the horizontal opposite ends of the front steel plate and the rear steel plate; and a lower frame disposed between the lower ends of the front steel plate and the rear steel plate. In addition, an assembly structure of a building exterior panel according to an embodiment of the present invention comprises: a plurality of building exterior panels as described above; and a base steel member having one side fixed to an outer wall and the other side coupled to the plurality of building exterior panels to support the plurality of building exterior panels.

Provided is a construction assembly comprising: a. a base; b. a layer of glass fiber placed directly on the base; and c. a decorative layer having a plurality of tiles placed immediately on the glass fiber, wherein the glass fiber is mixed with a hardener and a resin to attach the glass fiber directly to the base and the decorative layer.

Construction panel for use as a self-supporting wall or roof panel having a high thermal insulation, comprising a base layer (1) of foamed material provided on both sides with a cover layer (2, 3) of fibre-reinforced, thermo-setting sheet material. The transverse surfaces are covered with a layer of polyurea, polyester or epoxy (5, 7).

A laminated foam composite backer board comprising: a foam core; a first adhesive layer on each face of the foam core; a polymeric film layer on the outer face of each first adhesive layer; a second adhesive layer on the outer face of each polymeric film layer; and a non-woven fabric layer on the outer face of each second adhesive layer.

The invention is related to a method of manufacturing a wall panel and a wall panel system. The method includes: forming a glass-fiber reinforced rigid magnesium oxide layer including the steps of: pouring or injecting a slurry of uncured magnesium oxide into a mold, embedding glass fiber reinforcing material therein, and curing the magnesium oxide to obtain the glass-fiber reinforced rigid magnesium oxide layer having a first side and a second side; applying, to the second side of the rigid magnesium oxide layer, an insulation layer, the insulation layer comprising a foam; and applying to the first side of the rigid layer a veneer layer.