A prefabricated concrete element (10) having a textile reinforcement (17) comprising fastening elements (12, 13, 14, 15), which are connected directly to the reinforcement (17). The fastening elements (12 to 15) can have a bent form and pass through a flat side of the prefabricated concrete element (10). The fastening elements can also have a straight or elongated form and emerge on narrow sides of a plate-shaped prefabricated concrete element (I 0). Because of the direct connection between the fastening element (12 to 15) and the reinforcement (17), the prefabricated concrete element can have an especially extensive and thin form and thus can be used as a faade panel.

A prefabricated concrete element (10) having a textile reinforcement (17) comprising fastening elements (12, 13, 14, 15), which are connected directly to the reinforcement (17). The fastening elements (12 to 15) can have a bent form and pass through a flat side of the prefabricated concrete element (10). The fastening elements can also have a straight or elongated form and emerge on narrow sides of a plate-shaped prefabricated concrete element (I 0). Because of the direct connection between the fastening element (12 to 15) and the reinforcement (17), the prefabricated concrete element can have an especially extensive and thin form and thus can be used as a faade panel.

A method for installing building panels, the method including forming a composite building panel from a plurality of panels, transporting the composite building panel to the site of installation and lifting the composite building panel by a lifting facility into position within a building.

A building panel for modular construction. The building panel utilises less framework for reduced complexity, materials and weight. The panel utilises features of the formwork to allow the panel to be moved easily. The panel further utilises new formwork moulds that are easier to use and create effective patterns for keying with like panels.

A foldable transportable building is provided.

Methods, systems, and apparatus for constructing a wall panel and building are disclosed. The wall panel can include: fiber-reinforced concrete layers including concrete with interwoven fibrous materials; an insulation layer; and a connector. The insulation layer is sandwiched between the fiber-reinforced concrete layers, and the connector extends through the insulation layer and concrete layers to create composite action between the insulation layer and the concrete layers.

A wall having a 3D wire mesh panel having a core with a 3D wire mesh matrix extending through and out the core, and a structural material, such as concrete, envelopes the panel. A form positioned about the panel is used to introduce the concrete to the panel during production. Methods for producing the wall, which include producing the wall vertically at a desired location.

A wall having a 3D wire mesh panel having a core with a 3D wire mesh matrix extending through and out the core, and a structural material, such as concrete, envelopes the panel. A form positioned about the panel is used to introduce the concrete to the panel during production. Methods for producing the wall, which include producing the wall vertically at a desired location.

The present invention is directed to a method for the construction of a wall panel with an energy-efficient insulation. The method first provides for cleaning a formwork table using a tool, assembling a formwork by aligning plywood formwork elements, installing additional elements and lubricating the formwork. Then, the method teaches installing a first reinforcement layer and a plurality of clips of the predetermined size and arranged with a predetermined spatial configuration, concreating a first sheet by pouring a concrete mixture into the formwork, installing an insulation layer on top of the first sheet, installing fiberglass ties into holes drilled into the insulation layer, installing a second reinforcement layer using a traverse, concreating a second sheet by pouring the concrete mixture over the second reinforcement layer, exposing the wall panel to heat for about twelve hours, and finally, dismantling the formwork and removing the additional elements.

A method of manufacturing and installing an EIFS panel on a building is provided. The method includes assembling the EIFS panel at a location that is different than a site of the building. Assembling the EIFS panel includes assembling a frame of the EIFS panel, attaching the sheathing onto the frame, attaching insulation to the sheathing, rasping the insulation, and installing a leveling and attachment system on the EIFS panel. The method also includes attaching and leveling the EIFS panel on the building.