A panel for a building structure has a predefined curvature. The panel has a generally rectangular shape with a curvature, such that the panel has a convex outer surface and a concave inner surface with a set of side edge regions and a set of end edge regions. The panel is at least one mineral wool fibre slab with a plurality of first strips adhered to the outer surface and a plurality of second strips adhered to the inner surface.

A building module which is a sandwich panel comprising a first region which provides part of the roof structure of a building, a second region which provides part of the wall structure of the building, and a third region which provides part of the floor structure of the building.

One variation of the tile display includes a set of tile assemblies, each tile assembly includes: a base plate; a tile panel; a tile interface; and a set of linear actuator assemblies arranged in a radial pattern about the base plate and cooperating to constrain the tile panel in angular roll, linear heave, and linear sway motion relative to the base plate. Each linear actuator assembly includes: a bearing housing defining a linear bearing, a floating bearing, and a through-hole; an actuator mounted to the bearing housing; a distal link coupled to the tile interface; a first support boom running through the linear bearing; a second support boom running through the floating bearing; and a driven boom running through the through-hole of the bearing housing. Each tile assembly also includes a primary controller configured to maneuver tile panels over ranges of angular pitch, angular yaw, and linear surge positions.

The disclosure is directed to an elongated geodesic dome with an arched-tunnel section. In some embodiments including: a first adjustable angle hub connector, the first adjustable angle hub connector being a connector of a first plurality of tubular struts, the first plurality of tubular struts being inserted into the first adjustable angle hub connector; a second adjustable angle hub connector, the second adjustable angle hub connector being a connector of a second plurality of tubular struts, the second plurality of tubular struts being inserted into the second adjustable angle hub connector; a third adjustable angle hub connector, the third adjustable angle hub connector being a connector of a third plurality of tubular struts, the third plurality of tubular struts being inserted into the third adjustable angle hub connector. The adjustable angle hub connectors may be removable for adjusting a length of the arched-tunnel section of the elongated geodesic dome.

The disclosure is directed to an elongated geodesic dome with an arched-tunnel section. In some embodiments including: a first adjustable angle hub connector, the first adjustable angle hub connector being a connector of a first plurality of tubular struts, the first plurality of tubular struts being inserted into the first adjustable angle hub connector; a second adjustable angle hub connector, the second adjustable angle hub connector being a connector of a second plurality of tubular struts, the second plurality of tubular struts being inserted into the second adjustable angle hub connector; a third adjustable angle hub connector, the third adjustable angle hub connector being a connector of a third plurality of tubular struts, the third plurality of tubular struts being inserted into the third adjustable angle hub connector. The adjustable angle hub connectors may be removable for adjusting a length of the arched-tunnel section of the elongated geodesic dome.

The present disclosure provides a multilayered structural and material system assembly comprising a first layer and a second layer, each of the first and second layer comprises a plurality of slender structural support elements (1), wherein a plurality of anchoring members (2) connects the first layer to the second layer to form a skeleton of the multilayered structural and material system assembly; and a fabric (3) harmoniously integrated into a substantial part of the skeleton to define a plurality of singular models (4), wherein the skeleton comprises a plurality of unit cells (5) arranged in a repeating pattern, each having a first central axis and a second central axis, each unit cell (5) of the plurality of unit cells (5) in the first layer is in a horizontal offset displacement of a corresponding unit cell (5) of the plurality of unit cells (5) of the second layer.

A building panel is provided. The building panel includes an exterior wall portion, an interior wall portion, a pair of opposing sidewalls, a first end portion and an opposite second end portion. The pair of opposing sidewalls spacing apart the interior wall portion from the exterior wall portion to define a cavity therebetween. The exterior wall portion, the interior wall portion and the pair of opposing sidewalls are arcuate in shape to define the building panel. The first end portion has a slip lock slot extending between the pair of opposing sidewalls. The second end portion has a slip lock tab member extending between the pair of opposing sidewalls. The slip lock slot of the building panel is configured to receive the slip lock tab member of a second building panel to adjoin the first and second building panels in a continuous fashion.

A chemical storage tank assembly for storing sulfuric compounds includes a plurality of bricks that is each comprised of basalt. In this way each of the bricks can resist ingress of sulfuric compounds into the bricks. The plurality of bricks are arranged to define a floor, a plurality of walls and a roof of a storage tank to contain sulfuric compounds. A grout is positioned between each of the bricks for binding the bricks together to define the storage tank. Additionally, the grout is comprised of calcium silicate to resist the ingress of sulfuric compounds into the grout.

A structure, system, and method directed to building dwellings, shopping areas, government offices, towns, factories, hospitals and the like on the moon. The structure, system, and method utilize horizontal hole cavities on the moon such that dwellings, shopping areas, factories, government offices, towns, unmanned robot devices, and the like are placed in the horizontal hole cavities where cosmic rays and ultraviolet are not directly incident. Additionally, vertical hole cavities are utilized for building elevators and stairs. In addition, pipes supplying oxygen produced by photosynthesis devices on the moon's surface and carbon dioxide produced by humans in the cavity are used as conduits.

A structure, system, and method directed to building dwellings, shopping areas, government offices, towns, factories, hospitals and the like on the moon. The structure, system, and method utilize horizontal hole cavities on the moon such that dwellings, shopping areas, factories, government offices, towns, unmanned robot devices, and the like are placed in the horizontal hole cavities where cosmic rays and ultraviolet are not directly incident. Additionally, vertical hole cavities are utilized for building elevators and stairs. In addition, pipes supplying oxygen produced by photosynthesis devices on the moon's surface and carbon dioxide produced by humans in the cavity are used as conduits.