Disclosed herein is a thermal and/or fire resistant panel comprising: a panel body comprising a fire resistant composition, wherein the fire resistant composition comprises: a silane cross-linked hybrid inorganic polymer; and a siloxane.

An interior insulation system with moisture control for an exterior building wall has a first insulation element adapted for abutting the interior surface of the external wall; a second insulation element abutting said first insulation element; a vapour barrier covering the interior surface of the second insulation element; and a support structure below the first and second insulation elements and supporting said first and second insulation elements The support structure has a gutter profile having a cavity with an upper opening and at least one ventilation opening, and a third insulation element is provided in at least a portion of said cavity.

A wall insulation system includes a plurality of insulation elements extending along a longitudinal direction. First insulation elements include a first portion proximate a second portion, the first portion having a width greater than the second portion, the first portion having a first face, the first face having grooves formed into the first face. The grooves extend obliquely to the longitudinal direction. A longitudinally extending mounting member is embedded in the first insulating element.

An intermodal container includes a base, a roof, walls extending between the base and the roof, at least one of the walls having a corrugated surface. An insulation for the intermodal container includes a plurality of insulation units, each of the insulation units having a corrugated surface complementary to the corrugated surface of the intermodal container. Frist one of the insulating units has insulating material having a cross-section with a first face and an opposite second face, the first face including a longitudinally extending planar first central section and first and second longitudinally extending planar slanted sections on opposite sides of the first central section. The first and second slanted sections extend obliquely from the first central section toward the second face. A segmented support element is embedded in the insulation unit.

An approved dynamic construction is used for effectively thermally insulating and sealing of a safing slot between a floor of a building and an exterior wall construction. The exterior wall construction includes a curtain wall configuration defined by an interior wall glass surface including one or more aluminum framing members, where the vision glass extends to the finished floor level below. The dynamic, thermally insulating and sealing system includes a first element for receiving the insulating elements, and is positioned in the zero spandrel area of a glass curtain wall construction including only vision glass, to maintain thermally insulating and sealing of the safing slot during exposure to fire and heat as well as movement in order to maintain a complete seal extending across the safing slot.

A box assembly includes a box, a door, an opener, and an insulation material. The box is configured to be installed on a curtain wall. The door encloses an interior space of the box. The opener is configured to open the door. The insulation material is in a compressed state in the interior space when the door is closed. The insulation material is configured to transition to an uncompressed state when the opener opens the door. When the door is opened, the insulation material at least partially extends from the interior space into a sating slot adjacent the curtain wall when the box is in an installed state and the door is opened.

A mineral wool insulating product which comprises a layer, notably a continuous layer, of mixed mineral wool fibres, the mixed mineral wool fibres comprising a binder, first mineral wool fibres and second mineral wool fibres, the first mineral wool fibres and the second mineral wool fibres have a difference of softening point.

An approved dynamic construction is used for effectively thermally insulating and sealing of a safing slot between a floor of a building and an exterior wall construction. The exterior wall construction includes a curtain wall configuration defined by an interior wall glass surface including one or more aluminum framing members, where the vision glass extends to the finished floor level below. The dynamic, thermally insulating and sealing system includes a first element for receiving the insulating elements, and is positioned in the zero spandrel area of a glass curtain wall construction including only vision glass, to maintain thermally insulating and sealing of the safing slot during exposure to fire and heat as well as movement in order to maintain a complete seal extending across the safing slot.

In an embodiment, a multifunctional material system is provided and can include a variable-permeability layer, a desiccant containing layer, and a vapor-permeable supporting layer. The variable-permeability layer can have a vapor permeability that increases with increasing relative humidity. The desiccant containing layer can be adjacent the variable-permeability layer. The vapor-permeable supporting layer can be positioned adjacent at least one of the variable-permeability layer and the desiccant containing layer. Water moves in a first direction from the variable-permeability layer to the desiccant layer when relative humidity is greater adjacent the variable-permeability layer than the desiccant layer. Water moves a second, opposing direction, from the desiccant containing layer to the variable-permeability layer when the relative humidity is greater adjacent the desiccant containing layer than the variable-permeability layer. The rate of water motion in the first direction is greater than the second direction when the humidity gradient is reversed.

The present invention relates to a panel (1) for the construction industry suitable for being fixed to cover a surface (2) of a building structure (3), this panel (1) comprising: a first layer (4), consisting of or comprising an expanded plastic material; a second layer (7), impermeable or substantially impermeable to water and steam, fixed, directly or indirectly, to the first layer (4), and suitable for being positioned, when the panel (1) is installed, on the side opposite to a surface (2) of a building structure (3) to which the panel (1) is fixed. The panel (1) comprises a third layer (8), fixed, directly or indirectly, to the first layer (4) on the side opposite to the second layer (7), and comprising a plurality of first bulges (9), spaced apart from each other so as to define an air channel (10) between them, and having the same height, these first bulges (9) being configured to engage, with their free end (9a), facing away from the first layer (4), with a surface (2) of a building structure (3) to which the panel (1) is fixed. The invention also concerns a method for the laying of a panel (1) according to the invention, comprising the following steps: preparing one or more portions of adhesive (20), in such a quantity that its total volume is less than the total volume of said air channel (10) of the panel (1); - placing said one or more portions of adhesive (20) between a surface (2) of a building structure (3) and the third layer (8) of the panel (1), with the free end (9a) of the

first bulges (9) facing the surface (2); -exerting a pressure on the panel (1) towards the surface (2), in such a way that the one or more portions of adhesive (20) are gradually pushed into the air channel (10) until an end of stroke condition is reached wherein the free end (9a) of the first bulges (9) engages with the surface (2).