A sealing profile for embedding into a moulding of curable material, in particular a concrete or plastic moulding, and to a sealing arrangement comprising such a sealing profile. The object of the present invention is to provide a sealing profile for embedding into a moulding of curable material that can be anchored into the moulding in particular such that displacements of the seal in its seat occur to a significantly lesser extent, if at all, when installing or assembling the mouldings. The object is achieved by a sealing profile (1) with a profile region (2) having a profile region surface (4) which is directed towards the moulding (3) after embedding the sealing profile (1), wherein the profile region (2) has, at least in one subregion (6), a non-woven, felted or random fibre layer (5) which is fixedly connected to the sealing profile (1) and which extend beyond the profile region surface (4).

Post-tensioning wrap with pre-packed fiber tapes in resin is wrapped under tension around a concrete article. Post-tensioning wrap comprising a plurality of fiber tapes each comprising a plurality of tendons separated by a resin. The post-tensioning wrap is then cured or partially cured so that the post-tensioning wrap forms a single, unitary material around the cylinder that is substantially impermeable.

This invention relates to a method for manufacturing a polyurethane concrete sandwich component. The inventive method, keeping the transformation of the production flows of the present technology to the minimum, can rapidly form a seamless insulating layer system. The inventive method can prevent the condensation of water vapor between the seams of the insulating board, avoid water percolation and leakage of the walls after the building is finished, and avoid the corrosion of connecting elements and connecting steel bars due to moisture attacks. This invention also relates to a polyurethane concrete sandwich component, which is prepared from the method according to the present invention.

A sealing profile for embedding into a moulding of curable material, in particular a concrete or plastic moulding, and to a sealing arrangement comprising such a sealing profile. The object of the present invention is to provide a sealing profile for embedding into a moulding of curable material that can be anchored into the moulding in particular such that displacements of the seal in its seat occur to a significantly lesser extent, if at all, when installing or assembling the mouldings. The object is achieved by a sealing profile (1) with a profile region (2) having a profile region surface (4) which is directed towards the moulding (3) after embedding the sealing profile (1), wherein the profile region (2) has, at least in one subregion (6), a non-woven, felted or random fibre layer (5) which is fixedly connected to the sealing profile (1) and which extend beyond the profile region surface (4).

This document describes slab products, and systems and methods of forming slab products. Some example methods include placing a first slab section having a first surface within an enclosure, arranging a second surface of a second slab section adjacent the first surface within the enclosure, such that a seam is defined between the first surface and the second surface, sealing the enclosure, providing a resin at an inlet of the enclosure, and flowing the resin through the seam.

A building panel structure and a process for manufacturing the structure are disclosed. The structure comprises a concrete layer disposed on the outside of a building, an insulating material comprising polyurethane in the center of the structure and a corrugated steel layer on the inside of the building. A steel plate overlays the top of the panel and a lip member attached to the plate and perpendicular to it covers a portion of the corrugated steel layer exposed surface. U-shaped loops are welded to the plate and embedded in the concrete to provide structural integrity and shear resistance to the structure. The process of manufacturing the building structure comprises positioning the plate, lip and loop assembly in a container, setting the concrete on the bottom of the container over the loops and forming the polyurethane layer between the concrete and corrugated steel layers by an in-situ chemical reaction.

A building panel structure and a process for manufacturing the structure are disclosed. The structure comprises a concrete layer disposed on the outside of a building, an insulating material comprising polyurethane in the center of the structure and a corrugated steel layer on the inside of the building. A steel plate overlays the top of the panel and a lip member attached to the plate and perpendicular to it covers a portion of the corrugated steel layer exposed surface. U-shaped loops are welded to the plate and embedded in the concrete to provide structural integrity and shear resistance to the structure. The process of manufacturing the building structure comprises positioning the plate, lip and loop assembly in a container, setting the concrete on the bottom of the container over the loops and forming the polyurethane layer between the concrete and corrugated steel layers by an in-situ chemical reaction.

An anchoring method of anchoring an anchoring element in a construction object is provided, where a surface of which object has at least one of pores in a surface, structures in a surface (such as an arrangement of ridges with undercut), a inhomogeneous characteristic with makes the penetration of a surface by a liquid under pressure possible, thereby creating pores filed by the liquid underneath the surface, and of a cavity. The method includes the steps of: providing a first element and a second element, the first element comprising a thermoplastic material; positioning the first element in a vicinity of said surface and/or of said cavity, respectively, and positioning the second element in contact with the first element; and causing a third element to vibrate while loading the first element with a force, thereby applying mechanical vibrations to the first element, and simultaneously loading the first element with a counter-force by the second element.