AT1668U1 - BUILDING MATERIAL - Google Patents

Abstract

A building material consists of a hardening mass containing a binder and granulated expanded glass as an additive. In order to make optimal use of the excellent physical properties of expanded glass, a mixture of component A and component B in a mass ratio of 1: 1 to 2.5: 1 is provided as the binder, component A being a pure polyether polyol or a mixture of represents various polyether polyols and / or polyether polyol compounds and component B consists of an isocyanate and / or an isocyanate compound.

Description

AT 001 668 Ul

The invention relates to a tree shark made of a hardening mass which contains a binder and expanding gas granulated as an additive.

A building material with granulated expanded glass as an additive is already known from AT 001.015 U, whereby a building material that is valuable with regard to its technical and physical properties is created using waste materials to reduce the environmentally harmful amounts of waste. However, practice has shown that expanded glass can not be processed in the desired manner with all conventional binders and when using cement u. Binder is a brittle material after curing, which has a rather rough surface and requires fabric reinforcement for the production of building boards or the like.

The invention is therefore based on the object of eliminating these deficiencies and of creating a new building material which, in addition to the good, expanded glass-dependent physical properties, is distinguished by its inherent strength and elasticity and its surface quality.

This object is achieved according to the invention in that a mixture of component A and component B in a mass ratio of 1: 1 to 2.5: 1 is provided as the binder, component A being a pure polyether polyol or a mixture of different polyether polyols and / or polyether polyol compounds and component B consists of an isocyanate and / or an isocanate compound. This two-component mixture is particularly suitable as a binder for expanded glass particles or 2 AT 001 668 Ul expanded glass-containing additives. After the binder / expanded glass mass has hardened, a building material is produced which has surprisingly good properties with regard to chemical and mechanical resistance, weather resistance and thermal insulation and, above all, stands out due to its surprisingly good bending elasticity. The bending deformability is primarily determined by the mixing ratio between the two components A and B of the binder. At higher proportions of component A, a flexible building material is produced, which in plate form is also used, among other things, to cover cylinder columns and the like. Like. Can be used. The building material according to the invention could also be used directly as a leveling compound, but it is expediently processed into molded articles by shaping it into cladding panels, profiled pieces or other finished parts by means of suitable casting and / or pressing processes. Shaped bodies are created which are particularly suitable for facade design and facade protection because of their favorable properties.

Of course, additives that improve building chemistry can also be added to the binder / expanded glass mass. For example, an aikali-aluminosilicate of the zeolite A type was added to the end agent as a water-binding additive, which subsequently should prevent moisture-induced gas formation and foaming effects of the binder.

It is particularly advantageous if plastic powder, preferably PVC (polyvinyl chloride) powder, is added to the binder / expanded glass mass, since the powder particles are temporarily stored in the expanded glass granulate and lead to a very smooth surface after curing. Corresponding moldings can therefore be painted over immediately without additional measures and make an application of additional fillers u. The like. unnecessarily.

Design example:

To produce a building material according to the invention, a mixture of two different polyether polyols (component A) with an OH content between 3% and 12% and a viscosity (at 25 ° C.) between approx. 130 mPa s and approx. 650 mPa s is used as the binder and an isocyanate compound (component B) and, as an additive, a mixture of expanded glass particles (grain size 0.25 to 0.5 mm) and PVC powder. As component A, the binder contains a mixture of 2.6 mass units of BAYCOLL® BT 1380 3 AT 001 668 Ul (Bayer) and 1.2 mass units of BAYCOLL® BD 1110 (Bayer) and as component B diphenylmethane diisocyanate. As a moisture-binding or pot-time-stabilizing additive, 0.4 mass units of an alkali-aluminosilicate of the zeolite A type (BAYLITH®-L paste from Bayer) were added to component A. Separate storage of the two binder components A and B also maintains their shelf life.

To produce a hardening building material mass, only the binder components A and B are then mixed in a mass ratio of, for example, 1.5: 1 and added to the aggregate (batch), the aggregate batch being composed, for example, of 9.6 mass units and 4.2 mass units of PVC powder . The result is a hardening building material mass, which is characterized by excellent building physics properties and can also be processed into moldings with excellent surface smoothness, elasticity and flexibility. 4th

Claims (3)

AT 001 668 Ul Claims: 1. Building material made of a hardening mass, which contains a binder and granulated expansion gas as an additive, characterized in that a mixture of a component A and a component B in a mass ratio of 1: 1 to 2.5 is used as the binder : 1 is provided, component A being a pure polyether polyol or a mixture of different polyether polyols and / or polyether polyol compounds and component B consisting of an isocyanate and / or an isocyanate compound. 2. Building material according to claim 1, characterized in that the mass contains an alkali aluminosilicate as an additive. 3. Building material according to claim 1 or 2, characterized in that the mass of plastic is added in powder form. 5