NL8502007A - Fire retardant construction materials - contain sintered fly ash granules - Google Patents

Abstract

A compsn. for fire retardant building materials contains sintered fly ash granules. The system pref. also contains cement and an epoxy resin system as binder; fly ash as filler; and opt. a fibrous reinforcement material e.g. of steel fibre, carbon fibres, polymer fibres, etc.

Description

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Composition, properties and method for manufacturing a fire-resistant construction material.

The invention relates to mixtures of a hydraulic binder and optionally an epoxy system, sintered fly ash granules and fillers and additives and additives, as well as to the properties of these mixtures after curing, and to the manner in which these mixtures are used.

It is known to use fly ash as a partial replacement of cement in concrete-like structures, including shotcrete from e.g. the work of the 10 0ÜR-V3 commission B33. Furthermore, sintered fly ash granules are used as a full or partial replacement for additives such as gravel in concrete-like structures.

It is known to use double-matrix binder mixtures consisting of cement and an epoxy system in concrete-like materials from, for example, Dutch patent applications 7905199 (Rütgerswerke) and, also combined with sintered fly ash granules, 3501557 (Schoenmakers <& van Ooijen), as well as in shotcrete from e.g. German patents DE 3136737 and DE 30348517 (Oebr.Köhne).

Moreover, it is known to use fly ash with thermoplastic plastic as a binder in construction and insulation material from the Dutch patent applications 3C02816 and 8002817 (Vojewodzkie Przedsiebiorstwo 25 V / odociagow i Kanalizacji, Poland).

It is further known to produce fire-resistant coating layers with mixtures in which e.g. Vermiculite and / or Perlite is processed from e.g. applications in Dutch tunnels in road construction.

However, exclusive replacement of part of the cement content by fly ash has little effect on the fire-resistant properties of the material in the construction, as does only the use of the aforementioned double-matrix binder mixture.

35 Exposure of gravel concrete, even with these modifications, to high temperatures can lead to flow of the reinforcement through strong expansion of gravel S Ά * PJ * * '7' t- vP V «d U Ü * 2 and decomposition of cement stone»

The disadvantages of said materials originating from Poland have the drawback that they can only lead to constructions under high temperatures of 160-200 degrees Celsius and by means of extrusion, and that application in or on existing constructions thus becomes economically unfeasible.

The above-mentioned coating layers have practically no useful structural strengths, while they are moreover composed with relatively expensive raw materials.

Complete or partial replacement of additives by sintered fly ash granules, e.g. of the Lytag type, it can be mentioned as a major drawback that the grain absorbs a reasonable amount of moisture, which will give rise to strong vapor exit when exposed to temperatures far above the boiling point of that moisture.

It was therefore a task of the invention to develop a composition which has safe optimum fire-resistant properties, which moreover as construction and / or construction repair material has sufficient inherent strengths and which, with existing equipment, is relatively simple and economical to use. different surfaces and can be used under different operating conditions.

This object is achieved by a cement binder mixture, optionally supplemented with fly ash, and water, optionally with an epoxy system, added to sintered fly ash granules, optionally supplemented with conventional fillers and additives, optionally with the addition of fibrous materials, by means of the so-called dry or apply wet shotcrete system.

Preferably the binder consists of cement, with a choice of the types offered. If the application involves a binder mixture with an epoxy system, the results are optimized by using highly sulphate-resistant cements. A composition of sintered fly ash 8502007 is used as additives

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• z granules (Lytag) in various fractions, from 0-13 mm. broken or not, used, supplemented with conventional quartz sand, sand and gravel types. Optionally, 1 auxiliary materials can be added as described in 1 5 aforementioned Dutch patent application 8501557, as well as preferably fibrous materials of steel, e.g.

Harex, Airex or Dramix, but also carbon, kevlar, | and other fibers. i

The mixture, optionally wholly or partly premixed, is transported under pressure and sprayed according to the shotcrete system.

In the following mixture examples, no absorption of Lytag is included in the composition; g.d. means parts by weight.

EXAMPLE I

composition: G.D .: Rütapox VS-3100-SE-A 40 Rütapox VE-3100-3E-B 20

Portland cement A 400 20 Sand 0-4 mm. (various fractions) 210

Lytag 0-5 mm. (various fractions) 550

Lytag 5-13 mm. (various fractions) 550 later 180 YQ0R3 £ .EjjL 25 composition:

Portland cement A 300

Fly ash 100

Sand 0-4 mm. (various fractions) 760

Lytag 5-13 mm. (div, fractions) 550 30 later 190 EXAMPLE III composition: Rütapox VE-3100-8E-A 36 Rütapox VE-31C0-3E-3 13 35 Portland B / HS 400

Lytag 0-13 mm. (various fractions) 1310

Harex steel fibers 85

Later 200 3302007

Claims (3)

1. Composition of a fire-resistant Iconstruction material, characterized in that it contains sintered fly ash granules. 2. A composition according to claim 1, characterized in that, in addition to cement, it also contains an epoxy system as a binder. Composition according to claims 1 and 2, characterized in that it also contains fibrous materials. Composition according to claims 1 to 3, characterized in that it also contains fly ash. 5. Property of a fire-resistant construction material according to claims 1 to 4, characterized in that, after hardening, it has strengths equivalent to concrete. 6. Property according to claims 2 and 5, characterized in that, after curing, it has a high vapor diffusion resistance and carbonation-inhibiting effect. 7. Method for manufacturing a fire-resistant construction material according to claims 1 to 6, characterized in that it is applied as a shotcrete system in a new construction, Method according to claims 1 to 6, characterized in that the shotcrete system is applied as a repair on existing surfaces. 9. Method according to claims 1 to B, characterized in that it is applied as a spraying system as exclusively fire-resistant layer, 3352007