RU167851U1 - Fixed formwork slab with combined composite reinforcement - Google Patents

Abstract

The utility model relates to the constructive solution of slabs in the structures of fixed formwork based on the technology of combined reinforcement of products with composite materials, namely non-metallic fiber fibers and two- or three-dimensional composite non-metallic networks. This design can be used for the inner and outer layers in existing designs of fixed formwork as an alternative to existing solutions, as well as in the manufacture of finished reinforced concrete products manufactured industrially. The problem is solved by combining reinforcing a plate of fixed formwork, consisting of a cement composite, non-metallic fiber fibers and two- or three-dimensional composite nets based on non-metallic materials (polymers, carbon and glass fibers kna) .This design provides the production of thin (not exceeding 30 mm thick) fixed formwork slabs with increased strength (compressive strength - not less than 15 MPa, tensile strength in bending - not less than 25 MPa, fire resistance not less than R150) and operational characteristics that allow to establish their release on existing production lines with minimal costs.

Description

The utility model relates to the constructive solution of slabs in the structures of fixed formwork based on the technology of combined reinforcement of products with composite materials, namely non-metallic fiber fibers and two- or three-dimensional composite non-metallic networks. This design can be used for the inner and outer layers in existing designs of fixed formwork as an alternative to existing solutions, as well as in the manufacture of finished reinforced concrete products manufactured industrially.

Known plate fixed formwork (RF patent No. 161713, publ. 04/27/2016), made of hard concrete with a raised upper surface containing longitudinal grooves forming longitudinal ribs located between them, reinforced with flat frames with reinforcing outlets located perpendicularly along their length plane of the plate, also containing longitudinal reinforcement.

The disadvantage of this plate fixed formwork is the use of flat metal frames, whereby the volume reinforcement of the element is not provided.

A known composition for the manufacture of fixed formwork panels (RF patent No. 2301207, publ. 06/20/2007), including the following components: cement, alkali-resistant fiberglass, chemical additive (silicon dioxide, S-3 plasticizer, water) and fine-grained sand.

The disadvantage of this composition is the lack of alternative solutions for the use of other non-metallic fibers with increased characteristics with respect to fiberglass, as well as the absence of additional reinforcing frames that increase the rigidity of the structure while reducing its thickness.

Known fiber-reinforced concrete mixture in the manufacture of monolithic and precast concrete products and structures (RF patent No. 2575658, publ. 02.20.2016), including, by weight. %: Portland cement 26.85-27.8, quartz sand 53.7-55.6, high-modulus fibers - steel fiber wave profile and amorphous metal fiber in a ratio of 1: 0.4-2.4, respectively, with a total percentage of reinforcement in volume equal to 1.5-2.5%, 5.4-8.7, water - the rest.

The disadvantage of this composition is the lack of alternative solutions for the use of non-metallic fibers with increased characteristics with respect to steel fiber, as well as the absence of additional reinforcing frames that increase the rigidity of the structure while reducing its thickness.

A known method of complex reinforcing concrete with non-metallic fiber (RF patent No. 97112728, publ. 05/27/1999 g), which consists in laying fiber-reinforced concrete mixture with non-metallic fiber in a mold and vibrating, and then laying reinforcing glass roving and filling the mold to the top with fiber-reinforced concrete mixture, characterized in that to improve adhesion, glass roving is pre-impregnated with cement paste modified with additives and laid on the underlying layer of fiber-reinforced concrete in the stretched zone of the element.

The disadvantage of this composition is the lack of alternative solutions for the use of non-metallic fibers with increased characteristics with respect to steel fiber, as well as the absence of additional reinforcing frames that increase the rigidity of the structure while reducing its thickness, as well as the need for vibrating the laid mixture.

The closest in technical essence to the claimed utility model is a composition for the manufacture of thin (10-20 mm thick) fixed formwork plates (RF patent No. 23233185, publ. 04/27/2008), containing information about the formulation of a mixture based on a mineral binder - Portland cement ( possible proposed variations: binder based on fine-ground blast furnace slag and liquid glass, alumina cement or silica fume) with the addition of antiseptic and osprey or basalt fiber as a fibrous filler. Also in this patent, options for manufacturing plates of the specified composition are indicated to obtain the claimed strength characteristics (compressive strength: from 7 to 16.3 MPa; tensile from 12.3 to 21 MPa): by pressing under pressure up to 10,000 kG / cm ² or heating to 110 ° C.

The proposed composition and technology for the manufacture of fixed formwork slabs is not sufficiently technological, since they suggest the creation of a specialized production line, while the option of introducing new technologies into existing and functioning technological lines for the production of concrete and reinforced concrete products with minimal costs is currently quite relevant. refitting.

The objective of this utility model is to develop thin (not exceeding 30 mm thick) fixed formwork slabs with increased strength (compressive strength of at least 15 MPa, tensile strength in bending of at least 25 MPa, and fire resistance of at least R150).

The problem is solved by combined reinforcement of a fixed formwork plate consisting of a cement composite, non-metallic fiber fibers (coal, glass, basalt, polymer, pan-fibers with various finishes) and two- or three-dimensional composite nets based on non-metallic materials (polymers, carbon and fiberglass).

The manufacturing process of fixed formwork slabs in combined composite reinforcement on production lines is available at minimal cost associated with the device (if necessary) additional storage and supply of the required components and the readjustment of the mixing and dosing devices.

The plate manufacturing process consists of 3 stages:

1 - Pouring the first layer of the cement composite into the formwork or onto the conveyor belt (with the provided molding sides);

2 - Laying of the composite mesh (volume reinforcing element);

3 - Filling the second layer of the cement composite.

Vibration of the mixture at all stages of manufacturing the product is not required.

In fig. Figures 1 and 2 show the design options for a fixed formwork slab with combined composite reinforcement, where 1 is fiber; 2 - a plate of cement composite; 3 - two-dimensional compositional grid; 4 - three-dimensional compositional grid.

Claims (3)

1. Plate fixed formwork, consisting of a cement composite reinforced with non-metallic fiber, characterized in that it is equipped with a reinforcing frame made of composite non-metal mesh. 2. A fixed formwork panel according to claim 1, characterized in that the reinforcing mesh is two-dimensional. 3. Plate fixed formwork according to claim 1, characterized in that the reinforcing mesh is three-dimensional.

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