RU2105848C1 - Laminated floor plate - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: this is used in construction of floors for dwelling, industrial, administrative buildings, and also sidewalks. Floor plate has thermal-insulating fiber-concrete layer based on cord fiber (length of fibers 5-25 mm, diameter of fibers 0.2-0.67 mm), and cement top covering of thickness equal to 0.08-0.3 of thickness of thermal-insulating layer. Plate is produced from concrete mix with volume ratio of cement and cord fiber equal to 1:0 - 1:2.0. Concrete mix is subsequently stratified into heat-insulating layer and coating. EFFECT: higher efficiency. 1 dwg 1 tbl

Description

 The invention relates to the construction, namely, floor structures of residential, industrial, office buildings, livestock complexes, as well as paving slabs.

Laminated floor constructions are known, including a heat and sound insulating layer made of concrete (slag concrete, expanded clay concrete), a cement-sand screed - a leveling layer, and a waterproof coating of linoleum, a plastic film [1]
A disadvantage of the known structures is the need for special layers of various materials that do not interact well enough with each other, as a result, these structures do not have the necessary physical and mechanical properties, water resistance, strength, and durability.

Closest to the claimed floor slab is a three-layer floor slab including heat-insulating layers: lower concrete, passing into the middle large-pore concrete layer, and upper waterproof polymer coating [2]
The disadvantages of the known design of floor slabs are the need to use a harmful polymer coating to ensure water resistance and abrasion, as well as low thermal insulation properties of the floor and strength.

 The technical task is to create a cheap, environmentally friendly design of floor slabs from industrial waste products of increased strength, water resistance and improved thermal insulation properties.

 The technical problem is solved in such a way that in a laminated floor plate, including a heat-insulating concrete layer and coating, the plate is obtained from a mixture of cement and cord fiber with a fiber length of 5-25 mm and a diameter of 0.2-0.67 mm with a ratio of their volume 1: 0.5-1: 2.0 and a water-cement ratio of 0.3-0.6, followed by its delamination in the form to form a heat-insulating layer and coating, while the coating is formed of cement stone and has a thickness equal to 0.08- 0.3 thickness of the insulating layer.

 The proposed design of the floor slab differs from the known one by the performance of the heat-insulating layer of fiber-reinforced concrete based on cord fiber, and the coating is of cement stone.

 The use of cord fibers in the indicated quantities as a filler in a layer of heat-insulating concrete provides both the heat-insulating properties of the floor and the increased tensile strength during bending, and also reduces the weight of the product.

 Cement stone coating allows for water resistance and tight adhesion to the insulating layer. In this case, the ratio of the thicknesses of the layers is selected from the calculation of the optimal physical and mechanical properties of the floor slabs depending on the area of their use in administrative, livestock buildings and as paving slabs.

 The formation of slabs from concrete mix based on cement and cord fiber by its delamination provides two-layer slabs in one cycle.

 The drawing shows a laminated floor plate.

 The slab contains a heat-insulating fiber-reinforced concrete layer 1 and a coating 2 of cement stone.

 The floor plate has standard sizes and is made as follows.

 In the mixer, a mixture of cement binder, cord fibers and water with additives is prepared. Portland cement M400, GOST 10178-85 are used as a binder (binders of low water demand or finely ground cement and other cement binders with the addition of up to 50% by weight of sand or ash cement can be used). As filler (fiber) cord fibers 5-25 mm long and 0.2-0.67 mm in diameter according to TU 38108046-88. The ratio in the mixture by volume of Portland cement to cord fiber is 1: 2 1.0: 0.5. Water-cement ratio of 0.3-0.6.

 The mixture is mixed until homogeneous and placed in a form, for example, polymer to obtain a glossy surface of the plate. The mold with the mixture vibrates at a frequency of 75 Hz and an amplitude of 0.03-0.06 cm for 1.5-3.0 minutes. As a result of the stratification of the mixture, two layers are formed: the upper one, filled with cord fiber with the ratio of fibers to cement by volume 0.8: 1.0 1.2: 1.0 and the lower one from cement mortar with a thickness of 0.3-0.08, respectively, of the thickness of the insulating layer. Molded products are kept to harden and redistributed. Get two-layer slabs from a heat-insulating layer - fiber-reinforced concrete and coatings of cement stone with a ratio of layer thickness of 3.3 to 12.5.

 Physico-mechanical properties of the plate are shown in the table.

Claims (1)

 A laminated floor slab, including a heat-insulating concrete layer and a coating, characterized in that it is obtained from a mixture of cement and cord fiber with a fiber length of 5 25 mm and a diameter of 0.2 0.67 mm with a ratio of volume 1 0.5 1 2 , 0 and a water-cement ratio of 0.3 0.6 with its subsequent delamination in the form for forming the heat-insulating layer and the coating, the coating being formed of cement stone and has a thickness equal to 0.08 0.3 of the thickness of the heat-insulating layer.

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