SU1742439A1 - Damp-proof roofing - Google Patents

Abstract

Use: construction, waterproofing and roofing. The invention: the coating consists of a reinforcing pad impregnated with a plastic material, for example a bitumen-containing mastic, and attached to the base. The reinforcing gasket is made in the form of a combined synthetic fabric consisting of alternating groups of film and multifilament yarns, with the warp and weft film threads in each group closely adjoining one another, and at the intersections they have a plain weave, in the cells of the fabric not filled with film yarns are nets consisting of multifilament yarns. At the same time, the relative density of free cells in the tissue is 12-58%, preferably 25-40%. Zil.

Description

The invention relates to the construction, in particular to waterproofing and roofing coatings.

Known roofing based on hot bitumen mastic, reinforced with cushioned roofing felt.

The disadvantage of this coating is its low crack resistance, especially over the expansion joints, joints, and in places adjacent to it. If, on the basis of the roof, gaps appear in the indicated places, then in the waterproofing coating cracks are also formed.

Known roofing on the basis of cold bitumen-asbestos emulsion mastic, reinforced with fiberglass.

However, the reinforcement of the mastic layer with glass mesh does not insure the coating against the formation of cracks above the base crevices due to the low value of the tensile elongation of the glass fibers.

A waterproofing coating, reinforced with non-woven scrim pads, is known, which reduces the possibility of cracking.

In such composites, the full strength of the reinforcing pad can be realized only when its tensile elongation is less than or equal to the tensile elongation of the binder, and the ability to deform is sharply reduced in bitumen-containing binders, at low temperatures, which have, as a rule, large values of elongation , do not fully insure coverage against deterioration of its waterproofing properties.

This disadvantage can be eliminated by using reinforcing gaskets, which include durable polyester technical yarns, but this does not preclude a violation of the waterproofing of the coating when cracks form on the base 4 W O

nii. The forces arising in building structures are incomparably large compared with the loads that can withstand without breaking, even a very strong reinforcing gasket.

Closest to the proposed one is a roof, in which a perforated felt sheet is impregnated with bitumen or coal tar when roofing is installed, and a waterproofing coating is formed attached to the base.

The disadvantage of this roof is that when a gap is formed and expanded, through the perforation of the gasket, through cracks form on the base and tear off the base from the base in the immediate vicinity of the gap on the waterproofing layer. Therefore, in order to prevent the roof from leaking, two or more layers of gaskets are used with spreading over each layer with bitumen mastic.

The purpose of the invention is to increase the operational reliability of the coating.

To this end, in a coating containing a reinforcing pad impregnated with plastic material and attached to the base, the reinforcing pad is made of a combination of synthetic fabric in the form of alternating groups of film and multifilament yarns, with film filaments in each group closely adjacent to each other with the formation at intersections plain weave, and multifilament yarns - with the formation of nets with free cells, while the relative area of free cells in the fabric is 12-58%.

Figure 1 shows the coating scheme in its original state; Fig. 2 is the same after a gap is formed at the base; on fig.Z - the scheme of the reinforcing fabric.

The coating (Fig. 1) contains a base 1 of the roof, for example, a cement tie located above the thermal insulation 2 and reinforced concrete slabs 3. The base 1 is primed with bitumen-containing mastic 4, on top of which is applied a waterproofing roof covering consisting of a reinforcing fabric 5 encased in a layer bitumen-containing mastic 6.

When a crack 7 is formed (Fig. 2) and further expanded to the value A, the mastic layer 6 together with the reinforcing fabric 5 peels off from the straps 1 and forms the membrane 8 of width B.

Reinforcing fabric (fig. 3) consists of groups located closely one to the other film threads 9 both at the base and in the weft. Plain weave in places 10

the intersection of the film yarns 9 of the base with the film yarns of the 9 weft fixes the fabric structure and at the same time forms a large mesh, and inside the cells 11 of the large

the nets are fine nets formed by the main 12 and weft 12 filaments, the gaps between which form free cells in the fabric.

To increase the area of free

0 cells in the fabric, it is necessary to have a smaller amount of film threads in each group. However, from the point of view of reliability of fixing the structure of the fabric, in each group there should be at least four plethora of night threads.

The number of multifilament yarns in each group may be different, but the nets that are too large in area and consisting of these yarns do not remain stable.

0 cell sizes when unwinding a roll of fabric. Therefore, the optimal should be considered 6-8 complex threads in each group. This number of film and complex filaments provides a relative free-cell area of 12–58%.

The durability of the waterproofing roofing coating will be maintained when the coating is securely attached to the base of the roof.

0 When installing a roofing coating, a roll of reinforcing fabric is rolled out on a pre-primed bitumen mastic base of the roof and a layer of liquid mastic is applied over the fabric, which flows through the free mesh of the grids consisting of multifilament yarn to the base of the roof. Upon stabilization (hardening) of the mastic, a waterproofing coating is formed attached to the base of the roof.

0 In case of a forced separation of the coating from the base of the roof, the mesh cells of the reinforcing fabric exclude the formation of through holes in the waterproofing layer. If there is a gap at the base of the blood and the width of this gap increases, then a crack does not form in the waterproofing layer above the gap, only plastic stretching of the membrane (part of the coating that has detached from the base of the base) occurs without deteriorating its waterproofing properties.

Synthetic threads (film and complex) have a sufficient amount of tensile elongation, therefore consisting

5 of them, the reinforcing gasket can be stretched quite significantly when the membrane is deformed. In this case, the shear force exfoliates a portion of the coating from the base. Exfoliation extends from the expanding slit.

Experimentally, the width of the slit on the base is increased from 0 to 50 mm, while no cracking is observed in the membrane.

Loads and effects when calculating fastenings of fencing elements to supporting structures in the corners of buildings and along the outer contour of the coating should take into account the negative wind pressure calculated by the formula

  K with,

where kgf / m2 is the maximum value of normal wind pressure;

К 2.75 - the maximum value of the coefficient taking into account the change in wind pressure at a height depending on the type of terrain;

C -2 - aerodynamic coefficient, W -467.5 kgf / m2.

Example. Laboratory tests to determine the strength of adherence of the coating to the base are carried out according to GOST. Samples of several types of roofing are fabricated. The base in the form of a steel plate grounded by bitumen is coated with reinforcing gaskets. Bitumen-containing emulsion mastic in an amount of 6 kg / m2 is applied over the gaskets and the samples are left to stabilize (dry).

The tear-off element is glued to the waterproofing membrane with molten bitumen.

The adhesion between the material constituting the reinforcing gasket and the base is small, therefore the force of detachment of samples corresponding to the proposed coating depends only on the cohesive strength of the mastic and the area of separation, i.e. in practice, the separation force was proportional to the area of the free gasket cells. In a known sample, the peel force, besides the indicated factors, is also related to the strength of the adhesive joint between the mastic and the reinforcing gasket.

The structure of the reinforcing fabric and the properties of the coating are given in the table.

The table shows that the known coating (sample 2) has the worst performance at

very large difference in surface density. The index of adhesion of the coating to the base of samples 1.4-6 exceeds the calculated value, therefore, the area of free cells of the combined synthetic reinforcing fabric is 12%, and 10% (example) is not sufficient.

Thus, with an increase in the number of complex threads with respect to the film, the area of free cells in the fabric increases. But it is impossible to completely replace film threads with complex ones, since its structure in a rarefied fabric will not be

fixed and when unwinding the roll, the density of the threads over the area of the fabric will not remain uniform. The upper limit of the relative free cell area is defined. in practice, it is 58%.

Combined synthetic fabric has the best performance properties, having a relative area of free cells in the range of 25-40%.

In the proposed coating using synthetic reinforcing fabric, only one layer of reinforcing strip is used, which dramatically reduces its surface density and, accordingly,

the cost and complexity of the roofing device, and also makes it considerably easier than the known coating.

Claims (1)

Invention Formula Waterproofing roof covering, including a reinforcing gasket, impregnated with plastic material and attached to the base, characterized in that, in order to increase operational reliability of the coating, the reinforcing gasket is made of a combined synthetic fabric in the form of alternating groups of film and multifilament yarns, the film threads in each group are arranged in close proximity to each other with the formation of interlaced weaves at the intersections, and the complex yarns with the formation of meshes with free cells, with the relative area of free cells in the fabric being 12-58%. Sample Reinforcing gasket Specific strength of coating attachment to the base, kgf / m2 A combined fabric of woven weave made of polypropylene film (2.5 mm wide) and polyester complex (0.22 mm in diameter) threads having a linear density of 60 and 28.3 tex, respectively; density on the basis and duck 40 threads per 10 cm: rapport on the basis of four film and six complex threads, rapport on duck seven film and twisted complex threads; g horse of free cells 12%; surface fabric density 37 g / m2 Three layers of perforated fiberglass sheets with holes of 25 mm in diameter, 75 mm between the centers of the holes; surface density of one sheet is 274 g / m2; mastic is applied over each sheet. Same as sample 1, but duck rapport of nine film and two multifilament yarns; 10% free cell area; surface tissue density 40 g / mg Same as sample 1, but duck rapport: seven film and six complex yarns; free cell area 25%; superficial dense- HOC I fabric 36 g / m2 Same as sample 1, but rapport of four film and 11 complex filaments; 40% free cell space; surface density 33 g / m2 Same as sample 1, but the rapport on the base and the weft are two film and eight complex yarns, the free cell area is 58%; surface density 29 g / m2 minimal maximum 470 500 420 # 0 405 430 1000 1200 1400 1650 1600 2400  / y--:: XLOV f% 1 ° j "" in to 99 "or t with x. (V / co Vo V III f .. - p ° / k / j y / x //,  X fshg I .. L €