Wedge-shaped extruded polystyrene foam CARBON PROF SLOPE. Wedge-shaped extruded polystyrene foam CARBON PROF SLOPE Wedge-shaped products from extruded polystyrene foam boards

Paintwork and waterproofing materials– a product that is as necessary as it is delicate. These materials protect people, residential, warehouse, commercial, office or industrial premises, and what is located in this room, from moisture and fire. Some of them retain heat, others save the object they are applied to from corrosion. They are subject to serious environmental requirements, and often they must also not spoil, but rather, decorate the place and area where they are applied from an aesthetic point of view. In order to observe everything and comply with everything, and even on high level, we need strong, experienced, highly qualified professionals.

Trade House "Technologies of Achievements", producing paints and varnishes and waterproofing products are just such professionals. Our bar is set very high, and we never lower it, on the contrary, we only raise it.

For example, from us you can purchase primer-enamel XB-0278 - the best salvation from rust and corrosion. Primer-enamel XB-0278, which you will purchase at the Trade House "Technologies of Achievements", has three properties in one package: this enamel, a primer and a rust converter. Primer enamel XB-0278 from the Trade House "Technologies of Achievements" is not afraid of sub-zero temperatures, vapors, gases, reagents, quirks of nature and the atmosphere. Primer enamel XB-0278 is great for surfaces that are difficult to clean for one reason or another - curbs, fences, garages. In addition, primer-enamel XB-0278 is an excellent solution for any structures in household and production premises and even for car repairs.

In addition, we offer our clients silicone sealant. Silicone sealant from TD "Technologies of Achievements" reliably protects the surface from moisture and saves it from destruction, perfect for sealing seams and cracks, gluing spare parts, sealing various joints. The silicone sealant we offer allows the bonded surfaces to maintain elasticity and mobility. Our silicone sealant is resistant to a variety of chemical cleaning agents. Silicone sealant from the Trade House "Technology of Achievements" after drying is durable and able to withstand heavy loads.

Trade House "Achievements Technologies" also has a bitumen primer in its assortment. The bitumen primer from the Trade House "Achievements Technologies" can be used in the widest temperature range, from extreme minus to extreme positive. The bitumen primer we offer is elastic even in the dry state, which allows it to maintain waterproofing and strengthening properties, even if the building shakes or shrinks. The bitumen primer from the Trade House "Technology of Achievements" perfectly prevents corrosion and prevents the development of fungi and mold. This bitumen primer is non-toxic and easy to use.

Our products are the embodiment of reliability, true high quality, and an absolutely reasonable price. Cooperation with us means your saved money and nerves and the pleasure acquired along with our products from our professional and customer-oriented approach. Contact us - and have no doubt that you will like it!

TECHNONICOL CARBON PROF SLOPE (wedge) is a set of slabs with a slope of 1.7% (slabs A and B), 3.4% (slabs J and K) and 8.3% (slab M), cut from extruded polystyrene foam with a thickness of 40 mm, 80 mm, 70 mm. Used to organize roof slopes.

Application area

Installing a slope on the roof, increasing the slope or changing the direction of water flow;
Installation of a slope in the valley to the water intake funnels;
Creation of slopes (gutter) near ventilation shafts and skylights;
Creating an additional slope to drain water from the parapet (counter slope).

Existing problems of lack of slopes on the roof

The lifespan of any roof can be significantly increased by creating optimal slopes. One of the main reasons for shortening service life roofing caused by the formation of stagnant zones (puddles) on the roof surface. This problem is associated with violation or incorrect installation of slopes and counterslopes on the roof. Repeated and periodic processes of freezing and thawing of water in stagnant zones lead to premature failure of the waterproofing coating.
Formation of a plant layer in stagnant zones.
Stagnant zones create ideal conditions for the emergence of a plant layer: seeds distributed through the air settle in favorable conditions in stagnant zones. This leads to damage by plant roots to the main waterproofing coating and, consequently, to premature failure of the entire roofing structure.
Problems traditional solutions.

As traditional solutions for creating slopes and counter-slopes, cheap fill-in insulation materials (expanded clay, perlite) or lightweight concrete mixtures (expanded polystyrene concrete, expanded clay concrete, perlite concrete) are used.

The use of backfill insulation is associated with the problem of their displacement, and, consequently, violation of the design slopes. In addition, the rather large granules of the backfill insulation (20 mm) do not allow for a smooth increase in slope. Use of the lungs concrete mixtures leads to additional loads on the base, increased deflections load-bearing structure, and the rise in price of all roofing system. In roofs with a concrete load-bearing base, the installation of slopes traditional ways involves the use of wet processes (pouring expanded clay with cement laitance, installing a slope of lightweight concrete). All this makes it difficult to carry out reconstruction and roofing work at subzero temperatures.

Also, to install a slope on the roof, various slab insulation, which with the help cutting tools(for example, hacksaws, saws, milling cutters) are modified for further use as a slope-forming layer. Carrying out these works is associated with large time, financial, labor costs, etc.

CONCLUSION: To achieve the required slope, you need to use an inexpensive rigid slab with a slope. As practice shows roofing construction, optimal slope on the roof should be at least 1.5%, counter-slope - from 3%.

The use of TECHNONICOL CARBON PROF SLOPE slabs allows you to solve the problems of stagnant zones associated with installing a slope on the roof, increasing the slope or changing the direction of water flow, installing a slope in the valley to water intake funnels, creating slopes (gutter) near ventilation shafts and skylights, creating an additional slope to drain water from the parapet (counter-slope).

Using TechnoNIKOL systems for creating slopes or counter-slopes TECHNONICOL CARBON PROF SLOPE, you get additional benefits:

Reduced loads on the base through the use of low-density extruded polystyrene foam boards;
Absence of “wet” processes during the construction of slopes and counterslopes;
Significant reduction in labor costs for performing slopes;
Reducing work completion time.

Construction of a slope-forming layer from wedge-shaped thermal insulation TECHNONICOL CARBON PROF SLOPE cannot completely replace the main thermal insulation layer required by thermal engineering calculations due to the variability of the layer thickness, despite the fact that it is made from highly effective thermal insulation material.

The use of wedge-shaped thermal insulation has an undeniable advantage - it speeds up and simplifies the installation of the roof even in winter. The use of a prefabricated screed made of flat slate and wedge-shaped thermal insulation eliminates “wet” processes from the production cycle, as well as the time required for drying and strengthening the screeds. Insulation made from extruded polystyrene foam has a closed-cell structure and is not afraid of moisture when assembling the roof. This simplifies its storage on the roof and its use, which is especially important in Russian construction sites.

Basic physical and mechanical characteristics

XPS TECHNONICOL	Test method	CARBON PROF SLOPE
XPS TECHNONICOL	Test method	Element A (1.7%)	Element B (1.7%)	Element J (3.4%)	Element K (3.4%)	Element M (8.3%)	CARBON PROF 250 (Additional plate)
Compressive strength at 10% linear deformation, not less than, kPa	GOST 17177	250
Thermal conductivity at (25±5)°С, W/(m*K), no more	GOST 7076-99	0,028
Thermal conductivity under operating conditions “A and “B”, W/(m*K),	SP 23-101-2004 GOST 7076-99	0,034
Water absorption, %, no more	GOST 15588	0,2
Flammability group	GOST 30244	G4, G3*
Density, kg/m 3, not less	GOST 17177	28
Geometric dimensions		A	IN	J	TO	M
Length, mm		1200	1200	600	600	600	580
Width, mm		600	600	1200	1200	1200	1180
Thickness, mm		from 10 to 30	from 30 to 50	from 10 to 30	from 30 to 50	from 10 to 60	40, 50
volume, m3		0,0144	0,0288	0,0144	0,0288	0,0252	0,0288
Operating range, °C	THAT	From -70 to +75

* To order.

Packaging Details

The boards are packaged in UV-stabilized film and delivered on pallets

Manufacturing jobs

According to the “Guidelines for the design and installation of single-layer roofs from polymer membranes TechnoNIKOL Corporation, 3rd edition 2010"

According to the “Guide to the design and installation of roofs from bitumen-polymer materials Roofing Company TechnoNIKOL"

Storage

It is allowed to store TECHNONICOL CARBON PROF SLOPE XPS slabs under a canopy that protects them from precipitation and sun rays. When stored under a canopy, the slabs should be placed on pallets, stands or bars.

It is allowed to store TECHNONICOL CARBON PROF SLOPE XPS slabs on outdoors in special packaging that protects from external atmospheric influences.

Precautionary measures

Keep away from fire. Chemically unstable to gasoline, organic solvents, as well as bitumen glue with high content organic solvent.

Wedge slab Carbon Prof Slope TechnoNIKOL is made from extruded polystyrene foam. The material is used for slope to the water intake funnel in flat roof. When working, it is necessary to carry out a roof slope scheme, which is calculated by engineers according to their special calculations. And to find out the cost of TechnoNIKOL xps material, the price is determined based on preliminary engineering calculations.

An undeniable advantage of using the material is the accelerated and simplified installation of the roof at any time. Wedge-shaped thermal insulation in combination with a prefabricated flat slate screed eliminates the “wet” process during production, as well as drying time. Insulation made from extruded polystyrene foam is easily stored on the roof and is moisture resistant.

The advantages of the material include: reduced loads on the base, reduced time and labor costs during the work, the absence of a wet process in the work performed when creating slopes and counterslopes.

XPS TECHNONICOL CARBON PROF SLOPE. Packaging, storage.

The slabs are packed in UV film and laid on a foam board for easy unloading. The manufacturer recommends storing the product under a protective canopy from exposure to precipitation, sunlight and harmful substances. The slabs under the canopy are carefully placed on stands in pallets. Products can be stored outdoors in special packaging that protects them from environmental influences.

The use of plates of this type eliminates problems and solves issues in roofing works Oh:

stagnation zone in places of slope on the roof;
allows you to increase the slope or change the direction of water flow;
deflection device and a number of other points.

For the required slope, use an inexpensive, rigid, sloped slab. From the practice of roofing work, the slope on the roof should optimally be from 1.5%, and the counter-slope from 3%.

TECHNONICOL XPS	Test method	TECHNONICOL CARBON PROF SLOP
		Element A (1.7%)	Element B (1.7%)	Element J (3.4%)	Element K (3.4%)	Element M (8.3%)	CARBON PROF 250 (Additional plate)
Compressive strength at 10% linear deformation, not less than, kPa
Thermal conductivity at (25±5) 0 C, W/(m*K), no more	GOST 7076-99
Thermal conductivity under operating conditions “A and “B”, W/(m*K),	SP 23-101-2004 GOST 7076-99
Water absorption, %, no more
Flammability group
Density, kg/m 3, not less

Carry out the construction of a house from polystyrene foam blocks, quickly level the walls, ceiling base, make a screen for the bathtub, build light partition, many other such issues can be solved using extruded polystyrene foam boards. You just need to find out more about them.

In this article

Characteristics of extruded polystyrene foam

Extruded polystyrene foam is an insulation material High Quality, which is produced by mixing polystyrene granules under high pressure and temperature with a specially foaming agent and subsequently extruded from the extruder. Such building slabs made of polystyrene granules, reinforced with fiberglass fabric on both sides and coated with a polymer cement agent. As a result, they have high moisture and heat resistance, which makes it possible to use them inside buildings (in living quarters, bathrooms, even in saunas), and outside.

Structures can be made from extruded polystyrene foam blocks various shapes. Such slabs can have a thickness from 1 to 5 cm, and dimensions - 60x120, 60x260 cm. They can be easily cut using a construction knife or hacksaw.

In addition to the plates for ease of carrying out installation work Corner parts with dimensions of 15x15, 20x20 cm are manufactured. For the construction of various curved surfaces, slabs with dimensions of 2x60x120 cm are produced. On one side they have deep cuts, located parallel to each other in increments of 3 cm.

Temperature range for slabs “-50°С” – “+75°С”. Expanded polystyrene does not allow the formation of mold and mildew.

Application area

Expanded polystyrene boards, main purpose:

For finishing industrial and public buildings.
As insulation of walls of residential buildings.
IN agriculture, railway, road activities.
Insulation of foundations, basements, roofs of houses.
In the refrigeration industry.
For installation of airfields and other facilities.

The thermal insulation characteristics of expanded polystyrene depend on its production technology. The cellular closed structure of the product provides a slight change in thermal conductivity in the case of humidity, which can be 0.001-0.002 W/(m K). This makes it possible to effectively use extruded polystyrene foam as thermal insulation for basements without additional waterproofing.

Increased thermal properties of polystyrene foam provide the possibility of its use as thermal insulation of fences.

It is intended for the following tasks:

Foundation insulation.
Internal wall insulation.
Insulation of walls of underground structures.
Thermal insulation of house facades, subsequently applied to thermal insulation boards various facing materials.
For monolithic construction houses.
For the production of sandwich panels.

Before pouring concrete mortar to cover the outside, one row is placed along the concrete slab thermal insulation coating. Slabs with a rough surface provide good adhesion between concrete and plaster. Such boards are also applicable in vertical structures, where they will provide the required adhesion to materials and adhesives.

Thanks to the tests, it was revealed that polystyrene foam chips have a number of advantages and distinctive characteristics:

During compression, the tensile strength depends on the density and thickness of the material. Already developed newest types expanded polystyrene, for which it was possible to significantly reduce the flammability due to the introduction of more effective fire retardants. This provided an opportunity to achieve the parameters of low-combustible materials.
After thousands of freezing and thawing cycles, the polystyrene foam product retains its thermal insulation properties. In this case, the change in technical resistance is no more than five percent.
Other brands of the product can be produced to order, for example, a special brand of product with an embossed surface that increases adhesion. This makes it possible to effectively use plastering and adhesive materials.
Typical brands differ from each other in thermal parameters, compressive strength, and density.
To facilitate installation and prevent the formation of cold bridges, slabs are produced with various edge shapes, for example, rectangular, with a selected quarter, and others.

The Technoplex board has significant chemical resistance compared to most other building materials.

Some types of organic matter, including those containing:

coal tar, its derivatives, for example, creosol,
solvents, substances that protect wood,
paint thinners, commonly used solvents (acetone, white spirit, and others).

may lead to softening, subsidence, and sometimes dissolution of the slabs.

Important!“The use of adhesives is recommended. They do not contain the components listed above. Such slabs can be stored under open air in special packaging. But in this case, they must be protected from sunlight to prevent destruction of the slab coating.”

Expanded polystyrene boards are easy to process and install. They can be easily cut and adjusted to the required parameters using a simple knife. Selection adhesive solutions should be carried out taking into account the manufacturer's recommendations.

Some tips for insulating walls with extruded polystyrene foam boards

Service station: 72746455-3.3.1-2012

Scope of application:

Installing a slope on the roof, increasing the slope or changing the direction of water flow

Installation of slope in the valley to water inlet funnels

Creation of slopes (gutter) at ventilation shafts and skylights

Creating an additional slope to drain water from the parapet (counter slope).

is a set of slabs with a slope of 1.7% (plates A and B), 3.4% (plates J and K) and 8.3% (plate M), cut from extruded polystyrene foam with a thickness of 40 mm, 80 mm, 70 mm. Used for organizing slopes on the roof.

Existing problems of lack of slopes on the roof

The lifespan of any roof can be significantly increased by creating optimal slopes.
One of the main reasons for reducing the service life of roofing is due to the formation of stagnant zones (puddles) on the roof surface. This problem is associated with violation or incorrect installation of slopes and counterslopes on the roof. Repeated and periodic processes of freezing and thawing of water in stagnant zones lead to premature failure of the waterproofing coating.
Formation of a plant layer in stagnant zones.
Stagnant zones create ideal conditions for the emergence of a plant layer: seeds distributed through the air settle in favorable conditions in stagnant zones. This leads to damage by plant roots to the main waterproofing coating and, consequently, to premature failure of the entire roofing structure.
Problems with traditional solutions.
As traditional solutions for creating slopes and counter-slopes, cheap backfill insulation (expanded clay, perlite) or lightweight concrete mixtures (expanded polystyrene concrete, expanded clay concrete, perlite concrete) are used.
The use of backfill insulation is associated with the problem of their displacement, and, consequently, violation of the design slopes. In addition, the rather large granules of the backfill insulation (20 mm) do not allow for a smooth increase in slope. The use of lightweight concrete mixtures leads to additional loads on the base, increased deflections of the supporting structure, and increased cost of the entire roofing system. In roofs with a concrete load-bearing base, installing slopes using traditional methods involves the use of wet processes (pouring expanded clay with cement laitance, installing a slope using lightweight concrete). All this makes it difficult to carry out reconstruction and roofing work at subzero temperatures.
Also, to create a slope on the roof, various slab insulation materials are used, which are modified using cutting tools (for example, hacksaws, saws, cutters) for further use as a slope-forming layer. Carrying out these works is associated with large time, financial, labor costs, etc.

CONCLUSION: To obtain the required slope, an inexpensive rigid slope slab must be used. As the practice of roofing construction shows, the optimal slope on the roof should be at least 1.5%, counter-slope – from 3%.

Application of plates TechnoNIKOL CARBON PROF SLOPE allows you to solve the problems of stagnant zones associated with installing a slope on the roof, increasing the slope or changing the direction of water flow, installing a slope in the valley to water intake funnels, creating slopes (gutter) near ventilation shafts and skylights, creating an additional slope to drain water from the parapet (counter-slope).

Advantages:

Using TechnoNIKOL systems for creating slopes or counterslopes TechnoNIKOL CARBON PROF SLOPE, you get additional benefits:

Reduced loads on the base due to the use of low-density extruded polystyrene foam boards
Absence of “wet” processes during the construction of slopes and counterslopes
Significant reduction in labor costs for completing slopes
Reducing work completion time.

Installation of a slope-forming layer made of wedge-shaped thermal insulation TechnoNIKOL CARBON PROF SLOPE cannot completely replace the main thermal insulation layer required by thermal engineering calculations due to the variability of the layer thickness, despite the fact that it is made from highly efficient thermal insulation material.

The use of wedge-shaped thermal insulation has an undeniable advantage – it speeds up and simplifies the installation of the roof even in winter. The use of a prefabricated screed made of flat slate and wedge-shaped thermal insulation eliminates “wet” processes from the production cycle, as well as the time required for drying and strengthening the screeds. Insulation made from extruded polystyrene foam has a closed ax structure and is not afraid of moisture when assembling the roof. This simplifies its storage on the roof and its use, which is especially important in Russian construction sites.

TechnoNIKOL XPS	Test method	TechnoNIKOL CARBON PROF SLOP
TechnoNIKOL XPS	Test method	Element A (1.7%)	Element B (1.7%)	Element J (3.4%)	Element K (3.4%)	Element M (8.3%)	CARBON PROF 250 (Additional plate)
Compressive strength at 10% linear deformation, not less than, kPa	GOST 17177	250
Compressive strength at 2% linear deformation, not less than, kPa	-	160
Thermal conductivity at (25± 5)0С, W/(m*K), no more	GOST 7076-99	0,028
Thermal conductivity under operating conditions "A and B", W/(m*K),	SP 23-101-2004 GOST 7076-99	0,034
Water absorption, %, no more	GOST 15588	0,2
Flammability group	GOST 30244	G4, G3*
Density, kg/m3, not less	GOST 17177	28

* &mdash To order

Geometric dimensions:

Packaging Details:
The boards are packaged in UV-stabilized film. For ease of unloading, the slabs are laid on foam blocks.

Storage:

under a canopy that protects them from precipitation and sunlight. When stored under a canopy, the slabs should be placed on pallets, stands or bars.

Storage of slabs is allowed XPS TechnoNIKOL CARBON PROF SLOPE outdoors in special packaging that protects from external atmospheric influences.

Manufacturing jobs:

According to the “Guidelines for the design and installation of single-layer roofs made of polymer membranes of the TechnoNIKOL Corporation, 3rd edition 2010.”

According to the “Guidelines for the design and installation of roofs made of bitumen-polymer materials of the Roofing Company TechnoNIKOL”

Precautionary measures:

Keep away from fire. Chemically unstable to gasoline, organic solvents, as well as bitumen adhesive with a high content of organic solvent.