Armopoyas insulation

Armopoyas insulation is an essential component of roof building that improves thermal efficiency and structural integrity. Armopoyas, also known as reinforcement belts, are placed between the walls and the roof slab to reinforce the joint and stop it from breaking or failing under different loads. Insulating these armopoyas is crucial for enhancing energy efficiency as well as preserving the building’s structural integrity.

Builders can effectively minimize thermal bridging—a phenomenon where heat escapes or enters through structural elements like concrete or steel—by insulating armopoyas. Over time, these insulations lower energy costs by lowering the need for heating and cooling systems and assisting in the maintenance of a constant interior temperature. By reducing temperature swings, it also helps to create a more comfortable living or working environment.

Armopoyas can benefit from a variety of insulation materials, depending on the climate, the style of the building, and the available funds. Spray foam insulation, mineral wool, and rigid foam boards are typical choices. Benefits specific to each material include high heat resistance, moisture resistance, and ease of installation. In order to ensure optimal performance and durability, selecting the appropriate insulation material requires taking into account variables such as the temperature ranges and humidity levels of the local climate.

For armopoya insulation to be effective and last a long time, proper installation is essential. Usually, it entails packing the insulation firmly against the armopoyas and caulking any openings to stop air from escaping. Throughout the building’s lifetime, the insulation will benefit from maximum energy efficiency and structural reinforcement thanks to this careful installation process.

Technology for creating armored vehicles on aerated concrete walls

We will investigate the necessity of Armopia on aerated concrete in this article. We will look closely at the fundamental requirements for this structural element and teach you how to make an Armopias for aerated concrete on our own.

Within an aerated concrete wall is a monolithic concrete armour pile.

Armopias for aerated concrete is a monolithic concrete strip structure that replicates every angle and shape of the building’s walls. This belt is an essential component that greatly enhances the overall strength characteristics of houses made of gas blocks.

1 Why do I need armo -piles?

An appropriately constructed monolithic armoopia will shield your house from any loads that may arise from both internal and external sources.

Large-scale seasonal deformations of the soil due to fusion, strong wind gusts, and elevated seismic activity are some of the negative influences that the house’s walls experience from the gas block. Making an armopa will be crucial for homes constructed on sloping terrain.

When it comes to a one-story house, armorpoyas can be placed in the middle of the wall and beneath the roof; for two-story buildings, they can be placed in between the floors.

Concrete armopa made of one piece in the context

As was already mentioned, Armopome greatly strengthens the building’s walls’ resistance to both internal and external loads. It serves as a sort of stiffener by binding the house’s individual walls from blocks to a single structure.

Large window openings can be made from blocks when a rib like this is present. This is not possible without an armored poured because foam and gas blocks lack the necessary strength.

The likelihood of the house being completely destroyed as a result of the integrity of its component parts being compromised is reduced by the presence of this supporting element.

Examine the primary factors that dictate the necessity of setting up an armored carrier:

1.1 Requirement for the house’s roof’s supporting framework

Although foam, expanded clay concrete, and gas blocks are strong building materials, they do not withstand different spot loads as well as bricks do. This can lead to individual block cracking and destruction, which will weaken the wall as a whole.

Since the house’s rafter system and beams—which form the roof—are fixed to expanded clay concrete or aerated concrete walls from blocks using anchors and construction studs (securing the Mauerlat to aerated concrete without the need for armored vehicles), beams that lack foam and gas blocks require a point load, so additional supporting construction must be arranged beneath the beam.

Constructing a supporting structure before pouring concrete

1.2 Burst load transfer from the house wall to Armopia

The technique of hanging rafters is one that is commonly used to arrange roofs on aerated concrete and homes made of foam blocks or expanded clay blocks. Although this method offers a maximum bursting load that may be too high for stripped foam blocks, it does have several benefits.

Construction standards state that only in the presence of an armored bearing that can absorb, compensate for, and distribute the bursting load evenly can rafters be hung in a foamed-over house.

1.3 A hindrance to distortions

The likelihood of uneven loads or deformation of walls with varying elastic coefficients—which frequently result from improper roof arrangement—is greatly decreased when an armored poured system is present.

You can construct an armored with your own hands using the provided algorithm, not just on a house, but also on gas and foam blocks. There is no difference in the technology used to create an Armopoyas in a brick house and expanded clay block.

Reviews indicate that since slag block is similar to all other materials made of foamed concrete in terms of technical characteristics, most builders who prefer to use it as a building material are also inclined to need to set up an armored vehicle.

2 characteristics of high -quality armored

The size of the wall itself determines the armored bearing’s dimensions for the foam block wall. If a single-layer wall with a width of thirty centimeters was built during the house’s construction, then an internal armored carrier with a width of twenty-five centimeters will suffice.

Simultaneously, it is advised to lay insulation and close the correspondingly thick armored pentwood on the inside of the house wall to avoid the formation of cold bridges, which are areas whose thermal conductivity is higher than that of the building’s main structure.

Ideally, the Armopoyas’ height should match its thickness because equilateral structures are stronger than rectangular ones. Creating reinforcing belts taller than thirty centimeters is not advised.

Formwork made of wooden boards for armopoyas

In the event that your building project calls for a slight overlap, you can construct a flat armopod that is roughly 10 centimeters high. Reviews attest to the fact that this design performs well because the belt has internal reinforcing bars.

In flat armored vehicles, two longitudinal reinforcing rods are typically installed (three or four if the walls are wide). These rods are connected to one another by transverse jumpers made of rods with smaller diameters. The jumpers’ steps are roughly 50 centimeters long.

If heavy concrete ceiling slabs are used when building a house out of foam blocks, then a monolithic armored reference needs to be equipped with a large cage of longitudinal rods, either four or six in number.

It’s crucial to make sure the reinforcement is at least five centimeters insulated in concrete when installing a reinforcing frame. The lower reinforcement must be raised above the blocks using brick supports of the appropriate size.

In volumetric frames, transversely and longitudinally following the wall’s direct contour Knitting wire is used to connect the reinforcement. This is required to provide the armored carrier with adequate resistance to its dynamic loads.

However, the reinforcement is welded in place at the corners of the house and where the external and internal walls meet.

2.1 Which is better, armored or not?

Concrete of brand M200 and higher should be used for rafter systems and ceiling armatures. Manufacturers sell concrete in completed form, or you can buy cement M400 and mix it yourself.

The solution should be 1: 3: 5, with 1 being cement, 3 being sand, and 5 being gravel.

You won’t need it after filling the concrete if you want an Armopias with the highest strength possible. This calls for a punch using a unique nozzle. Another way to compact concrete is to firmly press a piece of reinforcement into it until all of the air bubbles inside rise to the surface.

Masonry of a brick belt reinforcement

Bricks with armor can also be used to reinforce the foam concrete wall. Brickmasonry is done directly on the foam block, and a metal grid made of wire with a diameter of 4-5 mm is used to lay the belt for reinforcement.

On top of every brick row, the net is placed. Such an Armopoyas has a maximum height of 20 to 40 centimeters and a maximum width that matches the width of the wall.

It should be recognized that the brick Armopia is not as strong as the monolithic concrete belt; reviews attest to the fact that an armored belt of this kind can be used successfully for auxiliary buildings or small household buildings made of slag block.

2.2 Is armopod insulation necessary?

Low heat conductivity is one of the key characteristics of foamed concrete that has contributed to its widespread use. Not freezing, not even in the lowest winter temperatures at home, Warm is constructed of foam concrete.

It is vital to provide high-quality belt insulation in order to properly construct an aromo-pile, which, when combined with wall strengthening, would not deteriorate the house’s thermal insulation qualities.

The technology allows for the creation of belts that are not the full width of the wall, but rather have an indentation from the inside, making the reinforcing belt a weak point in the house’s thermal insulation.

In this instance, the minimum belt width for brick should be 25 centimeters, and for concrete, it should be 20 centimeters. Insulation is poured into the empty space created after the armored vehicle is poured, and a foam block that fits the space is used to close it.

The technology used to build Mauerlat’s Armopoyas for the roof

The following evaluations from builders who specialize in foamed concrete homes will give you a clear understanding of why setting up a reinforcing frame for expanded clay concrete blocks is necessary:

49-year-old Moscow resident Igor:

My team has been using Penoboton as our primary building material for the past seven years, and I have only heard positive feedback about our work from clients.

Since this material first appeared on the domestic market, its fan base has increased multiple times. In every home we build, we install an Armopoyas on aerated concrete.

In my opinion, an armical scope is a must when working with foam concrete, and the claims made by manufacturers that the blocks’ strength suffices to install ceilings are not supported by empirical evidence. Personally, I think it’s better to play it safe and finish the work now rather than risk biting your elbows later.

45-year-old Oleg from Rostov:

We use gas blocks to construct homes. Especially for hanging rafters and fixing ceilings from concrete plates, we invariably install armical cards. I recently used slag blocks as building material to construct a home for poultry in my summer home.

I am certain that the doctor prescribed the armicacass made of bricks arranged on it to secure it to all buildings made of foamed concrete.

Armopia for aerated concrete walls: use case and benefits. Method of building armored cars for walls made of aerated concrete.

An essential method in roofing construction is called "Armopoyas insulation," which is intended to improve thermal efficiency and structural integrity. This technique effectively minimizes heat loss and prevents thermal bridges by strategically placing insulation materials around the armopoyas, which are horizontal concrete bands reinforcing the building’s structure. This insulation is essential for anyone wishing to extend the comfort and lifespan of their building’s roofing system because it not only increases energy efficiency but also strengthens the roof’s overall durability.

Warming of monolithic armored carrier for a house from gas -muddy blocks

This article will discuss the methods used to isolate an armo lane, a reinforced concrete bridge, one of the cold’s bridges.

Insulating an armature can be done while construction is underway (which is the proper course of action) or at a later date.

We will not address the causes of the reinforced belt’s inexhaustibility at the same time as construction, as there may be several. Just think about every option we are aware of.

Crucial! The outside of the building is the only place where insulation needs to be installed!

Option 1: Armopoyas width is already width of the wall.

In this instance, Armopias can be adequately heated, and if the width permits, additional cladding and insulation can be installed flush with the wall’s overall cladding. In order to accomplish this, you will need to take a heater and adjust its width so that it fits into the space between the wall’s line and the reinforced belt.

You will probably need to use EPS because thin foam is very brittle. If there is still room, use an 80 mm foam. You must consider the width of the facing brick cladding in order for the belt to blend in with the facade. Plaster or tile.

Remember that a ventilation slit is required between the mineral wool and the facing brick if you plan to use it as a heater.

Option 2: The width of the armoopias is equal to the width of the wall, the finishing work is performed, the gap between the reinforced belt and the cladding is not.

In this instance, extra insulation needs to be installed all the way up the facade. Two insulating belts must be installed in accordance with the facade of a two-story home if a reinforced belt is placed between the first and second floors and after the second floor beneath the Mauerlat.

Following these guidelines will ensure that it is both visually appealing and long-lasting:

• For insulation of the armored carrier, you can use polystyrene, for example, 80 mm thick-the brand PSB-S 25. The height of the insulation belt is calculated by the next way: 15 cm + armored height + 15 cm. The insulation is attached 15 cm above the upper and lower lower lines of the reinforced belt.

• How to prepare the walls for insulation, how to fix the foam, how to reinforce it with a grid and then plaster – we told in great detail with the photo in the article “Wall insulation with foam”.

• For the durability of the insulation, it was necessary to place an ebb with a dropper in its upper part (the tint is also used when installing windows, to protect the protruding base). The ebb is necessary for the removal of rain or melt water from the insulation belt for your armored belt and is placed not horizontally, but with a slope of the wall. It is best to use an ebb made of galvanized sheet steel with a polyester coating.

• To fasten the tide, it is necessary to perform a cut in the wall above the insulation belt, start the upper edge of the tide, perform sealing and fixed in steps from 30 cm.

Another option for outdoor insulation is sprayed polyurethane foam (PPU), which has a metal profile that can be closed on top. Since installation is necessary for spraying and the material is highly toxic (or rather, one of its components is toxic), we do not advise doing the work yourself; instead, it is preferable to use specialized companies.

Option 3: Armopias for the entire width of the wall, finishing work performed, there is a gap between the wall and the cladding.

It is required to drill holes through the cladding along the armopoyas line in order to fill the space with mounting foam between the external cladding and the wall (belt). Avoid stepping more than 25–30 cm in between holes.

Passing through a single hole in turn. T.e., wait until the foam solidifies before inhaling through the odd (1.3.5 and t.D.) holes. You can then discard even holes. By using this method, foam expenses can be decreased and the armored carrier’s insulation can be completed more effectively. Make sure you use professional foam; in the end, it will prove to be more profitable than having to re-insulate after a few years due to visible foam.

Modern materials offered by a market for thermal insulation

The paint brand "Isollat" is a novel material that is new to us. It is a liquid super-thin coating designed to insulate walls, facades, pipelines, and building structures from heat. This contemporary material replaces 40 mm mineral wool or 200 mm polystyrene foam with a layer 1 mm thick.

Besides the long list of benefits, "Isollat" also helps to significantly lower a structure’s thermal conductivity.

We haven’t yet used this "Penosol," another substance that surfaced a few years ago. The material is incredible if it is manufactured with the right resin and applied correctly. "Penoizol" is a filling agent that can be used as crumbs, sheets, or foam.

Suggestions for the construction of a monolithic reinforced concrete armored vehicle, along with ideas for insulation and insulation materials

For roofs to be efficient and long-lasting in a variety of construction projects, Armopoyas insulation is essential. Builders can reduce energy consumption for heating and cooling by improving the thermal performance of buildings through the strategic placement of insulation materials within the armopoyas.

The ability of Armopoyas insulation to stop thermal bridging—a phenomenon that happens when materials with inadequate insulating qualities make it possible for heat to escape or enter a building—is one of its main advantages. These thermal bridges are reduced by adding insulation to the armopoyas, which improves occupant comfort and results in more constant interior temperatures.

Additionally, by lowering the possibility of condensation and moisture infiltration within the roof assembly, armopoyas insulation contributes to the preservation of structural integrity. This resistance to moisture not only extends the life of roofing materials but also guards against the growth of mold and mildew, which could harm the interior of the building.

In conclusion, attaining energy efficiency, thermal comfort, and structural durability in building designs requires the appropriate application of armopoyas insulation. Through its attention to thermal bridging and moisture control, this insulation technique makes a substantial contribution to sustainable construction methods, guaranteeing building occupant comfort and long-term performance.

Video on the topic

Armopoyas insulation from the inside.

… It will not pass by itself! Condensate in the armored carrier. Construction and repair errors.

Armopia and reinforcement insulation

Armopoyas insulation

Freezing of the armored carrier

Armopoyas insulation in a house from aerated concrete

How not to fill in Armopia. Now I will make concrete only myself, and not order a mixer.