Aerated concrete products include blocks, partitions, lintels, slabs and roofs.[3] In addition, cellular concrete is used for the construction of lightweight subfloors, terraces, fillers, paving base slabs and pre-cast panels.

Older than what is usually thought (it was invented in 1927), cellular concrete is a frequently used construction material. In Europe, it is estimated that 500,000 individual houses are built each year with this material.

Aerated concrete is a homogeneous and solid material (although lightweight) with “distributed” insulation, since it does not require the use of additional insulation. It is a product that has properties as a load-bearing and insulating element.

According to its specifications, it may be a material that presents certain levels of fragility.

Aerated concrete does not require additional interior insulation. Its alveolar structure, composed of micro air cells, gives it its thermal insulating properties.

Professionals call this type of insulation “distributed insulation” or “mono-wall.” Homogeneously trapped in the mass of the material, air plays an important role as an insulator. Thus, cellular concrete has a significantly higher resistance to heat transfer than that observed in conventional concrete. It serves as a barrier against outside heat in summer and keeps heating heat inside the home in winter.

Aerated concrete is a material that breathes, allowing water vapor produced by occupants and daily activities to pass through. This hydroregulation is essential to minimize risks due to humidity, condensation "Condensation (physical)") and provide protection against the appearance of fungi.

Aerated concrete is classified as class A1 mineral material for reaction to fire. It resists fire and is tight against smoke and toxic gases. In the event of a fire, a cellular concrete wall has a fire resistance capacity of 6 hours.

The placement of the material is quick and easy to execute (9m2 / hour), thanks to the assembly of the blocks with adhesive mortar (placement with “thin joint”). Furthermore, the ergonomics of the blocks (with handles and/or lace profile) and the lightness of the product (approximately 120 kg/m² and 3 dm thick) allow high placement performance.

The important production phases are:.

The production of the material in an autoclave consists of imitating the natural formation process of the molecular structure of tobermorite, also called hydrated calcium silicate.

This manufacturing method favors the operation of plants in a closed cycle: they do not reject any liquid or solid substance that could contaminate water or soil. The few and totally inert waste produced during this production phase is 90% reused. The only gas rejected into the atmosphere is water vapor.

The manufacture of cellular concrete requires little energy, which is also used in part to heat the factory offices. The water, necessary for this process, is also reused.

There is an alternative to produce cellular concrete blocks, without the need for an autoclave or aluminum powder, gypsum and lime (which can generate water absorption and eventual cracks). The system consists of using high quality protein foaming agents and the natural heat of hydration for setting, with excellent results from the point of view of thermal and acoustic insulation and mechanical resistance. This system adds other advantages such as great savings in electrical energy and the possibility of producing the blocks on-site and in variable densities according to the needs of the project.

translation of the original in German of the mentioned proportions

https://www.youtube.com/watch?v=VV166y9OxtI.

Aerated concrete products include blocks, partitions, lintels, slabs and roofs.[3] In addition, cellular concrete is used for the construction of lightweight subfloors, terraces, fillers, paving base slabs and pre-cast panels.

Older than what is usually thought (it was invented in 1927), cellular concrete is a frequently used construction material. In Europe, it is estimated that 500,000 individual houses are built each year with this material.

Aerated concrete is a homogeneous and solid material (although lightweight) with “distributed” insulation, since it does not require the use of additional insulation. It is a product that has properties as a load-bearing and insulating element.

According to its specifications, it may be a material that presents certain levels of fragility.

Aerated concrete does not require additional interior insulation. Its alveolar structure, composed of micro air cells, gives it its thermal insulating properties.

Professionals call this type of insulation “distributed insulation” or “mono-wall.” Homogeneously trapped in the mass of the material, air plays an important role as an insulator. Thus, cellular concrete has a significantly higher resistance to heat transfer than that observed in conventional concrete. It serves as a barrier against outside heat in summer and keeps heating heat inside the home in winter.

Aerated concrete is a material that breathes, allowing water vapor produced by occupants and daily activities to pass through. This hydroregulation is essential to minimize risks due to humidity, condensation "Condensation (physical)") and provide protection against the appearance of fungi.

Aerated concrete is classified as class A1 mineral material for reaction to fire. It resists fire and is tight against smoke and toxic gases. In the event of a fire, a cellular concrete wall has a fire resistance capacity of 6 hours.

The placement of the material is quick and easy to execute (9m2 / hour), thanks to the assembly of the blocks with adhesive mortar (placement with “thin joint”). Furthermore, the ergonomics of the blocks (with handles and/or lace profile) and the lightness of the product (approximately 120 kg/m² and 3 dm thick) allow high placement performance.

The important production phases are:.

The production of the material in an autoclave consists of imitating the natural formation process of the molecular structure of tobermorite, also called hydrated calcium silicate.

This manufacturing method favors the operation of plants in a closed cycle: they do not reject any liquid or solid substance that could contaminate water or soil. The few and totally inert waste produced during this production phase is 90% reused. The only gas rejected into the atmosphere is water vapor.

The manufacture of cellular concrete requires little energy, which is also used in part to heat the factory offices. The water, necessary for this process, is also reused.

There is an alternative to produce cellular concrete blocks, without the need for an autoclave or aluminum powder, gypsum and lime (which can generate water absorption and eventual cracks). The system consists of using high quality protein foaming agents and the natural heat of hydration for setting, with excellent results from the point of view of thermal and acoustic insulation and mechanical resistance. This system adds other advantages such as great savings in electrical energy and the possibility of producing the blocks on-site and in variable densities according to the needs of the project.

translation of the original in German of the mentioned proportions

https://www.youtube.com/watch?v=VV166y9OxtI.