Foam Concrete Production

Foam Concrete Production

Foam concrete, also known as foamed concrete, foamcrete, cellular lightweight concrete or reduced density concrete, is defined as a cement based slurry, with a minimum of 20% (per volume) foam entrained into the plastic mortar. As mostly no coarse aggregate is used for production of foam concrete the correct term would be called mortar instead of concrete. Sometimes it may be called as "foamed cement" or "foam cement" because of mixture of only Cement & Foam without any fine aggregate. The density of foam concrete usually varies from 400 kg/m³ to 1600 kg/ m³. The density is normally controlled by substituting fully or part of the fine aggregate with foam.


Foamed concrete typically consists of a slurry of cement and fly ash or sand and water, although some suppliers recommend pure cement and water with the foaming agent for very lightweight mixes.This slurry is further mixed with a synthetic aerated foam in a concrete mixing plant.The foam is created using a foaming agent, mixed with water and air from a generator. The foaming agent used must be able to produce air bubbles with a high level of stability, resistant to the physical and chemical processes of mixing, placing and hardening.

Foamed concrete mixture may be poured or pumped into moulds, or directly into structural elements. The foam enables the slurry to flow freely due to the thixotropic behaviour of the foam bubbles, allowing it to be easily poured into the chosen form or mould.The viscous material requires up to 24 hours to solidify (or as little as two hours if steam cured with temperatures up to 70 °C to accelerate the process.depending on variables including ambient temperature and humidity. Once solidified, the formed produce may be released from its mould.


Foam concrete is a versatile building material with a simple production method that is relatively inexpensive compared to autoclave aerated concrete.Foam concrete compounds utilising fly ash in the slurry mix is cheaper still, and has less environmental impact. Foam concrete is produced in a variety of densities from 200 kg/m³ to 1,600 kg/m³ depending on the application.Lighter density products may be cut into different sizes. While the product is considered a form of concrete (with air bubbles replacing aggregate), its high thermal and acoustical insulating qualities make it a very different application than conventional concrete.


  • Weight reduction of superstructure using foam concrete walls: less steel reinforcements required for slabs, columns, beams and foundation due to lesser load.

  • Earthquake-resistant due to lesser weight of building built using foam concrete walls in multistory buildings

  • Suitable for buildings in hurricane, cyclone and flood affected areas as the damage caused by foam concrete walls and roofs are minimal compared to conventional concrete based structures.

  • Reduced cost of raw materials: By adding air, enclosed in foam bubbles, the volume of concrete can be increased at very low cost.

  • Environmentally-friendly/Energy savings: In comparison to autoclaved aerated concrete (AAC/ gas concrete), air curing is possible for foam concrete. This saves up to 9 m³ of gas for curing one cubic meter of AAC and therefore protects the environment.

  • Cost reduction for transportation and storage: Less raw materials, very efficient foam concentrate.

  • Faster construction using cast-in-situ application

  • Improved thermal insulation: Foam concrete can achieve the same insulation results as normal concrete with only 20% of the weight and 10% of raw materials.

  • Improved fire protection: A wall of 13 cm thickness and 1,250 kg/m³ can withstand a fire for 5 hours. A wall of 10 cm thickness and only 400 kg/m³ achieves the same result, due to the air enclosed in the cellular concrete.

  • Easy to use/ produce/ handle

  • Low investment: Just one simple machine required.

  • High flowing capability: Can fill hollow spaces.

  • Low water absorption: Only 10–15%, if specific foaming agents are being used in combination with silicon oil in the cement slurry, the water absorption rate can be decreased to only 1%.

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