Blog

How strong is cellular concrete?

How strong is cellular concrete?

The standard cellular concrete mix weighs 30 pcf, with an average compressive strength of approximately 100 psi (14,400 psf).

What are cellular concrete blocks?

CLC Blocks (Cellular Light Weight Concrete Blocks) are made of Cellular Light weight concrete (CLC) or Foam Concrete. Cellular Light Weight Concrete (CLC) is a light weight concrete that is produced by mixing cement and flyash slurry with pre-formed foam.

What is lightweight cellular concrete?

Lightweight cellular concrete (LCC) is a mixture of portland cement, water, and air created through a preformed foaming agent. LCC can act as a lightweight, strong, durable, and inexpensive soil or fill replacement for geotechnical applications.

How is cellular concrete made?

Cellular concrete is a special engineered concrete manufactured by mixing Portland cement, sand, fly ash, water and pre-formed foam in varied proportions to form a hardened material having an oven-dry density of 50 pounds per cubic foot (PCF) or less.

READ ALSO:   What kills a leviathan supernatural?

What is cellular fill?

Cellular Concrete is a lightweight fill material primarily used in geotechnical applications. By adding the foam, the weight of the concrete can be reduced to as low as 20 pounds per cubic foot when it’s wet. Cellular Concrete can be produced as non-pervious or pervious.

Why is foam used in concrete?

Foam concrete is fire resistant, and its thermal and acoustical insulation properties make it ideal for a wide range of purposes, from insulating floors and roofs, to void filling. It is also particularly useful for trench reinstatement. A few of the applications of foam concrete are: bridge approaches / embankments.

Which cement is used for dam construction?

The substructure part of the dam is poured using of hydrophobic cement & Portland Slag Cement; whereas the individual or combination of Portland blast furnace with OPC to gain the strength to the construction of the dam, retaining wall & other structures in the periphery.