GGBFS

Granulated Ground Blast Furnace Slag

Ground Granulated Blast Furnace Slag is obtained by rapidly chilling (quenching) the molten ash from the furnace with the help of water. During this process, the slag gets fragmented and transformed into amorphous granules (glass), meeting the requirement of IS 12089:1987 (manufacturing specification for granulated slag used in Portland Slag Cement). The granulated slag is ground to desired fineness for producing GGBS.

The chemical composition of JSW’s GGBS contributes to the production of superior cement. Over the period of time, its load-bearing properties continue to increase as it absorbs surplus lime released during hydration to form more calcium silicate hydrates. These hydrates add to the strength of the cement.

The multi-fold advantages of GGBS when used with Portland cement

The multi-fold advantages of GGBS when used with Portland cement

PSC’s inherent chemistry gives it several advantages over ordinary cement. Apart from being more environment-friendly, it offers;

Ensures higher durability of structure.
Reduces the temperature rise and helps to avoid early-age thermal cracking
Improved workability
It is off-white in colour and substantially lighter than Portland cement. Resultantly it helps soften the visual impact of large structures such as bridges and retaining walls
Where GGBFS can be used?

Where GGBFS can be used?

GGBFS significant attribute of providing ultimate strength when added to Portland cement makes it the preferred material in the construction of

High-rise buildings
Marine applications such as dams, shore protection construction
Effluent and sewage treatment plants
Cement products such as tiles, pipes, blocks, etc
The chemical composition of GGBS contributes to the production of superior cement concrete.

The chemical composition of GGBS contributes to the production of superior cement concrete.

The chemical composition of GGBS contributes to the production of superior cement concrete. It ensures better durability of structures. GGBS is considered as green building material for sustainable constructions. Increased flexibility to meet individual requirement in RMC.