This is one of our specialized cements which confirms to IS 12330. We prepare this combining cement clinker, gypsum and ground granulated blast furnace slag. The resultant product is a sulphate resistant cement. In other words, this is one of our cement products that has high resistance to mineral water (generally sea-water or other naturally occurring water reserves).
Uses: This is the generally preferred cement for marine applications – dams, railway bridges, roads, and any other structure that requires high or continuous exposure to mineral water.
Our CM3 Super Fast cement is yet one more specialized variant from our assortment of cement products. This is manufactured as per IS 8041:1990. This is a product that requires a separate manufacturing line in an endeavour to maintain quality control in all stages of the manufacturing process.
Uses: This is used to produce hollow blocks, solid blocks, paving blocks, fly ash bricks and other pre-cast items that require quick setting.
Specification : Descriptions
Compliance : IS 8041:1990
We understand that construction of any type of structure is a time consuming job. Hence, to facilitate and speed up the construction process, we also have a concrete manufacturing unit. The raw material used is none other than our own cement. As a result, along with our cement, we also provide concrete in various shapes and sizes based on requirements.
Uses: Constructed structures - especially industrial and civil where large structures are generally broken down into smaller concrete blocks/girders.
A cement is a binder, a substance that sets and hardens independently, and can bind other materials together. The word "cement" traces to theRomans, who used the term opus caementicium to describe masonry resembling modern concrete that was made from crushed rock with burnt lime as binder. The volcanic ash and pulverized brick additives that were added to the burnt lime to obtain a hydraulic binder were later referred to as cementum,cimentum, cäment, and cement.
Cements used in construction can be characterized as being either hydraulic or non-hydraulic. Hydraulic cements (e.g., Portland cement) harden because of hydration, a chemical reaction between the anhydrous cement powder and water. Thus, they can harden underwater or when constantly exposed to wet weather. The chemical reaction results in hydrates that are not very water-soluble and so are quite durable in water. Non-hydraulic cements do not harden underwater; for example, slaked limes harden by reaction with atmospheric carbon dioxide.
The most important uses of cement are as an ingredient in the production of mortar in masonry, and of concrete, a combination of cement and anaggregate to form a strong building material.
Description:
Portland Cement 52.5N (EN 197-1 CEM I) is a high-quality cement ideal for demanding construction projects requiring superior strength and durability. This cement grade is designed to offer a compressive strength of 52.5 MPa (minimum) after 28 days, making it perfect for high-rise buildings, roads, bridges, and industrial applications. It meets international standards and ensures excellent performance in both normal and challenging environments.
