Plasters

Gypsum Plasters - "The Miracle Mineral"

''Tons of Quality''

Replacing Sand Cement Plaster to Gypsum Plaster
Gypsum plaster is used in all types of construction, from residential to commercial projects, from the Egyptian Pyramids to Current Era High Rise Structures. Gypsum plaster is also used for making plasterboard, decorative cornices, plaster blocks and Gypsum based self levelling screeds.

Gypsum products in the construction space are the material of choice because of their unique properties.It has excellent insulation properties both thermal and acoustic and can offer very good passive fire protection, moisture resistance, impact resistance and vapour control when used in combination with the right systems. IS 2547 Part 2 supports replacement of traditional Sand Cement plaster to Gypsum Plaster, because of its light weight nature, clean process of application, faster times, firmer edges and carbon saving properties.


Snow white

The distinguished advantage of the Sam GypsumTM Snow White Plaster is that it is made out of the highest grade of Gypsum being pure white in colour and having a hardness of about 40%, which is more than any other Gypsum Plaster available in the Indian market. This Gypsum plaster can be easily applied directly on all surfaces, we do not need to sand cement plaster the walls. The coverage in a 25Kg bag is 20 Sq. Ft. with a thickness of 12mm. The fineness of 250 mesh and purity of over 90% gives the best atomic bond and an absolute mirror finish.

Commecial General Gypsum

Sam GypsumTM Commerical General Gypsum achieves the highest plaster quality through Claudius Peters' Kettle Indirect Calcination. This superior calcination process takes advantage of narrow particle size distribution (PSD) attributed to the advanced grinding equipment and increases product strength through kettle calcination. Despite the similarity in setting time (6-14 minutes) with gypsum manufactured using the traditional rotary calcining process which employs direct firing, kettle plaster exhibits greater strength and lower water demand. The kettle calcination process is slower than flash calcination or rotary calcination and produces homogenous, well-shaped crystals that are lower in BET surface and have high grain stability. The well-shaped crystals and smaller surface area.