Rekach foamed glass granules

These are multipurpose lightweight aggregates manufactured from post-consumer recycled glass . Their vast application with easy usability makes them a highly valuable product. Their conducive properties add value to material paving the way for a more economical, flexible, and durable output.


Thermal Insulation Properties

Rekach foamed glass granules having air cavities inside provide excellent low thermal conductivity. These properties make it a great thermal insulating material.

Acoustic Insulating Properties

It absorbs sound, increasing the acoustic efficiency.

Extremely Lightweight

Rekach foamed glass granules with its low bulk density make the products lighter. It improves performance by reducing the weight for higher volume.

Fire Resistance

Rekach foamed glass granules are made of maximum glass content and are non-flammable. They do not produce any harmful gases during a fire. The products are an excellent fireproof material having an operating temperature range of - 200°C to 700°C.

Pressure Resistance

Rekach foamed glass granules have closed cells which are pressure-resistant in addition to being extremely lightweight.

Low Water Absorption

Rekach foamed glass granules have closed cells which are encased in a fuse coated outer layer during its production process, creating low water-absorbing granules. The structure of close bubbles, no capillary phenomenon, and zero penetration make it an ideal thermal insulating material.

Ecologically Safe

Rekach foamed glass granules are inert, non-toxic, odour free, and do not have any hazardous materials. Rekach, when used under different temperatures or humidity conditions, releases no chemical substance.

Chemically And Biologically Inert

Rekach foamed glass granules are non-reactive to almost all the chemicals. They do not deteriorate under environmental conditions and also do not promote micro-organism’s growth and are rodent proof.


Rekach foamed glass granules have closed cells inside the pores. It makes the material inert without changing its properties for years to come, making it a high performing material.