Cellulose is an excellent thermal insulation against cold, due to its low thermal conductivity and balanced application density, which will protect you in areas with very cold climates. It is obtained from the shredding process of unused recycled newspaper, during the manufacturing process boron salts are added so that the cellulose insulation has fire retardant properties and prevention against attack by insects, mites or rodents.
Boron products assist in the melting process of raw materials and influence the final properties of the product by participating in the formation of the alloy. In the fiberglass industry, it acts as a reducer of the melting temperature and collaborates in the fiberizing process. B2O3 (Boron Oxide) controls thermal expansion, inhibits vitrification, reduces viscosity, and decreases susceptibility to thermal or mechanical shocks, increasing durability and chemical resistance.
durabilidad y la resistencia química.
Boron provides resistance to metal alloys. Dissolves metal oxides, coating metals such as copper, brass, lead, and zinc from slag and foundry debris. They are also used as alloys that coat metals preventing their oxidation, used in welding..
In mixture with materials derived from vegetable cellulose, borates change the oxidation reaction and help the formation of charred, inhibiting combustion. Reduces the flammability of insulating or thermal materials of cellulose, wood and cotton fillings.
Boron oxide acts as a random and structure-forming agent for glazed ceramic and enamel surfaces. In the process of glaze formation, B2O3 ensures proper thermal adjustment between the ceramic body and the glaze, reducing surface tension and viscosity, increasing the index of refraction, providing durability and resistance to scratching, and allows formulations lead free.
Boron deficiency symptoms are visible at plant growth points, resulting in dwarf, misshapen plants with poor seed formation (reduces crop production). Also, when the cell wall of the tissues is affected, the plant has less resistance to adverse environmental factors. The main boron fertilizers are double sodium and calcium borates such as Ulexite, which is generally, used in sandy soils in the presence of tropical climate conditions (high rainfall, temperature and acidic soils) due to its properties of slow release of the micronutrient in soil
We use natural gas, a source of pure energy that makes our process not contaminate, in accordance with our ecological principles. We comply with all industrial safety standards, in the mining, extraction and production processes, a very important issue for social responsibility.
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