Our Products

Magnesium Oxide Nanopowder


Magnesium Oxide Nanopowder Application:

1. Fire retardant utilized for synthetic fiber and plastics exchanges;
2. High-temperature getting dried out specialist utilized for the generation of silicon steel sheet, high-review fired material, electronic industry material, glue and added substance in the compound crude material.
3. High-recurrence attractive pole receiving a wire, attractive gadget filler, protecting material filler and different bearers utilized as a part of the radio industry…

                                           Magnesium Hydroxide Nanopowder
Product No NRE-3036
CAS No. 1309-42-8
Formula Mg(OH)2
APS <100nm  (Can be Customized)
Purity 99.9%
Color White
Molecular Weight 58.31968 g/mol
Density 2.36 g/cm3
Melting Point 350 °C
Boiling Point NA

Magnesium Oxide Nanopowder Application:

1. Fire retardant utilized for synthetic fiber and plastics exchanges;
2. High-temperature getting dried out specialist utilized for the generation of silicon steel sheet, high-review fired material, electronic industry material, glue, and added substance in the compound crude material.
3. High-recurrence attractive pole receiving a wire, attractive gadget filler, protecting material filler, and different bearers utilized as a part of the radio industry.
4. Obstinate fiber and headstrong material, magnesite-chrome block, filler for recalcitrant covering, stubborn and protecting instrument, power, link, optical material, material for the steel-purifying heater and other high-temperature heaters, warming material, and earthenware base plate.
5. Electric protecting material for making cauldron, smelter, protected conductor (tubular part), terminal bar, cathode sheet.
6. Fuel added substance, cleaner, antistatic operator, and erosion inhibitor.


Suggested Dosage:

There is an extensive variety of item applications in various fields with an expansive diverse measure of dose, from 0.2 to 25%. The end client should decide the amount to be included through testing and settle on the best measurement decision for the best utilize

error: