|Molecular Formula:||Factory Price For BaCO3 Barium Carbonate For Glass And Ceramic Applications||Stability:||Stable. Incompatible With Strong Acids.|
|Solubility:||0.02g/l||PH:||7-8 (0.016g/l, H2O, 16℃)|
factory price for BaCO3 barium carbonate for glass and ceramic applications
Product Name: Barium Carbonate
Appearance: White powder
Molecular formula: BaCO3
Molecular weight: 197.35
CAS NO.: 513-77-9
A. Focusing on Barium Carbonate production over 20 years.
B. With annual output of 50,000 tons of Barium Carbonate.
|Date of Manufacturing||Feb 14, 2018|
|Date of Analysis||Feb 14, 2018|
|Insolules in HCl%||0.2%max||0.15%|
|Choride (as Cl) %||0.02%max||0.015%|
(1) Carbonation method: carbon dioxide is passed through barium sulfide solution (see preparation of
barium sulfide) to carbonize, the obtained barium carbonate slurry is desulfurization washed, vacuum
filtration, dried at 300℃ and pulverized to obtain barium carbonate products. its
BaS + CO2 + H2O→ BaCO3↓+ H2S↑
Metathesis method: barium sulfide and ammonium carbonate proceeds metathesis reaction, and then
washing, filtering and drying to obtain bismuth products. its
BaS + (NH4) 2CO3 → BaCO3 ↓ + (NH4) 2S
Poison nepheline conversion method: witherite ore reacts with ammonium salt to generate soluble barium
salt, and ammonium carbonate is recycled and re-used, ammonium carbonate is added into soluble
barium salt to precipitate refined barium carbonate, it is filtered and dried to obtain barium carbonate
products. The obtained mother liquor is recycled use.
(2) Carbonization method. Reaction equation:
BaS + CO2 → BaCO3 ↓ + H2S ↑
Operational method: 1L barium sulfide aqueous solution of 180g/L reacts with carbon dioxide at 70℃ to
produce barium carbonate precipitation. Precipitation is mixed with 10ml 25% aqueous ammonia, at 60℃
desulfurization for 20min. Filtered, and dried to obtain the precipitated barium carbonate, product
contains 0.46% sulfur.
Metathesis method. Reaction equation:
BaCl2 + NH4HCO3 + NH4OH → BaCO3 ↓ + 2NH4Cl + H2O
Operational method: At 30℃, 23.6L containing ammonium bicarbonate 56.1g /L aqueous solution and
1.36L ammonia is mixed in 50L kettle and then at 50℃, within 2h dropping 21.6L 200.3g/L barium
chloride solution, it is stirred for 30min at 40℃. Filtered, dried at 140 ℃, pulverized to obtain barium
carbonate which average particle diameter d is 0.8μm, purity is 99.8%.
Witherite method. Reaction equation:
BaCO3 + 2NH4Cl → BaCl2 + 2NH3 + H2O + CO2
BaCL2 + (NH4) 2CO3 → BaCO3 ↓ + 2NH4Cl
Operational method: 100 g 80% of toxic heavy powder (120 mesh) and 60g ammonium chloride is well
mixed, it is rapidly put into 650℃ muffle furnace and reacts for 3min. After cooling, it is flooded, filtered,
removed debris to obtain barium chloride solution, 36g ammonium carbonate is added, precipitating
barium carbonate, it is filtered, dried and pulverized, the conversion rate is 91%.
Contact Person: anny