If you are looking for high-quality products, please feel free to contact us and send an inquiry, email: brad@ihpa.net
What is Boron?
Boron
Boron is either a silvery-gray or black solid. In the earth’s crust, boron makes up 0.001%. Crystal boron has a black color, is harder than diamond and is brittle. Boron was named Boron. Its name is derived Arabic, and the original meaning of “flux”. This shows that ancient Arabs were aware that borax was able to melt metals oxides and used as a welding flux.
Boron – Preparation
The sodium metaborate first obtained is by decomposing the magnesium borate solution with concentrated alkali, then crystallizing NaBO2 solution in strong alkali, allowing it to dissolve in water, increasing the concentration, and finally concentrating the crystallization. Adjust the acidity of the sodium tetraborate solution with sulfuric to precipitate crystals of boric acids with low solubility. After heating, boric acid dehydrates to borontrioxide. Then, after drying, B2O3 is reduced with magnesium or aluminium to obtain crude boron. After treating crude boron with hydrochloric, sodium hydroxide and hydrogen fluoride respectively, brown amorphous boric with a purity between 95-98% is obtained.
By hydrogen reduction, you can make the purest monomeric form of boron. You pass a mixture of hydrogen with borontribromide through a tantalum rod, heat it up to 1500K using an electric heater, then reduce the borontribromide by hydrogen.
You can also obtain boron by heating magnesium or aluminum powder and reducing boron dioxide.
Use of boron for industrial purposes
Boron, a chemical raw-material mineral, has a variety of uses. It is used primarily to produce borax, boric acids, and boron as well as the elemental boron. It is widely used in metallurgy as well as building materials, machinery and electrical appliances. Chemicals, light-weight wool, the nuclear sector, medicine, agriculture and other industries. Raw materials are important. Boron is used in more than 300 products. Glass, ceramics, detergents, and fertilizers for agriculture are some of the major uses.
Elemental Boron is used for a variety of purposes, including as a good reducing, oxidizing, and brominating agent. Other uses include a blend material in organic synthesis, an insulator to high-voltage and high-frequency electric current and plasma arcs and telecommunications windows.
Boron The boron element is found in trace amounts of alloys, and when combined with aluminum or plastic, can be used as an effective shielding material for neutrons. Boron-containing additives improve sintering, which is important in the metal industry. The quality of ore can reduce the melting point and reduce the expansion. It also improves strength and hardness. Boron and its derivatives are also a cosolvent in metallurgy and a raw materials for smelting steel boron-iron boron. The addition of titanium boride or lithium boride to building materials and heat-resistant alloys can produce these compounds. Borates, borides, and other borates are essential components in enamel, ceramics, glass, and ceramics. They can be used to improve the surface finish and gloss of a product.
Boric acid
Zinc borate may be used to create fireproof fibers. It’s a good fire retardant. It can also be used for bleaching and mordant dying. In fabric bleaching, sodium metaborate can be used. In the paper industry, boron compounds and paint desiccants can also be used.
Boron can be found as a trace in quartz. How to reduce boron to the minimum is the key in the purification process for high-purity, quartz sand. The presence of Boron reduces quartz melting point and decreases the number uses of the prepared crucible. This increases production costs of monocrystalline Silicon.
China has abundant boron-ore resources but boron-ore products cannot meet domestic construction needs. Domestic borax production was around 400,000 tons in 2007, imported boron-ore products 648.700 tons. This is a high dependence on imports.
(aka. Technology Co. Ltd., a trusted global chemical supplier & manufacturer of high-quality nanomaterials & chemicals with more than 12 year’s experience. Boron Powder produced by our company is of high purity and has a low impurity level. Please. Contact us if necessary.
Boron – Preparation
The sodium metaborate first obtained is by decomposing the magnesium borate solution with concentrated alkali, then crystallizing NaBO2 solution in strong alkali, allowing it to dissolve in water, increasing the concentration, and finally concentrating the crystallization. Adjust the acidity of the sodium tetraborate solution with sulfuric to precipitate crystals of boric acids with low solubility. After heating, boric acid dehydrates to borontrioxide. Then, after drying, B2O3 is reduced with magnesium or aluminium to obtain crude boron. After treating crude boron with hydrochloric, sodium hydroxide and hydrogen fluoride respectively, brown amorphous boric with a purity between 95-98% is obtained.
By hydrogen reduction, you can make the purest monomeric form of boron. You pass a mixture of hydrogen with borontribromide through a tantalum rod, heat it up to 1500K using an electric heater, then reduce the borontribromide by hydrogen.
You can also obtain boron by heating magnesium or aluminum powder and reducing boron dioxide.
Use of boron for industrial purposes
Boron, a chemical raw-material mineral, has a variety of uses. It is used primarily to produce borax, boric acids, and boron as well as the elemental boron. It is widely used in metallurgy as well as building materials, machinery and electrical appliances. Chemicals, light-weight wool, the nuclear sector, medicine, agriculture and other industries. Raw materials are important. Boron is used in more than 300 products. Glass, ceramics, detergents, and fertilizers for agriculture are some of the major uses.
Elemental Boron is used for a variety of purposes, including as a good reducing, oxidizing, and brominating agent. Other uses include a blend material in organic synthesis, an insulator to high-voltage and high-frequency electric current and plasma arcs and telecommunications windows.
Boron The boron element is found in trace amounts of alloys, and when combined with aluminum or plastic, can be used as an effective shielding material for neutrons. Boron-containing additives improve sintering, which is important in the metal industry. The quality of ore can reduce the melting point and reduce the expansion. It also improves strength and hardness. Boron and its derivatives are also a cosolvent in metallurgy and a raw materials for smelting steel boron-iron boron. The addition of titanium boride or lithium boride to building materials and heat-resistant alloys can produce these compounds. Borates, borides, and other borates are essential components in enamel, ceramics, glass, and ceramics. They can be used to improve the surface finish and gloss of a product.
Boric acid
Zinc borate may be used to create fireproof fibers. It’s a good fire retardant. It can also be used for bleaching and mordant dying. In fabric bleaching, sodium metaborate can be used. In the paper industry, boron compounds and paint desiccants can also be used.
Boron can be found as a trace in quartz. How to reduce boron to the minimum is the key in the purification process for high-purity, quartz sand. The presence of Boron reduces quartz melting point and decreases the number uses of the prepared crucible. This increases production costs of monocrystalline Silicon.
China has abundant boron-ore resources but boron-ore products cannot meet domestic construction needs. Domestic borax production was around 400,000 tons in 2007, imported boron-ore products 648.700 tons. This is a high dependence on imports.
(aka. Technology Co. Ltd., a trusted global chemical supplier & manufacturer of high-quality nanomaterials & chemicals with more than 12 year’s experience. Boron Powder produced by our company is of high purity and has a low impurity level. Please. Contact us if necessary.