Boron oxide

98%, -40 mesh

Reagent Code: #143141
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Alias Boron oxide; diboron trioxide, boron anhydride, boron trioxide
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CAS Number 1303-86-2
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Properties Sensitive to humidity

science Other reagents with same CAS 1303-86-2

blur_circular Chemical Specifications

scatter_plot Molecular Information
Weight 69.62 g/mol
Formula B₂O₃
badge Registry Numbers
EC Number 215-125-8
MDL Number MFCD00011315
thermostat Physical Properties
Melting Point 450 °C(lit.)
Boiling Point 1860 °C
inventory_2 Storage & Handling
Density 2.46 g/mL at 25 °C(lit.)
Storage Room temperature

description Product Description

Used as a flux in metallurgy to remove oxides and improve the flow of molten metals.

Key component in the production of borosilicate glass, known for high thermal resistance and durability.

Serves as a precursor in the synthesis of boron-based chemicals and ceramics.

Applied in nuclear reactors as a neutron absorber due to boron’s ability to capture neutrons.

Utilized in the manufacture of enamels, glazes, and specialty cements for improved strength and heat resistance.

Acts as a catalyst or catalyst support in certain organic reactions and industrial processes.

shopping_cart Available Sizes & Pricing

Size Availability Unit Price Quantity
inventory 500g
10-20 days ฿680.00
inventory 2.5kg
10-20 days ฿2,570.00
inventory 10kg
10-20 days ฿8,350.00

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Boron oxide
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Used as a flux in metallurgy to remove oxides and improve the flow of molten metals.

Key component in the production of borosilicate glass, known for high thermal resistance and durability.

Serves as a precursor in the synthesis of boron-based chemicals and ceramics.

Applied in nuclear reactors as a neutron absorber due to boron’s ability to capture neutrons.

Utilized in the manufacture of enamels, glazes, and specialty cements for improved strength and heat resistance.

Acts

Used as a flux in metallurgy to remove oxides and improve the flow of molten metals.

Key component in the production of borosilicate glass, known for high thermal resistance and durability.

Serves as a precursor in the synthesis of boron-based chemicals and ceramics.

Applied in nuclear reactors as a neutron absorber due to boron’s ability to capture neutrons.

Utilized in the manufacture of enamels, glazes, and specialty cements for improved strength and heat resistance.

Acts as a catalyst or catalyst support in certain organic reactions and industrial processes.

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