Boron oxide

98%, 100 mesh

Reagent Code: #147830
label
Alias Boron oxide; diboron trioxide, boron anhydride, boron trioxide
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CAS Number 1303-86-2

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 metal flow during welding and brazing.

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

Serves as a precursor for manufacturing elemental boron and other boron compounds.

Added to ceramic glazes and enamels to enhance strength, durability, and thermal resistance.

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

Employed in the synthesis of boron nitride and other advanced ceramic materials.

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 ฿630.00
inventory 2.5kg
10-20 days ฿2,600.00
inventory 10kg
10-20 days ฿8,390.00
inventory 25kg
10-20 days ฿19,880.00

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Boron oxide
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Used as a flux in metallurgy to remove oxides and improve metal flow during welding and brazing.

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

Serves as a precursor for manufacturing elemental boron and other boron compounds.

Added to ceramic glazes and enamels to enhance strength, durability, and thermal resistance.

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

Used as a flux in metallurgy to remove oxides and improve metal flow during welding and brazing.

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

Serves as a precursor for manufacturing elemental boron and other boron compounds.

Added to ceramic glazes and enamels to enhance strength, durability, and thermal resistance.

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

Employed in the synthesis of boron nitride and other advanced ceramic materials.

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

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