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4N High Purity Boron Small Block B ≥ 99.99% Metalloid Element Boron Crystals (1, 5 Grams)

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About this item

  • 4N high-purity boron small block is irregular block, purity B ≥ 99.99%, self-sealing bag packing.
  • Boron is a non-metallic element, the periodic table, cycle 2, group ⅢA elements, atomic number 5, relative atomic mass 10.811, melting point of about 2076 ℃, boiling point of 3927 ℃, the density of 2.34g/cm³.
  • Boron has amorphous boron and crystalline boron and other isotopes, amorphous boron is brown, crystalline boron is gray-black, boron in the earth's crust, the content of 0.001%, brittle, with a high hardness of about 9.3.
  • Boron is a weak conductor of electricity at room temperature, and conducts electricity well at high temperatures, so it is also categorized as metalloid, has a high electrical resistance, but its electrical conductivity increases as the temperature rises.
  • Boron and its compounds have a wide range of industrial applications, such as the manufacture of high-temperature-resistant glass, fiber-reinforced composites, semiconductor materials, and neutron absorption in nuclear reactors.


4N high-purity boron small block is irregular block, purity B ≥ 99.99%, self-sealing bag packing.
Boron is a non-metallic element, the periodic table, cycle 2, group ⅢA elements, atomic number 5, relative atomic mass 10.811, melting point of about 2076 ℃, boiling point of 3927 ℃, the density of 2.34g/cm³.
Boron has amorphous boron and crystalline boron and other isotopes, amorphous boron is brown, crystalline boron is gray-black, boron in the earth's crust, the content of 0.001%, brittle, with a high hardness of about 9.3.
Boron is a weak conductor of electricity at room temperature, and conducts electricity well at high temperatures, so it is also categorized as metalloid, has a high electrical resistance, but its electrical conductivity increases as the temperature rises.
Boron and its compounds have a wide range of industrial applications, such as the manufacture of high-temperature-resistant glass, fiber-reinforced composites, semiconductor materials, and neutron absorption in nuclear reactors.