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Niobium sheet/stripGrade: RO4200-1, RO4210-2
Standard: ASTM B393-98
Niobium is a silver-gray, rare, soft and ductile transition metal, and its oxide, niobium pentaoxide, acts like aluminum oxide and zinc oxide, protecting the interior of the metal from corrosion. Niobium can be added to stainless steel, so that stainless steel is not easy to break at high temperatures, reduce the overheating sensitivity and tempering brittleness of steel, and improve the strength, toughness and high temperature creep performance. Niobium has small thermal neutron absorption cross section, good corrosion resistance, high temperature strength, and can be used as structural materials for atomic reactors and nuclear fuel packaging materials, and can also be used as an additive for nuclear fuel. Niobium has a high superconducting transition temperature, and niobium compounds and alloys can be used to produce superconducting materials. Niobium has good thermionic emission performance and can be used to make getter and mortgage rectifier for vacuum tubes.
Niobium melting point: 2467℃, niobium has good low temperature plasticity, good superconductivity, high melting point, corrosion resistance, wear resistance and other characteristics, widely used in steel, superconducting materials, aerospace, atomic energy and other fields.
Production process: melting → forging → rolling → machining → vacuum heat treatment → vacuum welding assembly → molding inspection → packaging and delivery
Niobium sheet/stripGrade: RO4200-1, RO4210-2
Standard: ASTM B393-98
Niobium is a silver-gray, rare, soft and ductile transition metal, and its oxide, niobium pentaoxide, acts like aluminum oxide and zinc oxide, protecting the interior of the metal from corrosion. Niobium can be added to stainless steel, so that stainless steel is not easy to break at high temperatures, reduce the overheating sensitivity and tempering brittleness of steel, and improve the strength, toughness and high temperature creep performance. Niobium has small thermal neutron absorption cross section, good corrosion resistance, high temperature strength, and can be used as structural materials for atomic reactors and nuclear fuel packaging materials, and can also be used as an additive for nuclear fuel. Niobium has a high superconducting transition temperature, and niobium compounds and alloys can be used to produce superconducting materials. Niobium has good thermionic emission performance and can be used to make getter and mortgage rectifier for vacuum tubes.
Niobium melting point: 2467℃, niobium has good low temperature plasticity, good superconductivity, high melting point, corrosion resistance, wear resistance and other characteristics, widely used in steel, superconducting materials, aerospace, atomic energy and other fields.
Production process: melting → forging → rolling → machining → vacuum heat treatment → vacuum welding assembly → molding inspection → packaging and delivery
