Brand number: R04200, R04210 Purity: ≥99.95%, 99.99% Standard: ASTM B393 Density: 8.6g/cm3 Product description: Niobium plate application: The superconducting industry is used to produce niobium foil heat insulation screen in high temperature furnace, niobium welded pipe and human body implant parts.
Niobium plate details
Features of Niobium sheet:
1.Low Density and High Specificate Strength
2.Excellent Corrosion Resistance
3.Good resistance to effect of heat
4.high melting point, good anti-corrosion, excellent super-conduction and other unique characteristics
Application of Niobium sheet:
1.Electronic industry Chemistry, electronical, Pharmaceu industry.
2.for steel, ceramics, electronics, nuclear energy industries and superconductor technology;
3.For super condouctous ,metled cast ingots and alloying agents.
4.widely used in manufacturing various kinds of alloy steel, high temperature alloy, optical glass, cutting tool, electronics and superconducting materials and other industries.
Product Name | Niobium sheet plate | ||
Material | Pure niobium | ||
Grade | RO4200.RO4210,R04251,R04261 | ||
Standard | ASTM B392 | ||
MOQ | 1KG | ||
Surface | Polished, Vannum Annealed,Cold-rolled Bright | ||
Characteristic | Melting point : 2468℃ / Boiling point : 4744℃ | ||
Density | 8.6 g/cm3 | ||
Product Features | Excellent Corrosion Resistance , Good resistance to effect of heat ,Nonmagnetic and Non-toxic |
Chemistry% | ||||||||||||
Designation | Chief component | Impurities maximum | ||||||||||
Nb | Fe | Si | Ni | W | Mo | Ti | Ta | O | C | H | N | |
Nb1 | Remainder | 0.004 | 0.003 | 0.002 | 0.004 | 0.004 | 0.002 | 0.07 | 0.01 | 0.004 | 0.0012 | 0.002 |
Nb2 | Remainder | 0.005 | 0.005 | 0.005 | 0.01 | 0.01 | 0.004 | 0.1 | 0.015 | 0.01 | 0.0015 | 0.01 |
Thickness | Thickness tolerance | Width | Width | Length | length |
tolerance | length | ||||
0.1~0.2 | ±0.015 | 20~1000 | ±2.0 | 20~2000 | ±2.0 |
0.2~0.3 | ±0.02 | 20~1000 | ±2.0 | 20~2000 | ±2.0 |
0.3~0.5 | ±0.03 | 20~1000 | ±2.0 | 20~2000 | ±2.0 |
0.5~0.8 | ±0.04 | 20~1000 | ±2.0 | 20~2000 | ±2.0 |
0.8~1.0 | ±0.06 | 20~1000 | ±2.0 | 20~2000 | ±2.0 |
1.0~1.5 | ±0.08 | 20~1000 | ±1.0 | 20~2000 | ±1.0 |
1.5~2.0 | ±0.10 | 20~1000 | ±1.0 | 20~2000 | ±1.0 |
2.0~3.0 | ±0.12 | 20~1000 | ±1.0 | 20~2000 | ±1.0 |
3.0~5.0 | ±0.15 | 20~1000 | ±1.0 | 20~2000 | ±1.0 |
5.0~8.0 | ±0.18 | 20~1000 | ±1.0 | 20~2000 | ±1.0 |
8.0~12.0 | ±0.20 | 20~1000 | ±1.0 | 20~2000 | ±1.0 |
12.0~15.0 | ±0.50 | 20~1000 | ±1.0 | 20~2000 | ±1.0 |
15.0~2.0 | ±0.80 | 20~1000 | ±1.0 | 20~2000 | ±1.0 |
Due to niobium's high reactivity and processing difficulty, the production and processing of niobium plates often require special technology and equipment. Additionally, niobium plates and their products are generally more expensive due to niobium's rarity and refining costs. As technology advances, the application of niobium plates may further expand, especially in high-tech fields that require extreme environmental stability.