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| ブランド名: | DLX |
| モデル番号: | FeCrAl合金ワイヤー0Cr15Al5 |
| Moq: | 10kg |
| 支払条件: | L/C、D/A、D/P、T/T、ウェスタンユニオン |
| 供給能力: | 月産500トン |
As demand for green hydrogen increases, so does the need for high-performance materials capable of enduring extreme conditions within electrolysis systems. The 0Cr15Al5 FeCrAl Alloy Wire stands out as a superior choice for electrolysis hydrogen production. Engineered for high durability and corrosion resistance, this alloy wire performs reliably in harsh environments, ensuring high efficiency and longevity in hydrogen production applications.
Composed of a carefully balanced mix of iron, chromium, and aluminum, the 0Cr15Al5 FeCrAl Alloy Wire provides enhanced strength, corrosion resistance, and thermal stability. This alloy is widely used in electrolysis systems, particularly in green hydrogen production, due to its ability to withstand high temperatures and aggressive electrolytes.
| Alloy Nomenclature Performance | 1Cr13Al4 | 0Cr25Al5 | 0Cr21Al6 | 0Cr23Al5 | 0Cr21Al4 | 0Cr21Al6Nb | 0Cr27Al7Mo2 |
|---|---|---|---|---|---|---|---|
| Chemical Composition (%) - Cr | 12.0-15.0 | 23.0-26.0 | 19.0-22.0 | 20.5-23.5 | 18.0-21.0 | 21.0-23.0 | 26.5-27.8 |
| Chemical Composition (%) - Al | 4.0-6.0 | 4.5-6.5 | 5.0-7.0 | 4.2-5.3 | 3.0-4.2 | 5.0-7.0 | 6.0-7.0 |
| Chemical Composition (%) - Re | Opportune | Opportune | Opportune | Opportune | Opportune | Opportune | Opportune |
| Chemical Composition (%) - Fe | Rest | Rest | Rest | Rest | Rest | Rest | Rest |
| Max. Continuous Service Temp. of Element (°C) | 950 | 1250 | 1250 | 1250 | 1100 | 1350 | 1400 |
| Resistivity at 20°C (μΩ.m) | 1.25 | 1.42 | 1.42 | 1.35 | 1.23 | 1.45 | 1.53 |
| Density (g/cm³) | 7.4 | 7.1 | 7.16 | 7.25 | 7.35 | 7.1 | 7.1 |
| Thermal Conductivity (KJ/m.h) | 52.7 | 46.1 | 63.2 | 60.2 | 46.9 | 46.1 | -- |
| Coefficient of Linear Expansion (αx10⁻⁶/℃) | 15.4 | 16 | 14.7 | 15 | 13.5 | 16 | 16 |
| Melting Point Approx. (°C) | 1450 | 1500 | 1500 | 1500 | 1500 | 1510 | 1520 |
| Tensile Strength (N/mm²) | 580-680 | 630-780 | 630-780 | 630-780 | 600-700 | 650-800 | 680-830 |
| Elongation at Rupture (%) | >16 | >12 | >12 | >12 | >12 | >12 | >10 |
| Reduction of Area (%) | 65-75 | 60-75 | 65-75 | 65-75 | 65-75 | 65-75 | 65-75 |
| Repeat Bending Frequency (F/R) | >5 | >5 | >5 | >5 | >5 | >5 | >5 |
| Hardness (H.B.) | 200-260 | 200-260 | 200-260 | 200-260 | 200-260 | 200-260 | 200-260 |
| Continuous Service Time (Hours/°C) | -- | ≥80/1300 | ≥80/1300 | ≥80/1300 | ≥80/1250 | ≥80/1350 | ≥80/1350 |
| Micrographic Structure | Ferrite | Ferrite | Ferrite | Ferrite | Ferrite | Ferrite | Ferrite |
| Magnetic Properties | Magnetic | Magnetic | Magnetic | Magnetic | Magnetic | Magnetic | Magnetic |
| Shape | Size (mm) |
|---|---|
| Wire | 0.05-7.5 |
| Rod | 8-50 |
| Ribbon | (0.05-0.35)×(0.5-6.0) |
| Strip | (0.5-2.5)×(5-180) |
The hydrogen economy is rapidly gaining traction as industries seek to decarbonize and move away from fossil fuels. Electrolysis has emerged as a key method for producing green hydrogen, making it pivotal in renewable energy production. The 0Cr15Al5 FeCrAl Alloy Wire is integral to this shift, providing necessary material properties for long-term performance in electrolysis systems.
Global energy transition goals drive the growing emphasis on green hydrogen, particularly in transportation, power generation, and chemical production sectors. Hydrogen is increasingly seen as a clean, versatile fuel, with water electrolysis becoming the preferred environmentally sustainable production method.
The FeCrAl Alloy Wire plays a significant role in this transformation by supporting electrolysis systems that require materials capable of withstanding high temperatures, electrolytic stress, and corrosive environments. With superior mechanical properties and corrosion resistance, this wire remains a critical component in developing large-scale hydrogen production systems.
