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| Customization: | Available |
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| Smelting Type: | Iron Powder |
| Granularity: | Refined Powder |
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Application | Description | |
Improve welding process performance | 1: stabilize arc 2: reduce spatter | Key Benefits |
Participate in metallurgical reaction | 1. Deoxidation and desulfurization 2. Adjust composition. | Higher density, improved mechanical strength |
Improve the deposition efficiency | 1:large specific surface area and fast heat absorption; 2:shorten the welding time. | Excellent magnetic permeability, good high-frequency performance |
Optimize weld formation | 1. After iron powder is melted, improve the fluidity of molten pool, fill the tiny gap of base material groove, and reduce defects such as incomplete fusion and undercut; 2. Cooperate with slagging agents such as TiO2, CaF2, etc. to form a uniform slag layer, avoid oxidation of the weld surface, and make the weld shape smooth and the residual height moderate. | Superior flowability and molding accuracy |
Chemical Industry | Reducing agent, catalyst, catalyst carrier | High chemical activity, improved reaction efficiency |
Energy & Battery Materials | Iron-based battery materials, conductive fillers | Improved conductivity and material stability |
Additive Manufacturing (3D Printing) | Special iron-based powders for AM | Suitable for advanced material development |
Specification of Welding iron powder | ||||||
Product type | specifications | chemical properties (%) | apparent density (g/cm³) | Flow rate(s/50g) | Green density 600Mpa | particle size(%) |
Sponge iron powder | ZTW40.29 | C≤0.06 Si≤0.12 Mn≤0.20 P≤0.005 S≤0.01 HL≤0.80 TFe≥98.00 | 2.75~3.00 | +500μm:0 +355μm:≤5 +250μm:2~20 +150μm:40~70 +75μm:90~100 | ||
Sponge iron powder | ZTW40.37 | C≤0.06 Si≤0.12 Mn≤0.20 P≤0.005 S≤0.010 HL≤0.80 V≤0.10 Fe≥98.00 | 3.60~3.80 | 500μm:0 355μm:0~12 250μm:10~40 150μm:50~80 75μm:85~100 | ||
Sponge iron powder | JHF100.25 | C≤0.05 Si≤0.12 Mn≤0.20 P≤0.009 S≤0.009 V≤0.10 HL≤0.55 TFe≥99.00 | 2.40~2.60 | +250μm:0 +150μm:≤10 +75μm:40~80 +45μm:70~95 | ||
Atomized iron powder | ZTW40.30 | C≤0.06 Si≤0.20 Mn≤0.35 P≤0.02 S≤0.02 Ti≤0.005 TFe Balance | 2.75~3.00 | +50mesh:All pass +60 mesh:≤1 -100 mesh :25~50 -200 mesh:≤10 | ||
Atomized iron powder | LAP40.37 | C≥0.05 Si≥0.08 Mn≥0.15 P≥0.015 S≥0.015 HL≥0.50 | 3.60~3.80 | +425μm:3 150-425μm:70 63-150μm:5~25 -63μm:5 | ||
Atomized iron powder | LAP100.29 | C≤0.01 Si≤0.04 Mn≤0.14 P≤0.015 S≤0.015 HL≤0.20 TFE≥99.2 | 2.95~3.10 | ≤28.00 | 7.13 | 180-212μm:≤1 150-180μm:≤10 45-150μm: Balance -45μm:15~30 |
Boron iron powder | ZTW100B | C≤0.07 Si≤0.25 Mn≤0.20 P≤0.015 S≤0.015 B:0.90~1.10 | +1500μm:≤5 75 -150μm:Balance 45-75μm:Balance -45μm:5~25 | |||
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