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Production technique: water atomization, sieving
Particle shape: irregular
Particle size distribution: 850 to 45 microns.
Apparent density: 3.0 to 3.7 g/cm3
Total oxygen content: 0.90 to 1.60%
Fe content: 95% 98% Depending on application, aspects like chemical composition, particle specific surface, shaping aspects, magnetic sensitivity, are defining production specifications.
Colour: dark grey
Description of the material and main chemical components | Iron powder |
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Description of the manufacturing process | Water atomisation, sieving |
Typical applications | Carrier on photocopiers |
Main characteristic | Customised performances |
Application notes | Product is tailored on specific customer need |
Recommended packaging | BB 1500 |
Type | Upper cut size(µm) | Ot % | C % | Apparent density(g/cm3) |
---|---|---|---|---|
XC | 180 | 0.8 | 0.05 | 3.7 |
Description of the material and main chemical components | Iron powder with controlled content of Oxides, S, C |
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Description of the manufacturing process | Water atomisation and sieving |
Typical applications | Soft blasting (i.e. rubber and glass moulds) |
Particle shape | Slightly irregular, globular, with smooth surface |
Main characteristic | Mostly characterised by coarse size with shape and size distribution suiting to abrasion purposes |
Particle upper cut size (full range) | 106 to 850 |
Particle upper cut size (typical) | 300 to 500 |
Apparent density (typical) | 3,5 to 3,7 |
Application notes | Powder colour grade on dark grey suggest use where material treated colour is not relevant |
Recommended packaging | S25 P1000 |
Type | Upper cut size(µm) | Ot % | C % | Apparent density(g/cm3) |
---|---|---|---|---|
MT 106/3,8 | 106 | 0.9 | 0.05 | 3.8 |
MT 300/3,7 | 300 | 0.9 | 0.05 | 3.7 |
MT 500/3,6 | 500 | 1 | 0.05 | 3.65 |
MT 850/3,5 | 850 | 0.9 | 0.05 | 3.5 |
Description of the material and main chemical components | Iron powder with controlled content of Oxides, S, C and other elements on custom base |
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Description of the manufacturing process | Tightly controlled smelting, water atomisation and sieving |
Typical applications | Ferchim has broad use as raw material to chemical processes to be transformed in other components (i.e. Fe2O3) , or as a catalyst, or to be used in electrolitic processes, or to alloy with other metals |
Particle shape | Irregular to round |
Main characteristic | Mostly characterised by strict parameters of chemical composition which can be customised in specific cases. Particle size distribution can also be selective. |
Particle upper cut size (full range) | 63 to 500 |
Particle upper cut size (typical) | 63 to 500 |
Apparent density (typical) | 3,2 to 3,6 |
Application notes | Normally used when Oxides are permitted in modest quantity |
Recommended packaging | BB 1500 |
Type | Upper cut size(µm) | Ot % | C % | Apparent density(g/cm3) |
---|---|---|---|---|
MT 106/3,4 | 150 | 1.4 | 0.05 | 3.3 |
MT 150/3,3 | 150 | 1 | 0.05 | 3.2 |
MT 150/3,7 | 150 | 1.2 | 0.05 | 3.7 |
MT 250/3,1 | 250 | 0.95 | 0.225 | 3.1 |
MT 500/3,2 | 500 | 1 | 0.05 | 3.2 |
MT 63/3,4 | 63 | 1.6 | 0.05 | 3 |
Description of the material and main chemical components | Iron powder with controlled content of Oxides, S, C |
---|---|
Description of the manufacturing process | Water atomisation, sieving and (possible) mechanical action |
Typical applications | Base material in production of welding electrodes |
Particle shape | Slightly irregular, globular, with smooth surface |
Main characteristic | Mostly characterised by coarse size and modest Oxides content |
Particle upper cut size (full range) | 300 to 500 |
Particle upper cut size (typical) | 300 to 500 |
Apparent density (typical) | 3,0 to 3,7 |
Application notes | Mechanical action has result to rise density and reduce Ot content |
Recommended packaging | BB 1500 |
Type | Upper cut size(µm) | Ot % | C % | Apparent density(g/cm3) |
---|---|---|---|---|
MT 425/3,0 | 425 | 1.1 | 0.05 | 3 |
MT 425/3,7 | 425 | 0.9 | 0.05 | 3.7 |
MT 425/3,7 C | 425 | 0.9 | 0,09 to 0,15 | 3.7 |
Description of the material and main chemical components | Iron powder with controlled content of Oxides, S, C |
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Description of the manufacturing process | Water atomisation, sieving and (possible) colouring |
Typical applications | Use on magnetic metallurgic tests (magnetoscopic) |
Particle shape | Round |
Main characteristic | Size and shape suiting needs of non-intrusive magnetoscopic tests. Low magnetic hysteresis. Special painting possible |
Particle upper cut size (full range) | 106 |
Particle upper cut size (typical) | 106 |
Apparent density (typical) | 3.7 |
Application notes | White painting allow contrast under wood light |
Recommended packaging | S25 P1000 |
Type | Upper cut size(µm) | Ot % | C % | Apparent density(g/cm3) |
---|---|---|---|---|
MT 106/3.7 | 106 | 0.9 | 0.050 | 3.75 |
RI 106/3.2 | 106 | 0.25 | 0.010 | 3.20 |
Description of the material and main chemical components | Iron powder with controlled content of Oxides, S, C |
---|---|
Description of the manufacturing process | Water atomisation, sieving and mechanical action |
Typical applications | Flame cutting process |
Particle shape | Regular-round |
Main characteristic | High density , modest content of Oxides, regular particle shape |
Particle upper cut size (full range) | 75 to 212 |
Particle upper cut size (typical) | 106 to 212 |
Apparent density (typical) | 3.7 |
Application notes | Use on flame cutting torches requires powder of good flowability, regular particles and limited oxide content |
Recommended packaging | S25 P1000 |
Type | Upper cut size(µm) | Ot % | C % | Apparent density(g/cm3) |
---|---|---|---|---|
MT 106/3,7 | 106 | 1.2 | 0.055 | 3.7 |
MT 150/3,7 | 150 | 1.1 | 0.05 | 3.7 |
MT 212/3.3 | 212 | 1.2 | 0.05 | 3.4 |
MT 212/3,7 | 212 | 1 | 0.05 | 3.7 |