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Iron alloyed powder

Pre-alloyed only

When diffusion bond treatment is still not sufficient to reach desired mechanical characteristics or correct behaviour to thermal treatments, then prealloy of Iron-Molibdenum grades are the best solution. Pre-alloyed only powders do not undergo ulterior diffusion bonding treatment. 

Product families

FerAlloy master Cu8
Alloy of iron Cu atomised powder
Description of the material and main chemical components

Alloy of iron Cu atomised powder

Description of the manufacturing process

Water atomisation of molten alloy, annealing, mechanical treatment and final sieving

Typical applications

Sintering of ferrous parts

Particle shape

Irregular

Main characteristic

Presence of Cu directly at alloy stage grants best homogenity of this element

Particle upper cut size (full range)

180

Particle upper cut size (typical)

180

Apparent density (typical)

3

Application notes

Normally used as additive

Recommended packaging

BB 1000

Type Upper cut size(µm) Ot % Apparent density(g/cm3) Added elements
Cu8 180 0.2 2,90 to 3,10 Cu at 8%
Feralloy M Cu20
Alloy of iron Cu atomised powder
Description of the material and main chemical components

Alloy of iron Cu atomised powder

Description of the manufacturing process

Water atomisation of molten alloy, annealing, mechanical treatment and final sieving

Typical applications

Sintering of ferrous parts

Particle shape

Irregular

Main characteristic

Presence of Cu directly at alloy stage grants best homogenity of this element

Particle upper cut size (full range)

250

Particle upper cut size (typical)

250

Apparent density (typical)

3.05

Application notes

Normally used as additive for its copper content. Use of MCu20 have high advantage in DC control

Recommended packaging

BB 1000

Type Upper cut size(µm) Ot % Added elements
Cu20 250 0.25 Cu at 20%
FerAlloy ST0
Alloy of iron -Mo atomised powder
Description of the material and main chemical components

Alloy of iron -Mo atomised powder

Description of the manufacturing process

Water atomisation of molten alloy, annealing, mechanical treatment and final sieving

Typical applications

Sintering of Ferrous components with good mechanical performances

Particle shape

Irregular

Main characteristic

Presence of Mo directly from molten alloy permit a basic powder processing, still granting good performances. ST0 is rarely subject to thermal treatments

Particle upper cut size (full range)

180

Particle upper cut size (typical)

180

Apparent density (typical)

3.05

Application notes

ST0 is normally used with simple addition of Graphite and lubricants

Recommended packaging

BB 1000

Type Upper cut size(µm) Ot % Apparent density(g/cm3) Added elements
ST0 180 0.15 3,0 to 3,15 Mo at 1,5%
FerAlloy ST0.85
Alloy of iron -Mo atomised powder
Description of the material and main chemical components

Alloy of iron -Mo atomised powder

Description of the manufacturing process

Water atomisation of molten alloy, annealing, mechanical treatment and final sieving

Typical applications

Sintering of Ferrous components with good mechanical performances

Particle shape

Irregular

Main characteristic

Presence of Mo directly from molten alloy permit a basic powder processing, still granting good performances

Particle upper cut size (full range)

212

Particle upper cut size (typical)

212

Apparent density (typical)

3

Application notes

ST0.85 is normally used with simple addition of Graphite and lubricants

Recommended packaging

BB 1000

Type Upper cut size(µm) Ot % Apparent density(g/cm3) Added elements
ST0,85 212 0.15 2,95 to 3,05 Mo at 0,85%