MET standard portfolio
Spherical metal powderHigh quality powder for additive manufacturing and more... |
Material class | Name | Alternative designation | Material characteristics |
Copper alloys | MET Cu-OF | C10200 / CW008A / 2.0040 | high purity oxygen-free copper with the highest thermal and electrical conductivity (>99,9% Cu). |
Copper alloys | MET CuNi2SiCr | C18000 / CW111C / 2.0855 | thermally curable low-alloyed copper alloy; higher strength and hardness but slightly decreased thermal and electrical conductivity compared to CuCr1Zr. |
Copper alloys | MET CuCr1Zr | C18150 / CW106C / 2.1293 | hardenable copper alloy, combining high strength and hardness with good thermal and electrical conductivity. |
Copper alloys | MET CuNi10 | C70700 / 2.0811 | high resistance copper alloy with increased seawater resistance through elevated Nickel content. |
Copper alloys | MET GRCop-42 | GRCop42 / CuCrNb | dispersion strengthened copper alloy with high strength, good conductivity and resistivity against low cycle fatigue . |
Stainless steels | MET 1.4306 | 304L | austenitic chromium-nickel steel with a low carbon content (<0,030%); higher content of chromium and nickel results in increased corrosion resistance than 1.4301 or 1.4307. |
Stainless steels | MET 1.4404 | 316L | austenitic chromium-nickel-molybdenum steel with a low carbon content (<0,030%); good resistance to chloric media and non-oxidizing acids. |
Stainless steels | MET 1.4435 | 316L Med | austenitic chromium-nickel-molybdenum steel with a low carbon content; good resistance to chloric media and non-oxidizing acids in terms of medical applications. |
Nickel alloys | MET Alloy K500 | 2.4375 / N05500 / NiCu30Al | high strength and hardness nickel-copper alloy with excellent corrosion resistance, suitable for marine technology and chemistry. |
Nickel alloys | MET In718 | 2.4668 / Inconel 718 | nickel-chromium-iron alloy with niobium, molybdenum, aluminium, and titanium, leading to outstanding mechanical properties and corrosion resistance. |
Nickel alloys | MET In625 | 2.4856 / N06625 / Inconel 625 | low carbon nickel-chromium-molybdenum-niobium alloy enabling service temperatures from cryogenic to 982°C and outstanding corrosion resistance. |
Titanium alloys | MET Ti Grade 5 | Ti6Al4V / Ti64 | age hardenable titanium-aluminium-vanadium alloy offering excellent combination of strength, toughness, and ductility with good biocompatibility |
Titanium alloys | MET Ti Grade 23 | Ti6Al4V ELI / Ti64 ELI | “extra low interstitials” by reduced oxygen and nitrogen content, used for medical and aerospace applications |
Molybdenum alloys | MET Mo | Molybdenum / Mo 99% | high melting temperature and low thermal expansion coefficient enable operational temperatures up to 1900°C |
Other materials on request |
Any metal or alloy can be atomized with our proprietary process, according to your needs. All products can be produced in narrow particle size distributions (PSD), as shown below, other PSDs are available on request. |
PSD [µm] | d10min [µm] | d90max [µm] |
5 - 20 | 4 | 22 |
15 - 45 | 10 | 48 |
20 - 63 | 18 | 66 |
45 - 106 | 40 | 106 |
COMMISSION PROCESSING
Metalpine
GmbH is your service partner for high quality production of spherical metal
powders and related preparation processes.
Powder production
We
developed a unique powder production process to provide perfect spherical
powders (patent pending). Any metal or alloy can be atomized according to your
needs. Our processes are run with Argon 5.0 as atomization gas in a dust-free
production environment to guarantee maximum product quality. All subsequent
processes (production, classifying, screening, packaging) can be done under
Argon atmosphere, to ensure an oxygen-free production line.
Back-up powder production
and R&D plant
Supplementary
to our production site in Graz, we have a secondary production line in
Niklasdorf, Austria. The secondary plant is mainly dedicated to R&D but is
available as a back-up production line to increase flexibility for our
customers.
Powder screening
With
various screening technologies we can screen your powder at grain sizes ranging
from 10 to 1000 microns.
Powder classifying
With our
state-of-the-art classifiers we can provide narrow particle size distributions,
produce ultrafine powders, or remove dust from your powders.
Packaging
With our 17
Sustainable Development Goals in mind, we try to reduce the amount of waste by
offering different packaging than commonly used white bottles, which are thrown
away after usage. Of course, we pack the powders according to our customers’
needs and help to manage transport organization.
Laboratory
Services
In our in-house laboratory, we measure particle
size distributions with laser light scattering (Horiba LA-960 according to ISO
13320) and digital image processing (Camsizer X2 according to ISO 13322-2).
Additionally, we offer tab density measurements (3P Instruments BeTensi T3
according to ISO3953, ASTM B527) as well as flowability measurements by Hall
Flow Meter (ISO 4490, ASTM B213). For more sophisticated flowability problems,
Schulze Ring Shear tests can be conducted by our university partners and additionally,
we offer analysis of our products in collaboration with certified laboratories.
Send us your request
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