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Nickel Iron Chromium alloy Inconel 750 powder is an excellent material used in various applications due to its corrosion resistance, high strength-to-weight ratio, and excellent mechanical properties. The powder is made of Inconel 750 with a nickel content of up to 85% and a Chromium content of up to 45%. This合金 is designed for use in the chemical industry and 3D printing applications due to its strong corrosion resistance and ability to withstand exposure to harsh chemicals.
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The formula for iron chromium-aluminum powder is FeCrAl (weight percentage of each component) where "weight percentage" refers to the percentage of each element that is present in the powder. For example, if you have 10% iron, 5% chromium, and 20% aluminum in your iron-chromium-aluminium powder, the weight percentage would be 10/40 = 0.25 or 25%. This means that there are 0.25 grams of iron, 0.5 grams of chromium, and 0.2 grams of aluminum in every kilogram of this powder.
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The high purity iron powder with a yield of 99.99% is typically made through chemical precipitation, where iron reacts with an acid or base to form iron hydroxide and then the metal oxide is collected as a solid residue. The concentration of iron in the powder can be adjusted by adjusting the amount of acid used in the precipitation process.
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The "99%" purity of iron powder refers to its high percentage of pure iron, which is typically between 99% and 99.9%. The exact level of purity can vary depending on the method used to produce the powder.
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The provided parameter is for a metal sandblasting and polishing iron powder, which is also known as a high-potency iron powder or 99% iron powder. The powder is made up of about 325 mesh particles to provide excellent finishing results.
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The specified parameters for nanoscale nano powder iron, 99.99% particles based dust powder, 80-150 particle size, and 80-200 carbonyl iron powder are as follows:
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The parameters for reducing iron powder in welding electrodes can vary depending on the specific application and the type of electrode being used. However, some general parameters that may be relevant to reducing iron powder include:
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The particle size and composition of iron powder can affect its properties and performance in various applications, including mining, steel production, and manufacturing. Here are some general parameters related to iron powder:
Iron-based 3D Printing Powder can be subdivided into powder for injection molding, powder for laser cladding, powder for spray coating, powder for hot isostatic pressing, etc. through the difference in particle size distribution.
Applications of Iron-based 3D Printing Powder
Iron-based 3D Printing Powder is optimized powder, especially suitable for SLM forming technology, including EOS's selected laser melting equipment (EOSINT M series), ConceptLaser's laser melting equipment, Renishaw's laser melting equipment in the United Kingdom, 3Dsystems' laser melting equipment in the United States , And selected laser melting equipment developed by domestic research institutes and enterprises.
Kmpass provides different kinds of Iron-based 3D Printing Powder, such as 18Ni300, M2, 17-4PH, 316L, InVar36, SS440C,etc. Send us an email or click on the needed products to send an inquiry.
Payment Term:
T/T, Western Union, Paypal, Credit Card, etc.
Shipment Term:
By courier, by air, by sea, as customers request.
Storage conditions:
1) Store in a dry environment at room temperature.
2) Avoid damp and high temperature.
3) Use immediately after opening the inner packing bag.
