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3D Printing Alloy Materials Custom K403 Metal Powder

Description of 3D Printing Alloy Materials Custom K403 Metal Powder :

K403 metal powder is a solid solution-reinforced alloy composed of nickel, chromium, cobalt, and molybdenum. This alloy has high strength, high hardness, good corrosion resistance, and oxidation resistance and can still maintain good mechanical properties at high temperatures. In addition, K403 metal powder also has good processability and weldability and can be processed at low temperatures, such as stamping, welding, and heat treatment.

In the 3D printing process, K403 metal powder can be mixed with other metal powders, such as titanium, aluminum, copper, etc., to create parts with more complex structures and higher performance. At the same time, through 3D printing technology, K403 metal powder can be manufactured with complex internal structures and high-precision parts, improving manufacturing efficiency and reducing costs.

When using K403 metal powder, it is necessary to pay attention to its relatively high production cost, and precise composition control and processing are required to ensure the stability of its organization and performance. In addition, when K403 metal powder is used at high temperatures, it also needs to be surface-coated or coated to prevent oxidation and corrosion.

In short, 3D printing alloy material custom K403 metal powder is a high-performance superalloy powder with excellent high-temperature performance and processing properties. It can be used in areas such as the manufacture of critical components and structural parts and can be mixed with other metal powders to create more complex parts.

Chemical composition (weight%)

TypeCNiCrCoMoWAlTiZrFe
K4030.11-0.2Bal.10.0-12.04.5-6.03.8-4.53.8-5.55.3-5.92.3-2.90.03-0.08<=2.0

Powder oxygen and nitrogen content:

Piaticle SizeO/ppmN/ppm
Between 15-52 mm<=400<=300
45 to 95mm<=300<=200


Application of 3D Printing Alloy Materials Custom K403 Metal Powder :

Aerospace: K403 metal powder has excellent high-temperature strength, corrosion resistance, and oxidation resistance, making it an important material for the manufacture of key components and structural parts in the aerospace sector. For instance, 3D printing can be employed to create components that are high-performance, such as turbine blades, combustion chambers, and fuel nozzles for aircraft engines.

Energy field: K403 metal powder can still maintain good mechanical properties at high temperatures, making it an ideal material for manufacturing high-temperature equipment in the energy field. For example, important components such as combustion chambers, fuel nozzles, and flame tubes in gas turbines can be manufactured using 3D printing technology.

Environmental protection: K403 metal powder is a good choice for corrosion resistance as well as oxidation resistance and can be used to manufacture key components in environmental protection fields such as waste treatment equipment and automotive catalytic converters.

Medical field: K403 metal powder has good biocompatibility and processing properties and can be used to manufacture key components in medical fields such as medical devices and biological implants. 

Sports equipment field: K403 metal powder has excellent high-temperature strength and processing properties and can be used to manufacture high-performance sports equipment. For instance, 3D printing technology can be employed to produce lightweight, high-strength bicycle frames and racing parts.


Production Method of 3D Printing Alloy Materials Custom K403 Metal Powder :

Ingredients: First of all, prepare all the raw materials according to the formula of K403 alloy, including nickel, chromium, cobalt, and molybdenum. These raw materials are usually in the form of metal blocks or metal powders, requiring precise control of the content and particle size of each element.

Smelting: The raw materials prepared are then put in an oven that is vacuum-filled and then melted under high temperatures in a vacuum. In this process, all the raw materials are melted and mixed evenly to form an alloy melt.

Atomization: The alloy melt is poured into a water-cooled copper crucible and atomized into tiny droplets using a high-pressure water flow. These droplets solidify into metal powder during cooling.

Spherification: In order to improve the fluidity of the powder and facilitate the 3D printing operation, it is necessary to spherify the metal powder. In this process, the metal powder is machined into a spherical or near-spherical shape by mechanical grinding and chemical reactions.

Screening and cleaning: The spherically treated metal powder is screened to remove large particles and impurities and cleaned to remove oxides and other contaminants.

3D printing: Finally, the metal powder is stacked and formed according to a preset model using 3D printing technology. In this process, the metal powder is rapidly melted and solidified under the irradiation of high-energy beams such as lasers or electron beams, achieving the manufacture of complex structures and fine features.

It should be noted that the above preparation method is a possible way, which may be adjusted and optimized according to specific requirements and conditions in actual production. At the same time, in order to ensure the quality and stability of the product, the production process needs to carry out strict quality control and testing, including chemical composition analysis, particle size distribution testing, fluidity assessment, microstructure testing, etc.

In addition, because the production process of K403 metal powder involves high temperature, high pressure, high energy beam, and other operations, the requirements for equipment and technology are high, and professional production capacity and technical level are required. At the same time, due to the high price of the superalloy itself, the production cost is relatively large. Hence, the production process also needs to consider factors such as cost-effectiveness and market competition.


Prospect Market of 3D Printing Alloy Materials Custom K403 Metal Powder :

There is a growing demand for high-performance components in the aerospace industry. As a superalloy powder, K403 metal powder is extremely strong, with durability at higher temperatures and corrosion and resistance to oxidation, which can meet the needs of high-performance materials in the aerospace field. In addition, with the continuous development of aerospace technology, the demand for customized, complex parts is also increasing, and 3D printing technology can well meet this demand. Therefore, with the continuous development of the aerospace field, the market demand for 3D printing alloy materials customized K403 metal powder will also continue to increase.

Secondly, the demand for efficient, safe, and clean energy utilization technologies in the energy sector is also increasing. K403 metal powder maintains good mechanical properties at high temperatures, making it an ideal material for manufacturing high-temperature equipment in the energy sector. For example, important components such as efficient gas turbine combustion chambers and fuel nozzles can be manufactured using 3D printing technology. Therefore, with the continuous development of the energy field, the market demand for 3D printing alloy materials customized K403 metal powder will also continue to increase.

In addition, the medical field also has a certain demand for 3D printing alloy materials customized to K403 metal powder. 3D printing technology is utilized to design custom medical devices, such as implants and artificial joints, that fulfill the needs of specific patients. With the constant advancement of medical technology, there is a constant improvement. Demand for medical equipment is rising, so the market demand for 3D printing alloy materials customized K403 metal powder will also increase.

In the field of sports equipment, K403 metal powder has excellent high-temperature strength and processing properties and can be used to manufacture high-performance sports equipment. With the continuous improvement of the level of sports competition, the demand for high-performance sports equipment is also increasing, so the market demand for 3D printing alloy materials customized K403 metal powder will also continue to increase.


Storage of 3D Printing Alloy Materials Custom K403 Metal Powder :

When an association exists, it is possible for dispersions to occur. Clean metal 3D printing materials. Avoid titanium aluminium carbonide. Metal 3D printing is discouraged.


Packing and Shipping of 3D Printing Alloy Materials Custom K403 Metal Powder :

You have many choices depending on what metal you would like to 3D print.

3D Metal Printing Materials: Package : Vacuum Packaging 100g 500g 25kg/barrel

Shipping the 3D printed metal material via water or air is possible. You must pay in advance for all payments

Synthetic Chemical Technology Co. Ltd.,is an established global chemical supplier and manufacturer, with more than a decade of experience. They provide high-quality nanomaterials such as boride powders, graphite or nitride particles, sulfide particles, and 3D printing powders.

We are happy to answer any questions you may have. (sales5@nanotrun.com)


3D Printing Alloy Materials Custom K403 Metal Powder Properties  

Additional Titles Materials Custom K403 Metal

N/A
Combination Formula N/A
Motility N/A
Appearance Different types of grey dust are available (ingot pieces, tubes or parts).
Melting Point N/A
Water solubility N/A
Density NA
Purity N/A

0-20mm, 15-45mm, 15-53mm, 53-105mm, 53-150mm, 105-250mm
Bold point N/A

N/A
/Ximity N/A
Thermal Expansion N/A
Youngs' Module N/A
Specific N/A
Monoisotopic N/A




Safety & Health Information  

Security Notification N/A
Hazard Statements N/A
Flashing Point N/A
Hazard Codes N/A
Risk Codes N/A
Privacy Statement N/A
TECS # N/A
Transport Information N/A
Germany N/A

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