3D Printing Alloy Metal Materials Mold Steel M2 Metal Powder

Description of 3D Printing Alloy Metal Materials Mold Steel M2 Metal Powder：

M2 metal powder is an alloy metal material prepared by 3D printing technology, which has excellent mechanical properties and high-temperature stability.

The manufacturing process of M2 metal powder is achieved by melting the metal raw material and spraying it onto a hotbed. This manufacturing method is capable of producing high-purity, fine-grained metal powders with good fluidity and plasticity that can be used for 3D printing into a variety of complex geometrics and structures.

M2 metal powder has excellent mechanical properties, and its hardness, toughness, and fatigue resistance are better than other common die steels. Its high hardness can ensure the wear resistance and impact resistance of the die steel, and its excellent toughness can prevent the brittle fracture of the material. In addition, M2 metal powder also has good fatigue resistance and corrosion resistance and can be used for a long time in high-strength and harsh environments.

The high-temperature stability of M2 metal powder is also one of its outstanding advantages. It can maintain stable mechanical properties at high temperatures and is not easy to deform, oxidize, or melt. This property makes M2 metal powder an ideal die steel material, which can be used for a long time in high-temperature environments and does not require frequent mold changes.

Chemical composition (weight%)

Powder oxygen and nitrogen content:

Application of 3D Printing Alloy Metal Materials Mold Steel M2 Metal Powder：

Aerospace field

M2 metal powder has been widely used in the aerospace field. Because of its excellent high-temperature stability, it can be used to manufacture high-temperature components and structures in aerospace spacecraft, such as jet engines, turbines, and aircraft fuselages. In addition, M2 metal powder can also be used to manufacture high-precision parts and components in aerospace spacecraft, such as engine blades and wings. These components need to operate in high temperatures and harsh environments for long periods and, therefore, need to have excellent mechanical properties and high-temperature stability. The excellent properties of M2 metal powder make it an ideal material for the manufacture of these high-precision parts and assemblies.

Automobile manufacturing field

In the field of automobile manufacturing, M2 metal powder has also been widely used. It has great mechanical properties, and it is an excellent choice; it can be used to manufacture high-strength parts and wear-resistant parts in automotive engines and transmission systems, such as gears, bearings, and pistons. In addition, M2 metal powder can also be used to manufacture structural parts such as car bodies and frames. The components must have mechanical properties, such as high strength, fatigue resistance, and wear resistance, in order to guarantee the security and security of the vehicle. The excellent properties of M2 metal powder make it an ideal material for the manufacture of these parts and assemblies.

Oil and chemicals

In the field of petroleum and chemical industry, M2 metal powder also has a wide range of applications. Due to its corrosion resistance and high-temperature stability, it can be used to manufacture high-strength and corrosion-resistant components in petroleum and chemical equipment, such as pipes, valves, and pumps. These components need to operate in corrosive media and high temperatures for long periods, so they need to have excellent corrosion resistance and high-temperature stability. The excellent properties of M2 metal powder make it an ideal material for the manufacture of these parts.

Electronic and electrical fields

In the electronic and electrical field, M2 metal powder has also been widely used. Due to its high conductivity and high-temperature stability, it can be used to manufacture high-precision wires and connectors in electronic devices. It can also be used to manufacture high-strength components such as electrical switches and relays. These components need to have excellent electrical conductivity and high-temperature stability to ensure the normal operation and safety of electronic equipment. The excellent properties of M2 metal powder make it an ideal material for the manufacture of these parts.

Other fields

In addition to the above fields, M2 metal powder has also been applied in other fields. For example, it can be used to manufacture medical devices, such as artificial joints, implants, etc.. It can be used to manufacture medical devices and biological materials due to its excellent biocompatibility. In addition, it can also be used as a coating material to coat the surface of the workpiece, such as tools and molds, to improve its wear resistance and corrosion resistance.

Production Method of 3D Printing Alloy Metal Materials Mold Steel M2 Metal Powder：

Atomization method

The atomization method is one of the common methods of preparing M2 metal powder. The method is to spray molten metal raw materials through a nozzle and refine the metal into a powder under the impact of high-speed airflow. The atomization method includes two types: water atomization and gas atomization. The water atomization method is to spray molten metal raw materials through a nozzle into a high-speed rotating water flow, in the water to fine into powder. The gas atomization method is to spray the molten metal raw material through the nozzle into the high-speed airflow, which is refined into a powder in the air. M2 metal powder prepared by the atomization method has the advantages of good sphericity, narrow particle size distribution, smooth surface, high purity, uniform chemical composition, etc., which is suitable for large-scale production.

Mechanical alloying method

Mechanical alloying is a common method for preparing M2 metal powder. The method is to put the raw metal materials into the ball mill or vibration mill. The metal is refined into powder through the strong impact and friction of the ball mill or vibration mill, and the chemical composition and particle size of the powder may be controlled by means of the control of the time and temperature at which the ball mill operates, the mill's vibration and other variables. M2 powder that is prepared using the mechanical alloying process is a great choice due to its smaller particle sizes, good sphericity, small lattice distortion, and uniform composition, which is suitable for the preparation of high alloy and high-performance metal powder.

Reduction method

The reduction method is a common method for preparing M2 metal powder. The method is to react a compound containing an M2 metal element with a reducing agent to reduce the metal element into a metal powder. The reduction method includes the chemical reduction method and the hydrogen reduction method, two types. The chemical reduction method is the use of reducing agents (such as NaBH4) and the compound of M2 metal element reaction to produce metal elements and compounds, and then use hydrogen to reduce the compound to metal elements. The principle of hydrogen reduction is to use hydrogen to reduce the M2 metal element compound to the metal elemental under high temperature and high pressure. M2 metal powder prepared by the reduction method has the advantages of high purity, narrow particle size distribution, and uniform chemical composition, which is suitable for small batch production.

Electrochemical method

The electrochemical method is a method for preparing M2 metal powder. The method is carried out in an electrolytic tank; the electrolyte containing the M2 metal element is dissolved in water, and direct current is passed into the water, and the metal element is reduced to metal powder through electrolysis. M2 powder of metal made using electrochemical methods offers the benefits of uniform size of the particles, which is suitable for the preparation of high-purity and high-density metal powder.

Prospect Market of 3D Printing Alloy Metal Materials Mold Steel M2 Metal Powder：

Aerospace field

M2 metal powder has wide application prospects in the aerospace field. Because of its excellent high-temperature stability, it can be used to manufacture high-temperature components and structures in aerospace spacecraft, such as jet engines, turbines, and aircraft fuselages. With the continuous development of aviation technology, the performance requirements of aircraft are also increasing, and the demand for high-temperature components and structures is also increasing. Therefore, M2 metal powder has a broad application prospect in the aerospace field.

Automobile manufacturing field

M2 metal powder also has a wide range of application prospects in the field of automobile manufacturing. Because of its remarkable mechanical properties， it can be used to manufacture high-strength parts and wear-resistant parts in automotive engines and transmission systems, such as gears, bearings, and pistons. With the development of the automotive industry, the safety and comfort requirements of automobiles are also increasing, and the demand for high-strength parts and wear-resistant parts is also increasing. Therefore, M2 metal powder has a broad application prospect in the field of automobile manufacturing.

Oil and chemicals

M2 metal powder has wide application prospects in the petroleum and chemical industry. Due to its corrosion resistance and high-temperature stability, it can be used to manufacture high-strength and corrosion-resistant components in petroleum and chemical equipment, such as pipes, valves, and pumps. With the continuous development of the petroleum and chemical industry, the requirements for high-temperature stability and corrosion resistance of equipment are also increasing, and the demand for high-performance materials is also increasing. Therefore, M2 metal powder has a broad application prospect in the field of petroleum and chemical industry.

Electronic and electrical fields

M2 metal powder also has a wide range of applications in electronic and electrical fields. Due to its high conductivity and high-temperature stability, it can be used to manufacture high-precision wires and connectors in electronic devices. It can also be used to manufacture high-strength components such as electrical switches and relays. With the continuous development of electronic and electrical technology, the demand for high-performance materials is also increasing. Therefore, M2 metal powder has a broad application prospect in the field of electronics and electricity.

Other fields

In addition to the above application areas, M2 metal powder can also be used in medical devices, coating materials, tools, and other fields. With the continuous progress of technology and the continuous expansion of application fields, the market prospect of M2 metal powder will be broader.

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.
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