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3D Printing Alloy Spherical Chromium Cr Powder

Description of 3D Printing Alloy Spherical Chromium Cr Powder:

3D printing alloy spherical chromium powder has high sphericity and good fluidity. This means that the shape of the powder is more spherical, the fluidity is better, and it is easier to fill the printing bed during the 3D printing process, improving the printing efficiency.

Secondly, the particle size distribution of this powder is narrow, which means that all powder particles are close in size, helping to improve the stability and consistency of the printing process. This also means that the printed parts have higher density and better mechanical properties.

In addition, the composition of the 3D printing alloy spherical chromium powder is very uniform, and the distribution of chromium and other metal elements is very uniform, which helps to improve the strength and corrosion resistance of the printed part. The addition of alloying elements can also improve the hardness, tensile strength, compressive strength, and corrosion resistance of the material.

Finally, the 3D-printed alloy spherical chromium powder also has good thermal stability and corrosion resistance. In a high-temperature environment, the powder will not easily deform or oxidize, maintaining its original shape and performance. At the same time, the corrosion resistance of chromium and alloying elements also makes this material perform well in a variety of corrosive environments.


Make-up (portion by mass) :


Application of 3D Printing Alloy Spherical Chromium Cr Powder:

Aerospace: In the aerospace sector, materials that have strong strength, high strength, high-temperature resistance, and high corrosion resistance are needed. The excellent properties of 3D-printed alloy spherical chromium powder make it an ideal material for manufacturing aircraft and spacecraft parts. For example, this material can be used to print complex engine parts, improving engine efficiency and reliability.

Automotive manufacturing: In the field of automotive manufacturing, materials with high strength, high-temperature resistance, and good corrosion resistance are needed. The excellent properties of 3D-printed alloy spherical chromium powder make it an ideal material for manufacturing automotive parts. For example, parts such as automotive gears, cylinders, and crankshafts can be printed using the material to improve vehicle performance and reliability.

Medical field: In the medical field, materials with high strength, good biocompatibility, and corrosion resistance are needed. The excellent properties of 3D-printed alloy spherical chromium powder make it an ideal material for manufacturing medical devices. For example, this material can be used to print medical devices such as complex orthopedic implants, dental plants, and vascular stents, improving medical outcomes and patients' quality of life.

Jewelry: In the field of jewelry, it is necessary to use materials with high strength, high hardness, and good corrosion resistance. The excellent properties of 3D-printed alloy spherical chromium powder make it an ideal material for manufacturing jewelry. For example, this material can be used to print complex jewelry models and jewelry packaging boxes, improving production efficiency and reducing costs.

Cultural and creative industries: In the field of cultural and creative industries, it is necessary to use materials with high strength, high hardness, and good corrosion resistance. In short, 3D printing alloy spherical chromium powder has a wide range of application prospects. Not only can it be used in the manufacture of industrial parts and medical devices and other fields, but it also can be used in jewelry and cultural and creative industries and other fields. Its excellent performance and good processability make it an ideal material for manufacturing a variety of complex shapes and high-performance products, bringing more convenience and progress to people's lives.


Production Method of 3D Printing Alloy Spherical Chromium Cr Powder:

Chemical Vapor Deposition (CVD)

Chemical Vapor deposition (CVD) is an extremely well-known method for making 3D-printed chrome powder that is spherical. In CVD, the raw material of chromium and other metallic elements is dissolved in an organic solvent to form a solution. The solution is then spray-dried to produce tiny solid particles. These tiny solid particles are pyrolyzed at high temperatures to remove organic matter and produce alloy precursor powder. Then, the precursor powder is put into the furnace for a high-temperature reaction, and the alloy component changes from liquid to gas. At the same time, due to the action of pressure in the furnace, the gaseous alloy component dries onto the wall of the furnace and forms a spherical alloy powder. Finally, the spherical alloy powder is collected, screened, and surface treated to obtain 3D-printed alloy spherical chromium powder.

The CVD method has the following characteristics:

The prepared alloy spherical chromium powder has high purity, high sphericity, and good fluidity.

The particle size and composition distribution of the powder can be controlled by adjusting the pyrolysis and high-temperature reaction conditions.

The equipment cost is low and suitable for large-scale production.

Physical Vapor Deposition (PVD)

Physical vapor deposition (PVD) is another commonly used method for preparing 3D-printed alloy spherical chromium powder. In PVD, the targets of chromium and various metal elements are placed inside the vacuum chamber and bombarded by high-energy ion or electron beams, causing them to evaporate into gaseous atoms or molecules. At the same time, inert gases (such as argon) are also introduced into the vacuum chamber and mixed with gaseous atoms or molecules. These gas mixtures are then deposited on the substrate to form an alloy spherical powder. During the deposition process, the particle size and composition distribution of the powder can be controlled by adjusting the energy and beam density of the incident ion or electron beam and the flow rate of the inert gas.

The PVD method has the following characteristics:

The prepared alloy spherical chromium powder has high sphericity, high hardness, and good corrosion resistance.

Precise control of powder composition and particle size distribution;

The process does not involve chemical reactions, so it is environmentally friendly.

The alloy powder with a high melting point and high purity can be prepared.


Prospect Market of 3D Printing Alloy Spherical Chromium Cr Powder:

In the aerospace field, since 3-D-printed alloy spherical chrome powder is strong with high-temperature resistance as well as excellent anti-corrosion properties, it could be used for the production of aerospace and spacecraft components. Compared with traditional processing methods, 3D printing technology can greatly reduce production costs and improve production efficiency while also realizing the manufacture of complex structures to meet a variety of different needs. Therefore, with the development of the aerospace field, the market demand for 3D printing alloy spherical chromium powder will continue to increase.

In the realm of manufacturing automotive parts, 3D printing of spherical alloy chrome powder can also be used for the production of automotive parts. Traditional automobile manufacturing methods require a large number of molds and complex processing processes, and 3D printing technology can print out complex structures through a one-time, reducing production costs and improving production efficiency. At the same time, the excellent performance of 3D printed alloy spherical chromium powder can also improve the performance and reliability of the car; therefore, in the field of automotive manufacturing, the market demand for 3D printed alloy spherical chromium powder will also continue to increase.

In the medical field, 3D-printed alloy spherical chromium powder can be used to manufacture complex medical devices, such as orthopedic implants, dental plants, and vascular stents. Because of its high strength, good biocompatibility, and corrosion resistance, it can improve the medical effect and the quality of life of patients. With the continuous development of medical technology, the demand for medical devices is also increasing, so the market demand for 3D printing alloy spherical chromium powder will also grow.

In the field of jewelry and cultural and creative industries, Spherical 3D printing of alloy chromium powder may also be used to design complex structures and models. Compared with traditional processing methods, 3D printing technology has the potential to greatly increase efficiency in production and cut costs while also enabling the design and manufacturing of a variety of different shapes, bringing more innovation and opportunities to these industries. Therefore, in these areas, the market demand for 3D printing alloy spherical chromium powder will also gradually increase.


Packaging & Shipping of Spherical Chromium Powder:

We have several sort of packaging which relies on the Round Chromium Powder amount.

Round Chromium Powder packing: vacuum cleaner packing, 100g, 500g or 1kg/bag, 25kg/barrel, or as your request.

Round Chromium Powder shipping: could be shipped by sea, by air, by reveal as soon as possible once repayment receipt.


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)


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