Introduction of Iron Cobalt Nickel Aluminum Silicon 3D Printing Spherical Powder FeCoNiAl0.375Si0.375
3D-printing uses energy sources such as laser, electron beam, arc, plasma, etc. to scan metal powder and wire point by point and line by line, melt the powder or wire, overlap line by line, solidify and accumulate layer by layer, and achieve the "near net shape" of three-dimensional complex parts. Our company has a variety of brands to choose from, and FeCoNiAl0.375Si0.375 for 3D Printing is one of them.
Iron Cobalt Nickel Aluminum Silicon 3D Printing Spherical Powder FeCoNiAl0.375Si0.375 High Entropy Alloy Powder Can Be Customized
Features of Iron Cobalt Nickel Aluminum Silicon 3D Printing Spherical Powder FeCoNiAl0.375Si0.375
High entropy effect: The high entropy characteristics of multi-principal alloys give the material excellent mechanical properties and thermal stability, such as high strength and good ductility.
Heat resistance and oxidation resistance: The addition of aluminum and silicon significantly improves the material's stability and oxidation resistance in high temperature environments.
Good formability and printability: The spherical powder morphology promotes uniform spreading of the powder and good flow during the laser melting process, making it suitable for 3D printing of high-precision complex structures.
Corrosion resistance: The microstructure of multi-element alloys can form a denser protective film and improve corrosion resistance.
Lightweight potential: Through reasonable design, the weight of components can be reduced while maintaining high strength, making it suitable for lightweight applications.
Parameter of Iron Cobalt Nickel Aluminum Silicon 3D Printing Spherical Powder FeCoNiAl0.375Si0.375
(Product Particle Size and Distribution of Iron Cobalt Nickel Aluminum Silicon 3D Printing Spherical Powder FeCoNiAl0.375Si0.375)
(Electron microscope image of Iron Cobalt Nickel Aluminum Silicon 3D Printing Spherical Powder FeCoNiAl0.375Si0.375)
Advantages of Iron Cobalt Nickel Aluminum Silicon 3D Printing Spherical Powder FeCoNiAl0.375Si0.375
3D printing metal powder has good plasticity, high powder purity, low oxygen content, fine particle size, narrow particle size distribution, high sphericity, good fluidity and high bulk density.
3D printing is a revolutionary technology for rapid and precise manufacturing of complex structural parts, which are difficult to manufacture and have high manufacturing costs. The implementation of this technology is very different from traditional manufacturing in terms of metallurgical mechanism, microstructure, structural form, defect form, etc., and can solve some problems encountered by traditional manufacturing methods.
Application Areas of Iron Cobalt Nickel Aluminum Silicon 3D Printing Spherical Powder FeCoNiAl0.375Si0.375
Aerospace: used to manufacture high temperature resistant parts, such as engine parts, turbine blades, etc.
Energy industry: heat exchangers, internal components of nuclear power plants, etc., require high temperature and corrosion resistant materials.
Automotive manufacturing: high performance engine parts, lightweight structural parts.
Precision machinery: precision instruments, complex mechanical structural parts, requiring high strength and precise dimensions.
Research and development: as a research sample of new materials in the fields of materials science, energy conversion, etc.
Packaging and Precautions
Packaging according to product characteristics, or customized according to customer needs. Wear protective equipment, goggles, rubber gloves, masks, etc. when using. If accidentally contact with mucous membranes, rinse with plenty of water and seek medical attention in time.
Packaging and Precautions
Company Profile
Luoyang Tongrun Nano Technology Co. Ltd. (TRUNNANO) is a trusted global chemical material supplier & manufacturer with over 12-year-experience in providing super high-quality chemicals and nanomaterials, including boride powder, nitride powder, graphite powder, sulfide powder, 3D printing powder, etc.
The company has a professional technical department and Quality Supervision Department, a well-equipped laboratory, and equipped with advanced testing equipment and after-sales customer service center.
If you are looking for high-quality Iron Cobalt Nickel Aluminum Silicon 3D Printing Spherical Powder FeCoNiAl0.375Si0.375, please feel free to contact us or click on the needed products to send an inquiry.
Payment Term
T/T, Western Union, Paypal, Credit Card etc.
Shipment Term
By air, by sea, by express, as customers request.
Shipment Term
FAQs of Iron Cobalt Nickel Aluminum Silicon 3D Printing Spherical Powder FeCoNiAl0.375Si0.375
Q1: Do FeCoNiAl0.375Si0.375 alloy 3D printed parts need heat treatment?
A1: Yes, heat treatment is usually required to eliminate the internal stress generated during the printing process, optimize the microstructure, and further improve the mechanical properties and stability of the material.
Q2: Are the printing parameters of this alloy significantly different from traditional metal powders?
A2: Due to the special composition, the melting point and thermophysical properties of FeCoNiAl0.375Si0.375 may be different from traditional metals. It is necessary to adjust parameters such as laser power and scanning speed according to the specific 3D printing equipment.
Q3: How to store FeCoNiAl0.375Si0.375 powder to maintain its performance?
A3: It should be stored sealed in a dry, oxygen-free, room temperature environment to avoid moisture and contamination to maintain the purity and fluidity of the powder.
Q4: How cost-effective is 3D printing with this alloy compared to traditional manufacturing methods?
A4: Although the cost of 3D printing equipment and materials is higher, the small batch production of complex structural parts can reduce material waste and simplify the manufacturing process, which may be more cost-effective in the long run.
Q5: How biocompatible is this alloy?
A5: FeCoNiAl0.375Si0.375, as a high-performance engineering material, is generally not designed for biomedical applications. Nonetheless, with the development of materials science, high-entropy alloys with specific proportions are also exploring their application potential in the biomedical field, but further biocompatibility testing and verification are needed.