Introduction of Nickel Based CM247LC Powder 3D Printing Powder
Nickel Based CM247LC Powder 3D Printing Powder
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 the 3D printing metal powder with the brand CM247LC is one of them.
Features of Nickel Based CM247LC Powder 3D Printing Powder
Excellent high-temperature performance: CM247LC alloy can maintain high strength and excellent creep resistance even at high temperatures up to 1100 ° C, making it an ideal material for manufacturing gas turbine engines and aerospace engine components.
Optimized microstructure: Advanced powder manufacturing technology is adopted to ensure that the powder has a highly spherical and uniform particle size distribution, improving interlayer adhesion and printing accuracy during the 3D printing process.
Wide 3D printing compatibility: suitable for various advanced 3D printing technologies such as Selective Laser Melting (SLM) and Electron Beam Melting (EBM), easily achieving precise shaping of complex geometric shapes.
Excellent post-processing performance: The printed components are easy to heat treat and machine, further improving their mechanical properties and surface smoothness, meeting high standards of precision manufacturing.
Long lifespan and reliability: Low thermal expansion coefficient and excellent fatigue strength ensure the stability and durability of components under long-term high-temperature cyclic loads, extending their service life.
Parameter of Nickel Based CM247LC Powder 3D Printing Powder
(Product Particle Size and Distribution of Nickel Based CM247LC Powder 3D Printing Powder)
(Electron microscope image of Nickel Based CM247LC Powder 3D Printing Powder)
Advantages of Nickel Based CM247LC Powder 3D Printing Powder
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 Nickel Based CM247LC Powder 3D Printing Powder
Aerospace: turbine blades, guide vanes, combustion chamber components
Energy industry: high-temperature components of nuclear power plants and hot end components of gas turbines
Racing:high-performance engine components, thermal management system components
Scientific research: new material development, extreme environment simulation components
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.
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 Nickel Based CM247LC Powder 3D Printing Powder, 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.
FAQs of Nickel Based CM247LC Powder 3D Printing Powder
Q1: What types of 3D printing technologies are suitable for CM247LC alloy powder?
A: CM247LC powder is very suitable for high-precision metal 3D printing technology, especially selective laser melting (SLM) and electron beam melting (EBM), which can precisely control the melting and cooling processes, ensuring the printing of components with complex geometric shapes and excellent mechanical properties.
Q2: How does the CM247LC alloy printed part perform in high-temperature environments?
A: CM247LC alloy, due to its excellent high-temperature strength and creep resistance, can maintain good mechanical properties at temperatures exceeding 1100 ° C, making it very suitable for manufacturing aircraft engine components and high-temperature components in the energy industry that withstand high-temperature stress.
Q3: How to store CM247LC powder to maintain its performance?
A: To maintain the performance and freshness of the powder, it is recommended to store it in a dry, oxygen-free, and temperature-stable environment, preferably using a vacuum-sealed container. Avoid moisture, high temperature, and direct sunlight, as these factors may cause powder oxidation or changes in physical properties.
Q4: What post-processing steps are required for CM247LC printed parts?
A: According to application requirements, printed components may require heat treatment (such as solution treatment and age hardening) to enhance their mechanical properties and mechanical processing (such as polishing and machining) to achieve final dimensional accuracy and surface finish. The specific post-processing process needs to be customized according to design requirements.
Q5: What are the typical applications of CM247LC alloy in the aerospace field?
A: In the aerospace field, CM247LC alloy is widely used in key parts such as turbine blades, guide vanes, and combustion chamber components. These components work in extreme thermal and mechanical stress environments, requiring the material to have extremely high heat resistance and long-lasting mechanical properties.