3D Printing Alloy Spherical Nickel Coated Tungsten Carbide WC Powder

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Description

3D Printing Alloy Spherical Nickel Coated Tungsten Carbide WC Powder Properties
Other Names Nickel-coated Tungsten Carbide WC Powder
CAS No. N/A
Compound Formula WC
Molecular Weight N/A
Appearance Gray metallic solid in various forms (ingot, tubing, pieces, powder)
Melting Point N/A
Solubility in water N/A
Density NA
Purity N/A
Particle Size 0-20μm, 15-45μm, 15-53μm, 53-105μm, 53-150μm, 105-250μm
Boling point N/A
Specific Heat N/A
Thermal Conductivity N/A
Thermal Expansion N/A
Young's Modulus N/A
Exact Mass N/A
Monoisotopic Mass N/A
   
   
3D Printing Alloy Spherical Nickel Coated Tungsten Carbide WC Powder Health & Safety Information
Safety Warning N/A
Hazard Statements N/A
Flashing point N/A
Hazard Codes N/A
Risk Codes N/A
Safety Statements N/A
RTECS Number N/A
Transport Information N/A
WGK Germany N/A


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(3D Printing Alloy Spherical Nickel Coated Tungsten Carbide WC Powder)

Overview Of 3D Printing Alloy Spherical Nickel Coated Tungsten Carbide WC Powder

3D Printing Alloy Spherical Nickel Coated Tungsten Carbide WC Powder is a spherical alloy powder with a core composed of tungsten carbide (WC) and a surface coated with a nickel layer. Tungsten carbide is a hard ceramic material commonly used to manufacture cutting tools and wear-resistant components. The nickel coating not only improves the powder's conductivity and flexibility but also helps achieve better interlayer bonding during the 3D printing process.

 

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3D Printing Alloy Spherical Nickel Coated Tungsten Carbide WC Powder

 

Applications Of 3D Printing Alloy Spherical Nickel Coated Tungsten Carbide WC Powder

3D Printing Alloy Spherical Nickel Coated Tungsten Carbide WC Powder is a high-performance composite powder material designed specifically for 3D printing technology. Due to its unique physical and chemical properties, this powder has many applications in multiple fields. The following are the main application areas of this powder material:

 

Tool and mold manufacturingTungsten carbide is widely used in manufacturing cutting tools due to its extremely high hardness and wear resistance. The nickel coating increases toughness, making these tools more durable while maintaining hardness.Molds must withstand high pressure and high temperature, and tungsten carbide nickel composite powder is an ideal material for manufacturing high wear and hardness molds.Tungsten carbide drill bits and milling cutters are widely used in petroleum drilling and metal processing industries due to their excellent wear resistance and efficiency.

 

AerospaceAerospace vehicles' engines and propulsion systems require materials that can withstand extreme temperatures and pressures. Tungsten carbide nickel powder can print key components such as turbine blades and nozzles.This powder can also manufacture structural components in aerospace vehicles, such as frames, supports, etc., to provide necessary strength and wear resistance.

 

Energy and MiningHigh hardness and wear-resistant tools are required to drill and extract resources in oil and gas extraction. Tungsten carbide nickel powder is an ideal choice for manufacturing these tools.Due to the high density and radiation stability of tungsten carbide, it also has certain potential applications in the nuclear industry, such as in manufacturing certain components in nuclear reactors.

 

Automobiles and TransportationTungsten carbide is used to manufacture friction pads for high-performance brake systems due to its excellent wear resistance, improving the durability and efficiency of braking.Engine components: Some key engine components, such as piston rings, valve seat rings, etc., can be 3D printed with this powder to improve wear resistance and lifespan.

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Applications of 3D Printing Alloy Spherical Nickel Coated Tungsten Carbide WC Powder

Electronics and SemiconductorsIn the electronics and semiconductor industry, it is necessary to manufacture high-precision and wear-resistant parts. Tungsten carbide nickel powder is suitable for printing these highly demanding parts.This powder can also be used to manufacture certain components in semiconductor equipment, such as the contact points of wafer processing robots.

 

Research and EducationResearchers can use this powder to study tungsten carbide-based composites' properties, microstructure, and phase transition behavior.In education, this powder can be used as teaching material to demonstrate 3D printing technology and the preparation process of composite materials.

  

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Company Profile

NANOTRUN(www.rboschco.com) 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 3D Printing Alloy Spherical Nickel Coated Tungsten Carbide WC Powderplease feel free to contact us or click on the needed products to send an inquiry. 

 

Payment Term

L/C, T/T, Western Union, Paypal, Credit Card etc.

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Shipment Term

By sea, by air, by express, as customers request.

 

Storage Conditions

1) Store in a dry environment at room temperature.

2) Avoid damp and high temperature.

3) Use immediately after opening the inner packing bag.

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FAQ

Q1

What is the flowability of this powder, and is it suitable for 3D printing?

Answer: Due to the spherical design of the powder particles and the nickel coating on the surface, this usually helps to improve their fluidity. Good fluidity ensures uniform powder placement and reduces blockages during 3D printing. Therefore, this powder is usually very suitable for 3D printing applications.

Q2

What impact does the particle size distribution of powder have on the quality of 3D printing?

Answer: The powder's particle size distribution directly affects the resolution of 3D printing and the surface quality of the final component. The finer powder can provide higher printing resolution but may also lead to easier agglomeration or blockage. Therefore, selecting the appropriate particle size distribution ensures high-quality 3D printing.

Q3

Do you need a special 3D printer to use this powder?

Answer: Tungsten carbide nickel composite powder usually requires a metal powder 3D printer, such as selective laser melting (SLM) or electron beam melting (EBM) system. These printers can handle high temperatures and metal powders' melting process.

Q4

Do the printed components need to undergo further processing?

Answer: Yes, metal 3D printed components usually require subsequent heat and surface treatments to eliminate internal stress, improve mechanical properties, and optimize microstructure. The specific follow-up processing steps will depend on the purpose and requirements of the components.

Q5

What are the special requirements for the storage and transportation of this powder?

Answer: As this is a metal powder, it should be avoided from moisture, oxidation, and contamination during storage and transportation. It is recommended to store the powder in a dry, sealed container and check its dryness and purity before use. In addition, relevant safety regulations should be followed to prevent powder leakage or accidental ignition.

Q6

What are the potential performance advantages of using this powder-printed component?

Answer: Due to the hardness, high melting point, and wear resistance of tungsten carbide, as well as the toughness, corrosion resistance, and flexibility of nickel, components printed with this powder may have excellent mechanical properties, wear resistance, and corrosion resistance. These performance advantages give this powder broad application potential in tools manufacturing, aerospace, and energy.

Q7

What is the cost of this powder compared to other 3D printing materials?

Answer: Metal powder is usually more expensive than plastic or non-metallic 3D printing materials. Tungsten carbide nickel composite powder costs depend on various factors, including raw material prices, powder manufacturing processes, and quality. Therefore, when selecting this powder, it is necessary to consider the balance between its performance and cost.

Q8

How to ensure the uniformity and consistency of powder during the printing process?

Answer: Ensuring the uniformity and consistency of the powder is crucial for obtaining high-quality 3D-printed components. This can be achieved by regularly stirring the powder, using a vibrating screen to remove agglomerates, and monitoring and controlling the powder temperature and humidity during printing. In addition, choosing a reputable powder supplier is also crucial to ensuring powder quality. Proper pre-treatment of the powder before printing, such as drying and sieving, can also help improve printing quality and consistency.

 

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