Ferro Titanium Carbide Powder (FeTiC) Description
Ferro Titanium Carbide Powder (FeTiC) can be considered as FeTi + C. It has the properties of FeTi while TiC greatly improves its hardness and wear resistance. The TiC particles in FeTiC powder provide increased hardness, high melting point, and chemical stability, making it suitable for applications where wear resistance is a critical requirement.
Ferro Titanium Carbide Powder (FeTiC) Specifications
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Particle Size
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-60 mesh, -100 mesh, -325 mesh, or customized
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Purity
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99.9%
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Ferro Titanium Carbide Powder (FeTiC) Content
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Element
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Fe
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Ti
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C
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Si
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P
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S
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Cu
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Mn
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wt%
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Bal.
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56~58
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12~13
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≤2.0
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≤0.03
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≤0.03
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≤0.20
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≤0.25
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Ferro Titanium Carbide Powder Properties
Ferro Titanium Carbide Powder combines the properties of iron, titanium and carbon to provide high hardness, wear resistance and high temperature stability.
- High Hardness: FeTiC has excellent hardness, allowing it to perform well in high wear and high stress environments.
- High temperature resistance: This material has good thermal stability and oxidation resistance at high temperatures, making it suitable for applications in high temperature environments.
- High wear resistance: Due to its structure and hardness, FeTiC exhibits excellent wear resistance, making it ideal for use in parts that are subject to high levels of wear.
- High electrical conductivity: FeTiC has relatively good electrical conductivity, which is advantageous in certain electrical applications.
- Corrosion Resistance: FeTiC is also resistant to corrosion in certain corrosive environments.
Ferro Titanium Carbide Powder (FeTiC) Applications
- Hard facing and Wear Resistance: FeTiC powder is widely used in hard-facing applications to enhance the wear resistance of surfaces exposed to harsh environments. When added to welding electrodes, coatings, or thermal spray powders, it forms a hard and wear-resistant layer that protects against abrasion, erosion, and impact. The presence of titanium carbide in the ferroalloy provides excellent hardness, high melting point, and chemical stability.
- Cutting Tools and Inserts: The powder is utilized in the manufacturing of cutting tools and inserts for machining applications. When combined with other materials, such as tungsten carbide or high-speed steel, it improves the hardness, strength, and wear resistance of the cutting edges. Ferro Titanium Carbide powder enables the production of durable and efficient tools for metal cutting, milling, drilling, and turning operations.
- Metal Matrix Composites: The powder is an essential component in producing metal matrix composites (MMCs). By dispersing ferro titanium carbide particles within a metal matrix, such as aluminum or steel, the resulting composite exhibits enhanced mechanical properties, including improved strength, stiffness, and wear resistance. These composites find application in aerospace, automotive, and other industries where lightweight and high-performance materials are required.
- Additive Manufacturing: FeTiC powder is suitable for use in additive manufacturing processes, such as powder bed fusion (PBF) or selective laser melting (SLM). It can be incorporated into metal powders to produce high-strength and wear-resistant 3D-printed components. The powder's uniform particle size distribution and flowability contribute to precise and reliable printing results.
- Research and Development: Ferro Titanium Carbide powder is valuable in research and development activities, particularly in advanced materials. Researchers can explore its properties, investigate its behavior under different conditions, and develop new applications. The powder serves as a critical ingredient in experiments, simulations, and studies related to wear resistance, thermal management, and functional coatings.
Ferro Titanium Carbide Powder (FeTiC) Packaging
Our Ferro Titanium Carbide Powder (FeTiC) is carefully handled during storage and transportation to preserve the quality of our product in its original condition.
