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Cermet
Titanium Carbide Bars
The titanium carbide cermet bar (TiC bar) belongs to the steel-bonded cemented carbide, which is a kind of compound material based on the steel as the binder phase and used the refractory metal carbide (mainly the titanium carbide and the tungsten carbide) as the hard phase. The TiC rod is the high-hardness and high-strength titanium-based alloy composite material, known for their extreme hardness, high melting point, and excellent wear resistance. These rods can be used in various industrial applications, particularly where high durability and resistance to wear are required, such as for crushing hammer, etc.
Titanium carbide (TiC) bars are highly valued in various industrial applications due to their exceptional hardness, high melting point, and excellent wear resistance. These bars are often used in environments that demand materials with superior durability and resistance to wear and corrosion.
ADVANTAGES
We have grade GB10, GB20, TM52, TM60 and WSG53 Titanium Carbide Bars available, this is a new type of composite material prepared by powder metallurgy method with high manganese steel as the bonding phase and refractory metal carbide - titanium carbide as the hard phase. Its performance characteristics are as follows:
1. Good weldability and castability. The steel bonded alloy matrix is a type of high manganese steel, which exists as a single austenite phase at room temperature and has high strength, which is beneficial for improving the resistance to thermal stress during casting. It can be welded with ordinary high manganese steel electrodes or connected to the substrate through casting, which is simple to operate and easy to produce, and can reduce manufacturing costs and shorten production cycles.
2. High hardness and wear resistance. A large amount of refractory metal carbides (titanium carbide) are dispersed in steel bonded alloys, which have high hardness; At the same time, the matrix is high manganese steel with work hardening characteristics, which greatly improves the wear resistance of the product.
3. Excellent cost-effectiveness. Compared with tungsten cobalt hard alloy, steel bonded alloy has a low density (about 6.0g/cm3, which is 40% of tungsten cobalt hard alloy) and has a good cost-effectiveness advantage.
Titanium Carbide Bar has their own unique comprehensive performance advantages due to their unique performance characteristics. This excellent comprehensive performance has broad application prospects in industries such as impact and crushing tools, mining, cement, and construction.
USE
Application of Titanium Carbide Bars:
Cutting Tools: Titanium Carbide bar is used in the manufacture of high-performance cutting tools for machining hard materials. The hardness and wear resistance of TiC make it ideal for drill bits, milling cutters, and other cutting tools.
Wear Parts: Employed in various industrial wear parts that are subjected to high levels of abrasion and wear. Common in industries such as mining, metalworking, and construction.
Cermets: TiC bars can be used as a component in cermet materials, which combine the properties of ceramics and metals. Suitable for applications that require a combination of high hardness and toughness.
Coatings: Used as a precursor for creating wear-resistant coatings on metal surfaces. TiC coatings enhance the durability and lifespan of components exposed to high wear and corrosion.
Abrasives: Utilized in abrasive applications for grinding and polishing hard materials, such as metals and ceramics.
Electrodes: Used in electrical discharge machining (EDM) electrodes due to their conductivity and wear resistance. Suitable for electrical contacts in harsh environments.
Armor and Protective Gear: Employed in the manufacture of lightweight, high-hardness armor for personal and vehicle protection.
SPECIFICATIONS
Titanium Carbide Bars
GRADE OF CERMET (STEEL-BONDED CARBIDE)
Designation of TiC as hard phase: GT35,R5,TM52,TM60,GB10,
| Grade | Hard Phase | Binder Phase | Density | Hardness | TRS | Impact toughness | |||||||||
| g/cm3 | Annealing | Hardening | Mpa | J/cm2 | |||||||||||
| HRC | HRA | ||||||||||||||
| GT35 | TiC | Alloy steel | 6.40~6.60 | ≤48 | ≥86 | ≥1400 | ≥3.5 | ||||||||
| R5 | TiC | Alloy steel | 6.30~6.50 | ≤48 | ≥86 | ≥1200 | ≥3.0 | ||||||||
| TM52 | TiC | Alloy steel | 6.10~6.30 | sintered state:HRC≥60 | ≥1500 | H2O toughing treatment ≧6.0 | |||||||||
| TM60 | TiC | Alloy steel | 6.30~6.50 | sintered state:HRC≥56 | ≥1500 | ||||||||||
| GB10 | TiC | Alloy steel | 5.80~6.20 | sintered state:HRC≥65 | ≥1500 | ||||||||||
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