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TGM-M-100018
ZZJD
8414909090
Product Description
Tungsten heavy alloy counterweights are dense materials used to balance and stabilize various applications. They are made by combining tungsten with other metals, such as nickel, iron, or copper, to create a high-density material.
The high density of tungsten heavy alloy counterweights allows for a compact size while still providing significant weight. This makes them ideal for applications where space is limited but precise balancing is required. They are commonly used in industries such as aerospace, automotive, medical, and sporting equipment.
Some specific applications of tungsten heavy alloy counterweights include:
1. Aerospace: Tungsten counterweights are used in aircraft and spacecraft to balance rotating parts, such as propellers, rotors, and control surfaces. They help reduce vibrations and ensure smooth operation.
2. Automotive: Tungsten counterweights are used in crankshafts, pistons, and flywheels to balance the rotating components of an engine. This helps reduce vibrations, improve engine performance, and increase overall durability.
3. Medical: Tungsten counterweights are used in medical devices, such as radiation therapy machines and CT scanners, to balance rotating parts and ensure accurate and precise operation.
4. Sporting equipment: Tungsten counterweights are used in golf clubs, tennis rackets, and other sports equipment to fine-tune the balance and stability of the equipment, allowing for better control and performance.
Tungsten heavy alloy counterweights offer several advantages over other materials. They have high density, excellent corrosion resistance, and good mechanical properties. Additionally, they can be easily machined and shaped into various forms to meet specific design requirements.
Overall, tungsten heavy alloy counterweights are essential components in many industries, providing balance, stability, and improved performance in various applications
Tungsten Alloy Data Sheet
Grades | Density g/cm³ | Hardness HRC | MPa Tensile strength MPa | Elongation% | Impact toughness MJ/m² |
W273 | 17.10±0.15 | ≥23 | ≥900 | ≥24 | ≥1.30 |
W263 | 17.25±0.15 | ≥23 | ≥900 | ≥23 | ≥1.20 |
W253 | 17.40±0.15 | ≥24 | ≥900 | ≥22 | ≥1.10 |
W243 | 17.60±0.15 | ≥24 | ≥920 | ≥20 | ≥0.90 |
W232 | 18.10±0.15 | ≥25 | ≥920 | ≥14 | ≥0.45 |
W231 | 18.30±0.15 | ≥26 | ≥920 | ≥12 | ≥0.30 |
W221 | 18.50±0.15 | ≥27 | ≥920 | ≥10 | ≥0.22 |
WNiCu | 16.00-18.50 | ≥22 | ≥450 | 2-8 |
Data Sheet
Grades | Density g/cm³ | Hardness HRC | MPa Tensile strength MPa | Elongation% | MJ/m² Impact toughness MJ/m² |
W273 | 17.10±0.15 | ≥23 | ≥900 | ≥24 | ≥1.30 |
W263 | 17.25±0.15 | ≥23 | ≥900 | ≥23 | ≥1.20 |
W253 | 17.40±0.15 | ≥24 | ≥900 | ≥22 | ≥1.10 |
W243 | 17.60±0.15 | ≥24 | ≥920 | ≥20 | ≥0.90 |
W232 | 18.10±0.15 | ≥25 | ≥920 | ≥14 | ≥0.45 |
W231 | 18.30±0.15 | ≥26 | ≥920 | ≥12 | ≥0.30 |
W221 | 18.50±0.15 | ≥27 | ≥920 | ≥10 | ≥0.22 |
WNiCu | 16.00-18.50 | ≥22 | ≥450 | 2-8 |