HSG METAL is a professional tungsten rod manufacturer and tungsten rod factory in China. Pure tungsten rod is made of 99.95% tungsten powder. Its physical properties are as follows: density 19.3g/cm3, melting point (liquid) 3422°C, conductivity 30% IACS Min, hardness 69HRA Min. The forging and annealing process results can be obtained by test. It possesses special properties such as low thermal expansion with good thermal conductivity, adequate resistance to electrical resistance, and high elastic modulus. The products made from tungsten are widely used in various fields, such as support line, lead line, printer needle, all kinds of electrodes and quartz furnace, filament, high-speed tools, auto products, sputtering target material, heating device with special properties. It is generally made by powder metallurgy. Contact our tungsten rod manufacturer for the latest price!
Specification of Tungsten Rod
iameter(mm) | Black tungsten rod | | Polished tungsten rod | | Custom length tolerance(mm) |
Diameter tolerance
(%) | circular degree | Diameter tolerance
(%) | circular degree |
0.8≤d≤3.0 | ±2 | 2 | ±0.03 | 0.03 | L≤50±0.5 |
3.0 | ±2 | 2 | ±0.05 | 0.05 | 50 |
6.5 | ±2 | 2 | ±0.08 | 0.08 | 100
300 |
13.5 | ±2 | 2 | ±0.15 | ±0.15 | 500 |
25.0 | ±2 | 2 | ±0.25 | ±0.25 | 1000 |
Application of Tungsten Rod
Tungsten rods possess special properties, such as low thermal expansion with good thermal conductivity, adequate resistance to electrical resistance, and high elastic modulus. Therefore, tungsten rods are widely used in various fields. Such as support line, lead line, printer needle, various electrodes and quartz furnace, filament, high speed tools, automotive automatic products, sputter target material.
Production Process of Tungsten Rod
Different average forging ratios and forging methods were used to draw the sintered pure tungsten bar, and the annealed tungsten bar was annealed under different annealing systems. The microstructure and physical and mechanical properties of the samples were analyzed by metallographic microscope, hardness tester and density tester. The results showed that:
1.0 After forging, the density and hardness of tungsten bar are improved significantly, but too large average forging ratio will easily lead to forging cracking and other phenomena of tungsten bar. When forging at 1450℃, the average forging ratio should be less than 32%.
2.0 Compared with the tungsten bar forged with smaller average forging ratio and one end of one fire, the tungsten bar forged with larger average forging ratio and two ends of one fire has finer structure and higher hardness.
When the total forging ratio is about 80%, the recrystallization of the tungsten rod forged at one end of one fire is basically completed after annealing at 1300℃ for 30 min, while the recrystallization of the tungsten rod forged at both ends of one fire is completed after annealing at 1350℃ for 60 min when the average forging ratio is larger. After annealing, the hardness of tungsten bars with the two forging processes will decrease, and the hardness of tungsten bars with the former process is less than that with the latter process before annealing and at the early stage of annealing, and this difference is no longer obvious with the completion of recovery recrystallization.