OEM 36OD*2000-3000 Titanium Bars For Exhaust Hanger
|Place of Origin||Baoji, Shaanxi, China|
|Certification||GB/T19001-2016 idt ISO9001:2015 GJB9001C-2017|
|Model Number||Titanium Bars|
|Minimum Order Quantity||To be negotiated|
|Price||To be negotiated|
|Packaging Details||Wooden case|
|Delivery Time||To be negotiated|
|Supply Ability||To be negotiated|
|Advantage||Light Quality,High Strengthen Anticorrossive,Corrosion Resistance,acid And Base Resistance||Standard||ASTM B348-06 A|
|Certification||GB/T19001-2016 Idt ISO9001:2015; GJB9001C-2017|
36OD*2000 Titanium Bars,
OEM Exhaust Hanger Titanium Bars,
36OD*3000 titanium rod
Titanium Bars Gr5 ASTM B348-06 a 36OD*2000-3000 Titanium Forging Titanium Round Bar Titanium Round Rod Titanium products
Baoji, Shaanxi, China
Port of delivery
Xi'an port, Beijing port, Shanghai port, Guangzhou port, Shenzhen port
Titanium has a metallic luster and ductility. The density is 4.5g/cm3. Melting point is 1668 ℃. The boiling point of 3287 ℃. The common valences are +2, +3 and +4. The ionization energy is 6.82 eV. Titanium is characterized by its low density, high mechanical strength and ease of processing. The plasticity of titanium depends largely on its purity. The purer the titanium, the more plastic it is. Good corrosion resistance, not affected by the atmosphere and seawater. At room temperature, it will not be corroded by hydrochloric acid below 7%, sulfuric acid below 5%, nitric acid, aqua rega or dilute alkali solution; Only hydrofluoric acid, concentrated hydrochloric acid, concentrated sulfuric acid can act on it.
Titanium is an important alloying element in steel and alloys. The density of titanium is 4.506-4.516 g/cc (20℃), higher than that of aluminum but lower than that of iron, copper and nickel. But the specific strength is located in the first metal.  Melting point 1668℃, melting latent heat 3.7-5.0 kcal/gram atom, boiling point 3260±20℃, latent heat of vaporization 102.5-112.5 kcal/gram atom, critical temperature 4350℃, critical pressure 1130 atmospheric pressure. Titanium has poor thermal and electrical conductivity, which is similar to or slightly lower than stainless steel. Titanium has superconductivity, and the critical superconductivity temperature of pure titanium is 0.38-0.4K. At 25℃, the heat capacity of titanium is 0.126 CAL/gram atom · degree, the enthalpy is 1149 CAL/gram atom · degree, the entropy is 7.33 CAL/gram atom · degree, the metal titanium is a paramagnetic material, the magnetic permeability is 1.00004.
Titanium bars have good thermal strength, good weldability and excellent corrosion resistance. Its disadvantage is low strength at room temperature. It is usually used as heat-resistant and corrosion resistant material. Titanium alloy is widely used in various fields because of its high specific strength, good corrosion resistance and good heat resistance. The industrial production of titanium began in 1948, and the demand of the aviation industry made the titanium industry develop at an average annual rate of about 8%. At present, the annual output of international titanium alloy processing materials has reached 4 million tons, and there are nearly 30 kinds of titanium alloy trademarks. Titanium alloy is mainly used to manufacture aircraft engine compressor parts, followed by layout parts of rockets, missiles and high-speed aircraft. In the mid-1960s, titanium and its alloys have been used in general industries, such as electrodes for electrolytic industry, condensers for power stations, oil refining and desalination heaters and environmental pollution control equipment. Titanium and its alloys have become an anticorrosion material.
1. Convenient handling.
2. Strong corrosion resistance
3. low fluid resistance
4. High mechanical strength