Properties and Applications of Ti6Al4V TC4 Powder
The spread of the novel coronavirus is taking a direct hit on the operations of airlines in Asia. About 500,000 flights taking off and landing in mainland China have been canceled since January, according to aviation information company Cerium. Tourists and business trips have plummeted. On the booking website, there are a large number of air tickets for local routes with a price reduction of nearly 90% compared with the original price and only tens of yuan for a one-way trip.
In February, China's aviation industry recorded its largest single-month loss of 24.59 billion yuan, of which airlines lost 20.96 billion yuan.
Data from the Civil Aviation Administration of China showed that in February, the number of passengers traveling by air fell 84.5% year-on-year to 8.34 million.
The stagnation of the Asian aviation industry has brought volatility to TC4.
Introduction to Ti6Al4V Powder TC4 Powder
TC4 titanium alloy material, also known as Ti-6Al-4V titanium alloy, belongs to the (α+β) type titanium alloy. It has good comprehensive mechanical properties, good stability of the structure, good toughness, plasticity, and high-temperature deformation performance. It can be better for hot pressure processing, quenching, and aging to strengthen the alloy. The strength after heat treatment is about 50%~100% higher than that after annealing. It has high strength at high temperatures and can work at 400℃~500℃ temperature for a long time.
TC4 also has good low-temperature performance. It still has good toughness below -196℃and, therefore, is used to manufacture low-temperature high-pressure vessels, such as liquid hydrogen fuel tanks for rockets and missiles.
Physicochemical Properties of Ti6Al4V Powder TC4 Powder
TC4 titanium alloy material is characterized by lightweight, excellent mechanical properties, corrosion resistance, and biocompatibility. In addition, it has low thermal conductivity and is non-magnetic.
Titanium-based metal, as a new type of metal, its properties depend on other elements like carbon, nitrogen, hydrogen, oxygen, etc. In general, it has:
1, high strength. Titanium typically has a density of 4.51 grams per cubic centimeter, only 60 percent of that of steel. The density of pure titanium is similar to that of ordinary steel, and the strength of some high-strength titanium alloys is higher than that of many alloy structural steel. Therefore, the specific strength (strength/density) of titanium alloy is much higher than that of other metallic structural materials.
2, high thermal strength. At medium temperature, titanium alloy can still maintain the required strength and can work at 450~500℃ for a long time.
3, good corrosion resistance. Titanium alloy works in a humid atmosphere and seawater medium, its corrosion resistance is far better than stainless steel pitting corrosion, acid corrosion, stress corrosion especially strong alkali, chloride, chlorine organic matter, nitric acid, sulfuric acid, and so on.
4, good low-temperature performance. Titanium alloys can still maintain mechanical properties at low and ultra-low temperatures. TA7 is a titanium alloy with good low-temperature performance and very low gap elements, which can maintain certain plasticity at -253℃. Therefore, titanium alloy is also an important low-temperature structural material.
5, high chemical activity. Titanium has high chemical activity and has a strong chemical reaction with oxygen, nitrogen, hydrogen, CO, CO2, water vapor, ammonia, and so on in the atmosphere. When the carbon content is greater than 0.2%, hard TiC is formed in titanium, and a hard TiN surface is formed at high temperatures. When the carbon content is above 600℃, titanium can absorb oxygen and form a hard hardening layer. At high temperatures, with the increase of hydrogen content, a hard hardening layer is formed. After inhalation, the depth of the hard brittle surface can reach 0.1~0.15mm, and the hard brittle surface can reach 20%~30%. Its chemical affinity is also strong, and easy to adhere to the friction surface.
6, small thermal conductivity elasticity. The thermal conductivity of the titanium system is about 1/4 of nickel, 1/5 of iron, 1/14 of aluminum, and the thermal conductivity of various titanium alloys is about 50%. The elastic modulus of titanium is about 1/2 that of steel, with poor stiffness and easy deformation. It is not suitable for slender rods and thin-walled parts.
|Ti6Al4V Powder TC4 Powder Properties
||Ti6Al4V Powder, TC4 Powder
|Solubility in H2O
3D Printing Ti6Al4V Powder TC4 Powder
Applications of Ti6Al4V Powder TC4 Powder
Ti6Al4V is used in many high-performance engineering applications, such as aerospace, automotive, and medical device manufacturing.
Aerospace: Components for jet engines
Manufacturing: Industrial turbines
Medical: implants, artificial bones
In the petrochemical industry: In most inorganic salts, TC4 titanium rods are completely inert and have excellent corrosion resistance. For example, in the production of electrolytic Mn02, the electrolyte is a neutral MnSO4 solution, which requires the electrode to be resistant to sulfate corrosion. The effect of a telegraph machine made of lead alloy and graphite is not good. After switching to titanium, the anode is not corroded and becomes a semi-permanent device.
TC4 titanium alloy rod has excellent corrosion resistance in almost all organic acids and organic media except formic acid and oxalic acid. In addition to methanol, titanium also resists corrosion by organic alcohols, aldehydes, and ketones.
For example, in the petrochemical industry, acetic acid is prepared from acetaldehyde. Because acetic acid, acetaldehyde, chloride, and catalyst corrode the stainless steel equipment seriously, titanium material is used to solve the corrosion problem of equipment in acetic acid production. Acetone, for example, can be made from propylene, or titanium production facilities can be used. Japan built a plant with an annual output of 30,000 tons of acetone and used nearly 40 tons of titanium.
Finally, TC4 titanium rods are resistant to wet H2S gas, wet SO4 gas, ammonia, and industrial atmospheres (titanium should be used with particular care in small hydrogen-containing media and pure oxygen).
For example, in the oil refining industry, equipment is often corroded by H2S, NH8, sulfide, chloride, and titanium equipment can solve the corrosion problem. Titanium is mainly used in distillation towers, condensers, air coolers, and other equipment in petroleum refining. Titanium is an ideal corrosion-resistant material in ammonia and urea production.
Main Supplier of Ti6Al4V Powder TC4 Powder
Luoyang Tongrun Nano Technology Co. Ltd. (TRUNNANO) is a trusted global chemical material supplier & manufacturer with over 12-year-experience in providing super high-quality chemicals and Nanomaterials, including silicon powder, nitride powder, graphite powder, zinc sulfide, calcium nitride, 3D printing powder, etc.
If you are looking for high-quality Ti6Al4V Powder TC4 Powder, please feel free to contact us and send an inquiry. ([email protected])
The World Food Program (WFP) of the United Nations (UN) and the European Union (EU) said in a statement that the conflict between Russia and Ukraine poses risks to global food supplies, and called on the international community to increase support for vulnerable countries and jointly address food security challenges.
A few days ago, the Executive director of the World Food Program, the European Commission's commissioner in charge of crisis management, the French Foreign Minister of the ROTATING EU presidency, and other officials held a meeting in Rome, Italy, to discuss how to deal with the negative impact of the Conflict between Russia and Ukraine on global food security.
One of the officials told a news conference after the meeting that the world was facing a food supply challenge that would "last for many years" as the conflict between Russia and Ukraine pushed up global food prices and disrupted the TC4 will continue.