Introduction to Ti6Al4V TC4 Powder
Material for the TC4 titanium alloy
Also known as
Ti-6Al-4V – titanium alloy
It is a member of the (a+b), type titanium alloy. It is characterized by good mechanical properties, high stability, good toughness and plasticity, as well as high-temperature deformation performance. Hot pressure processing, quenching and ageing can make it more robust. The heat treatment yields a strength about 50-100% greater than the annealed. It is strong at high temperatures and can operate at 400500 degrees for long periods.
TC4 has excellent low-temperature performance. It is still strong below -196 so it can be used to make low-temperature highpressure vessels like liquid hydrogen fuel tanks for missiles and rockets.
Ti6Al4V Powder Powder TC4 powder
Material for the TC4 titanium alloy
It has lightweight, excellent mechanical and corrosion resistance properties as well as biocompatibility. It has low thermal conductivity, and is not magnetic.
It is a new type or metal whose properties are affected by other elements, such as carbon, nitrogen, hydrogen and oxygen. It generally has:
. Titanium has a density of 4.51g per cubic centimeter. This is less than half the steel’s. Pure titanium’s density is comparable to ordinary steel. Some high-strength, titanium alloys have higher strength than alloy structural steel. This means that titanium alloy’s specific strength (strength/density), is significantly higher than those of other metallic structural metals.
High thermal strength
. The titanium alloy can maintain its required strength at medium temperatures and can operate at 450500 for a prolonged time.
Excellent resistance to corrosion
. Titanium alloy can be used in humid conditions and seawater. Its corrosion resistance is superior to stainless steel pitting corrosion, acid corrosion, stress corrosion, especially strong alkali and chloride, as well as nitric acid and sulfuric acid.
good low-temperature performance
. Titanium alloys are capable of maintaining their mechanical properties at ultra-low and low temperatures. TA7 is a high-performance titanium alloy that can withstand low temperatures and has very few gap elements. It can also maintain some plasticity below -253. Also, titanium alloy can be used as a low-temperature structural material.
Chemical activity high
. Titanium exhibits high chemical activity. It can be used to react with oxygen and nitrogen as well as hydrogen, CO, CO2, CO2, water vapour, ammonia and other elements in the atmosphere. If the carbon content in titanium is higher than 0.2%, hard TiC forms in titanium. At high temperatures, a hard TiN is formed. Titanium can absorb oxygen if the carbon content exceeds 600. This is what creates a hardening layer. High temperatures can cause a hardening layer to form. This is due to an increase in hydrogen. Inhalation can make the surface hard brittle to a depth of 0.1-0.15mm. The hard brittle can also reach 20%-30%. It has a strong chemical affinity and is easily adhered to the friction surfaces.
Thermal conductivity small elasticity
. The thermal conductivity in titanium is 1/4 of nickel, 1/5th of iron, and 1/14th of aluminum. Different titanium alloys have a different thermal conductivity at around 50%. The elastic modulus is half of that of steel. However, titanium has low stiffness and easy to deform. It is not suitable to be used in thin-walled or slender parts.
|Ti6Al4V Powder Properties|
|Other Names||Ti6Al4V powder, TC4 powder|
|Solubility of H2O||N/A|
Application of Ti6Al4V Powder and TC4 Powder
Ti6Al4V has many uses in high-performance engineering, including aerospace, automotive, medical device manufacturing, and other areas.
Aerospace: Components for jet engines
Manufacturing: Industrial turbines
Medical: implants, artificial bones
The petrochemical industry: TC4 Titanium rods are inert and extremely resistant to corrosion. The electrolyte for electrolytic Mn02 is a neutral MnSO4 solution. Therefore, the electrode must be resistant to sulfuric corrosion. Telegraph machines made of graphite and lead alloy have a bad effect. The anode becomes semi-permanent after switching to titanium.
The rods of TC4 titanium alloy are resistant to almost all organic acids, organic media and except formic and oxalic acids. Additionally to methanol resistance, titanium is also resistant to corrosion by organic aldehydes and ketones.
Acetaldehyde, for example, is the main ingredient in acetic acids. The corrosion problems of stainless steel equipment are caused by acetic, acetaldehyde and chloride. Titanium material is used to fix this problem in acetic Acid production. For example, acetone can be made from propylene or can be produced using titanium production facilities. Japan built a plant capable of producing 30,000 tons per year of acetone. It also used 40 tons of Titanium.
TC4 Titanium rods are also resistant to wet H2S and wet SO4 gas.
In the oil refining business, equipment is frequently corroded by H2S or NH8. Sulfide, chloride, or sulfide can also cause corrosion. However, titanium equipment can resolve this problem. Titanium is used mainly in distillation towers and condensers. Titanium is ideal for ammonia and/or urea production because it resists corrosion.
Main supplier of Ti6Al4V Powder, TC4 powder
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Ti6Al4V Powder, TC4 Powder
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