Introduction to Ti6Al4V TC4 powder
Material for the TC4 Titanium Alloy
Ti-6Al-4V – titanium alloy
It is a member of the type (a+b), titanium alloy. It exhibits excellent mechanical properties. The structure is stable and has high toughness. You can improve the quality of this alloy by using hot pressure, quenching, or aging. It is 50% to 100% stronger after heat treatment than after annealing. This material has a high temperature resistance and is capable of working at temperatures up to 400500 degrees for an extended time.
TC4 has excellent low-temperature performance. It is still strong below -196 so it can be used to make low-temperature high pressure vessels like liquid hydrogen fuel tanks that are used in rockets and missiles.
The Physicochemical Characteristics of Ti6Al4V TC4 Powder
Material for the TC4 Titanium Alloy
This material is light, has good mechanical properties and corrosion resistance. It also exhibits biocompatibility. Additionally, the material is low in thermal conductivity and non-magnetic.
It is a brand new kind of metal and its properties will depend on elements like nitrogen, carbon, hydrogen, oxygen, etc. It generally has:
. Titanium has an average density of 4.51g/cm2, which is less than half of what steel. While pure titanium’s density is comparable to steel’s, the strength of certain high-strength alloys of titanium alloys can be up to twice that of steel. This means that titanium alloy’s specific strength is greater than any other metal structural material.
Thermal strength high
. The titanium alloy will retain its strength at medium temperature and it can be used for extended periods of time at temperatures up to 450500.
Excellent resistance to corrosion
. It can be used in humid conditions and with seawater. Titanium alloy has a much better corrosion resistance than stainless steel.
good low-temperature performance
. Low and ultra-low temperatures can maintain the mechanical properties of titanium alloys. TA7 titanium alloy has a high low temperature performance and low gap elements. It can also maintain some plasticity below -253. Also, titanium alloy makes a great low-temperature structural metal.
Chemical activity high
. Titanium is highly chemically active and can react with nitrogen, oxygen and hydrogen as well as water vapor and ammonia. If the carbon content in titanium is higher than 0.2%, hard TiC forms. At high temperatures, a hard TiN is formed. If the carbon content of titanium is greater than 600, it can absorb oxygen to form 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 and brittle to 0.1 -0.15mm. The surface hardness can also reach 20% 30%. Chemical affinity for the surface of friction is strong and it can be adhered to easily.
Thermal conductivity small elasticity
. It is comparable to 1/4 of nickel and 1/5 iron. The thermal conductivity is also similar for various titanium alloys at about half the rate. Titanium has an elastic modulus about half that of steel. It is also very stiff and easily deformable. It’s not suitable to be used in thin-walled components and slender rods.
|Properties Ti6Al4V Powder, TC4 Powder|
|Additional Names||Ti6Al4V, TC4 Powder|
|Solubility in water||N/A|
|Get the exact Mass||N/A|
Applications for Ti6Al4V Powder and TC4 powder
High-performance applications like aerospace and automotive engineering, as well as medical device manufacturing, use Ti6Al4V.
Aerospace: Components for jet engines
Fabrication: Industrial turbines
Medical: implants, artificial bones
For the Petrochemical Industry: The rods of TC4 titanium are totally inert, and they have excellent corrosion resistance. The electrolyte for electrolytic Mn02 is a neutral solution of MnSO4. This requires the electrode not to succumb to corrosion. Telegraph machines made out of graphite or lead alloy have a bad effect. When the anode switches to titanium, it isn’t corroded anymore and can be used as a semi permanent device.
The rods of TC4 Titanium alloy are extremely corrosion-resistant in all organic acids, organic media and except formic and oxalic acids. Additionally to titanium resisting corrosion from methanol and organic alcohols, ketones, and aldehydes it also resists corrosion.
In the petrochemical sector, for example, acetic acids are made from acetaldehyde. The corrosion of stainless steel equipment is seriously caused by acetic, acetaldehyde and chloride. To address this problem, titanium material can be used. For example, acetone can be produced from propylene or can be manufactured using titanium-producing facilities. Japan had a plant that could produce 30,000 tons per annum of Acetone, and it used 40 tons of Titanium.
TC4 Titanium rods can withstand wet H2S and wet SO4 gas. Ammonia is also resistant. Titanium should only be used in low-hydrogen media, pure oxygen, or small quantities of hydrogen.
In the oil refining sector, for example, equipment often gets corroded by H2S and NH8, as well as sulfide or chloride. However, titanium equipment can fix this problem. The majority of Titanium equipment is used in the petroleum refining industry, including condensers and air coolers as well. It is a great material to resist corrosion in the production of ammonia/urea.
Major Supplier of Ti6Al4V Powder, TC4 powder
Nano Technology Co. Ltd., an international supplier of high quality chemicals, is trusted to provide Nanomaterials and super-high-quality chemicals.
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Ti6Al4V Powder, TC4 Powder
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