Introduction of Ti6Al4V/TC4 powder
Material for the TC4 Titanium Alloy
Also known:
T-6Al-4V
It’s a member the type (a+b), of titanium alloy. It is very strong in mechanical properties. This alloy is extremely stable and tough. Hot pressure, quenching and aging can all improve the alloy’s quality. The alloy is up to 50% stronger when it has been heat treated than after annealing. It is highly resistant to heat and can work at temperatures of up to 400500° for extended periods.
TC4 exhibits excellent performance at low temperatures. It remains strong below -196, so it is suitable for making low-temperature vessels of high pressure, such as liquid hydrogen fuel tank that can be used in missiles and rockets.
The Physical Characteristics Of Ti6Al4V Powder TC4
Material for the TC4 Titanium Alloy
The material has light mechanical and corrosion resistance, as well as good mechanical properties. Biocompatibility is another feature. It is also low in thermal conductivity.
Titanium-based metal
It’s a completely new metal type and will have different properties depending on the elements nitrogen, carbon or hydrogen. It typically has:
1,
High strength
. It has a density of 4.51g/cm2, or less than half that of steel. Pure titanium is similar in density to steel but can have twice as much strength than steel. This is because titanium alloy has a higher specific strength than any other metal structural materials.
2,
Thermo-physical strength is high
. Titanium alloy can be used up to 450500 at medium temperatures and will not lose its strength.
3,
High resistance to corrosion
. It is suitable for use in both humid and seawater conditions. It has an even better resistance to corrosion than stainless-steel.
4,
good low-temperature performance
. Titanium alloys are capable of maintaining their mechanical properties at extremely low temperatures and even below. It has high performance at low temperatures and very few gaps. The alloy can maintain some plasticity down to -253. The titanium alloy can also be used as a low-temperature structural material.
5,
High chemical activity
. Titanium can be chemically reactive and reacts with hydrogen, oxygen, and nitrogen as well as ammonia and water vapor. Titanium with a carbon content greater than 0.2% will form hard TiC. High temperatures can cause hard TiN to form. Titanium with more carbon than 600 is capable of absorbing oxygen, forming a hardening layer. The formation of a hardening coating can be caused by high temperatures. It is caused by an increase in hydrogen. Surface hardness can be as high as 0.1 to 0.15mm by inhalation. A surface hardness of 20%-30% can be achieved. It is possible to adhere to the friction surface with ease due its strong chemical affinity.
6,
Low thermal conductivity
. It’s comparable to 1/4% nickel and 1/2% iron. At half the rate, various titanium alloys have similar thermal conductivity. It has a much lower elastic modulus than steel, and about half the strength. You can also deform it easily as titanium is extremely stiff. It cannot be used with thin-walled parts or slim rods.
| Properties Ti6Al4V, TC4 Powder | |
| Additional Names | Ti6Al4V, TC4 powder |
| CAS No. | N/A |
| Formula compound |
TA0,TA1,TC4,TC4 ELI,TC11,TC17,TC18,TC21,TA7,TA12,TA15,TA17,TA19, Ti40,Ti60,TiAl(Ti36Al,Ti48Al2Cr2Nb) |
| Molecular Weight | N/A |
| Appearance | grey powder |
| Melting Point | N/A |
| Boiling Point | N/A |
| Density | N/A |
| Solubility of water | N/A |
| The exact Mass | N/A |
Applications for TC4 powder and Ti6Al4V powder
High performance applications such as aerospace engineering and automotive engineering as well as manufacturing medical devices use Ti6Al4V.
Aerospace: Components for jet engines
Fabrication: Industrial turbines
Car: muffler
Medical: implants, artificial bones
Petroleum Industry: The rods with TC4 titan are inert and very resistant to corrosion. An electrolyte of electrolytic Mn02, a neutral solution containing MnSO4, is used. It is important that the electrode does not succumb to corrosion. This is a problem for any telegraph machine made from graphite, or lead alloy. If the anode is switched to titanium, it won’t corrode anymore so you can use it as a semi-permanent device.
Rods from TC4 Titanium Alloy are highly resistant to corrosion in all organic acids, media and other organic compounds except formic or oxalic acids. Not only does titanium resist corrosion from organic alcohols, ketones and aldehydes, but it is also resistant to methanol.
For example, in the petrochemicals sector, acetic acids can be made from acetaldehyde. Chloride and acetic acid can cause serious corrosion in stainless steel. Titanium material is an option to address this issue. Propylene can either be used to make acetone or titanium can be used as a manufacturing process. Japan produced Acetone in a plant capable of producing 30,000 tonnes annually. The plant also utilized 40 tons of Titanium.
Wet H2S or wet SO4 gases can be withstand by TC4 Titanium Rods. Also, ammonia can be withstand. You should not use titanium in mediums with high levels of hydrogen, such as pure oxygen and small amounts.
For example, in oil refining, equipment can often be damaged by H2S or NH8, aswell as sulfide and chloride. Titanium equipment is able to fix the problem. Titanium equipment is used mainly in the petroleum refinery industry. This includes air coolers and condensers. This material is very resistant to corrosion when producing ammonia/urea.
Major supplier of Ti6Al4V Powder and TC4 powder
Nano Technology Co. Ltd., a global supplier of quality chemicals, can be trusted to deliver Nanomaterials.
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Ti6Al4V, TC4 Powder
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