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What is Titanium nitride (TiN)?
Titanium nitride
(TiN) is an extremely tough ceramic material. It is often used to coat titanium alloys, steels, carbide and aluminium components in order to improve their surface properties.
The thin coating of TiN, due to its golden color, is used as a protective and hardening layer for cutting and sliding surfaces. In addition, it can also be used as an exterior surface for medical implants that are non-toxic. In the majority of applications, less than five micrometers (0.000020 in) are applied.
Titanium Nitride Characteristics
Titanium Nitride, with a Vickers Hardness of 1800-2100 and a modulus elasticity (or elasticity) of 251 GPa has a thermal expansion coefficient (9.35×10-6 K-1), as well as a superconducting threshold temperature of 5.6 K.
Titanium Nitride is oxidized at 800 degC when in a normal environment. Titanium Nitride appears golden when coated and has a brownish color. Laboratory tests show that it is chemically inert at 20 degC. However, with increasing temperatures, concentrated acid solutions can slowly attack the material. Titanium Nitride has a coefficient friction of 0.4-0.9, depending on its surface finish and substrate. The typical TiN structure is NaCl type with a 1:1 stoichiometry. However, TiNx with x between 0.6 and 1.2 is thermodynamically stabile.
TiN superconducts at cryogenic temperature, with critical temperatures as high as 6.0 K in single crystals. Superconductivity in thin-film TiN has been studied extensively, with the superconducting properties strongly varying depending on sample preparation, up to complete suppression of superconductivity at a superconductor-insulator transition. After a thin layer of TiN had been chilled to almost absolute zero, it was transformed into the world’s first superinsulator. Its resistance increased by a factor 100,000.
Titanium nitride Applications
TiN coated drill bit
Gerber pocketknife coated with a dark gray TiCN
It is well known that TiN The coating improves the lifetime of machine tooling such as milling and drill bits by up to three times.
TiN is widely used for decorating automotive trim and costume jewelry because of the metallic gold colour. TiN can also be used on door and plumbing hardware as a decorative top-layer, often with nickel or chromium plated surfaces. As a protective coating, TiN is widely used in aerospace applications and for military purposes. It’s also used to protect the suspension forks on bicycles and motorbikes as well the shock shafts on radio-controlled cars. As it is so durable, TiN can also be used to coat the moving components of semi-automatic weapons and rifles. The coating is not only extremely durable but also very smooth. This makes it extremely easy to remove the carbon build-up. TiN, which is non-toxic and meets FDA guidelines has been used to coat medical devices, such as orthopedic bone saw blades and scalpel knives, when edge retention and sharpness were important. The TiN coatings were also used to coat implanted medical implants (such as hip replacement implants).
Although thin films are not as visible, they still have a similar effect. TiN In microelectronics they are used as a conductive barrier between the active device, and the metal contacts that operate the circuit. This serves to stop the diffusion of metal into the silicon. TiN is classified in this context as a “barrier metal” (electrical conductivity 25 uO*cm), despite the fact that it is a clear ceramic when viewed from a chemistry and mechanical perspective. Recently, chip design for 45 nm and beyond has also used TiN to improve transistor performance. In conjunction with gate dielectrics such as HfSiO has a greater permittivity than SiO2 and can therefore be used to reduce gate lengths with a low leakage rate, allowing for higher drive currents, while still maintaining optimum threshold voltage. TiN thin films may also be used to coat zirconium-alloys for accident resistant nuclear fuels.
TiN layers can be used for electrodes as well in bioelectronics applications, such as in intelligent implants and in-vivo sensors that must resist the corrosion caused by bodily fluids. TiN electrodes have already been applied in the subretinal prosthesis project as well as in biomedical microelectromechanical systems (BioMEMS).
(aka. Technology Co. Ltd., a global chemical material manufacturer and supplier with more than 12 year’s experience, is the trusted name in super-high-quality chemicals. The Titanium Nitride The products produced by our company are high in purity, have fine particles, and contain low levels of impurities. Contact us if you need to.
The thin coating of TiN, due to its golden color, is used as a protective and hardening layer for cutting and sliding surfaces. In addition, it can also be used as an exterior surface for medical implants that are non-toxic. In the majority of applications, less than five micrometers (0.000020 in) are applied.
Titanium Nitride Characteristics
Titanium Nitride, with a Vickers Hardness of 1800-2100 and a modulus elasticity (or elasticity) of 251 GPa has a thermal expansion coefficient (9.35×10-6 K-1), as well as a superconducting threshold temperature of 5.6 K.
Titanium Nitride is oxidized at 800 degC when in a normal environment. Titanium Nitride appears golden when coated and has a brownish color. Laboratory tests show that it is chemically inert at 20 degC. However, with increasing temperatures, concentrated acid solutions can slowly attack the material. Titanium Nitride has a coefficient friction of 0.4-0.9, depending on its surface finish and substrate. The typical TiN structure is NaCl type with a 1:1 stoichiometry. However, TiNx with x between 0.6 and 1.2 is thermodynamically stabile.
TiN superconducts at cryogenic temperature, with critical temperatures as high as 6.0 K in single crystals. Superconductivity in thin-film TiN has been studied extensively, with the superconducting properties strongly varying depending on sample preparation, up to complete suppression of superconductivity at a superconductor-insulator transition. After a thin layer of TiN had been chilled to almost absolute zero, it was transformed into the world’s first superinsulator. Its resistance increased by a factor 100,000.
Titanium nitride Applications
TiN coated drill bit
Gerber pocketknife coated with a dark gray TiCN
It is well known that TiN The coating improves the lifetime of machine tooling such as milling and drill bits by up to three times.
TiN is widely used for decorating automotive trim and costume jewelry because of the metallic gold colour. TiN can also be used on door and plumbing hardware as a decorative top-layer, often with nickel or chromium plated surfaces. As a protective coating, TiN is widely used in aerospace applications and for military purposes. It’s also used to protect the suspension forks on bicycles and motorbikes as well the shock shafts on radio-controlled cars. As it is so durable, TiN can also be used to coat the moving components of semi-automatic weapons and rifles. The coating is not only extremely durable but also very smooth. This makes it extremely easy to remove the carbon build-up. TiN, which is non-toxic and meets FDA guidelines has been used to coat medical devices, such as orthopedic bone saw blades and scalpel knives, when edge retention and sharpness were important. The TiN coatings were also used to coat implanted medical implants (such as hip replacement implants).
Although thin films are not as visible, they still have a similar effect. TiN In microelectronics they are used as a conductive barrier between the active device, and the metal contacts that operate the circuit. This serves to stop the diffusion of metal into the silicon. TiN is classified in this context as a “barrier metal” (electrical conductivity 25 uO*cm), despite the fact that it is a clear ceramic when viewed from a chemistry and mechanical perspective. Recently, chip design for 45 nm and beyond has also used TiN to improve transistor performance. In conjunction with gate dielectrics such as HfSiO has a greater permittivity than SiO2 and can therefore be used to reduce gate lengths with a low leakage rate, allowing for higher drive currents, while still maintaining optimum threshold voltage. TiN thin films may also be used to coat zirconium-alloys for accident resistant nuclear fuels.
TiN layers can be used for electrodes as well in bioelectronics applications, such as in intelligent implants and in-vivo sensors that must resist the corrosion caused by bodily fluids. TiN electrodes have already been applied in the subretinal prosthesis project as well as in biomedical microelectromechanical systems (BioMEMS).
(aka. Technology Co. Ltd., a global chemical material manufacturer and supplier with more than 12 year’s experience, is the trusted name in super-high-quality chemicals. The Titanium Nitride The products produced by our company are high in purity, have fine particles, and contain low levels of impurities. Contact us if you need to.