The Titanium Target Block is a specialized Titanium Material mainly used in Physical Vapor Deposition (PVD) and Magnetron Sputtering techniques, where PVD is widely used in the production of advanced coatings, while Magnetron Sputtering is commonly used in the manufacturing of semiconductor chips and electronic components. PVD is widely used in the production of advanced coatings, while magnetron sputtering is common in the manufacture of semiconductor chips and electronic components. Titanium targets are finely manufactured from pure titanium or titanium alloys. Its unique benefits include extremely high hardness and density, as well as excellent corrosion resistance, which makes it stable in a variety of environments. In addition, titanium targets have good thermal conductivity and high purity, providing excellent performance for sputtering thin film technology. It is a frequently processed product in our Titanium Forgings. Titanium targets are high-purity titanium or Titanium Alloy slabs made by a vacuum melting-mold casting process. Its most notable properties are high purity and excellent densification. The density of high quality titanium target can reach more than 99.5%, and the impurity elements are very low, such as Fe, Si, O, N, H and other elements are less than 100 ppm, which makes titanium target in the physical properties and chemical properties are far more than the ordinary industrial pure titanium. In addition, titanium targets have excellent homogeneity. During the preparation process, multiple melting and quenching treatments are used to effectively improve the organization uniformity of the titanium target. The surface of the target is smooth and clean, the internal organization is dense and the grain size is small, which ensures the uniformity of the deposited layer. Titanium target also has excellent thermal conductivity and small thermal stress, so that it is not easy to produce cracks, can withstand high-power sputtering or arc evaporation process. In addition, the high mechanical strength of titanium targets can effectively improve service life and reduce target loss, thus improving their overall performance and value in use.
Common uses of titanium targets
Magnetron sputtering.
Preparation of optical coatings, such as anti-reflective films for eyeglass lenses, and transmittance enhancement films for lenses.
Preparation of titanium-based magnetic recording, used in computer hard disk and other data storage. Preparation of titanium-based conductive films for electrodes in LCD displays.
Laser sputtering.
Preparation of surface hardening layers for mechanical parts to improve wear resistance.
Preparation of surface coatings for biomedical titanium alloys to improve biocompatibility.
Arc evaporation: Preparation of transparent front electrodes for solar cells.
Preparation of transparent conductive films for front electrodes of solar cells.
Preparation of titanium-based reinforcing layers for composite materials.
E-beam evaporation: Preparation of transparent conductive film for front electrode of solar cell.
Preparation of back electrodes for rutile solar cells.
Preparation of anti-reflective and passivation films for photovoltaic devices.
Preparation of coatings for automobile shock absorbers.
Ion Coating: Preparation of dental and orthopedic coatings.
Preparation of bioactive coatings for dental and orthopedic titanium implants to improve bone-implant bonding.
Preparation of wear and corrosion resistant coatings for automobile engine pistons.
Preparation of surface hardened coatings for metal cutting tools to improve cutting performance.
Chemical coating.
Preparation of conductive interconnection layers for electronic circuit boards.
Preparation of light-reflective coatings for automotive decorative parts.
Preparation of high reflectivity coatings for optical components.
Atomic Layer Deposition (ALD).
Preparation of diffusion barrier layers for new types of memories such as copper interconnects.
Preparation of optical filters for image sensors.
Preparation of surface layers for solar cells.
3D printing.
Preparation of customized titanium implants and stents for medical applications.
Preparation of lightweight structural components for aerospace applications.
Preparation of functional metal parts for complex shapes.
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