Thin Film Substrate
List of Sputtering Targets for Low Radiation Building Glass
Abstract: There are many sputtering targets that can be used for architectural glass coating, such as Ag, Ni / Cr, Sn (SnO2 film), Ti / TiO2 (TiO2 film), Zn (ZnO film), Si / SiAl (SiN film), ZnAl, ZnSn, ZnSnSb, Cr, Nb, Nb2O5 and other sputtering targets, as follows:
List of Sputtering Targets for Thermally Reflective Automobile Glass
Abstract: The heat reflection coated glass can effectively reflect the infrared light of the sun (20-25%), block the heat from entering the vehicle (heat insulation performance > 30%), reduce the air conditioning load, maintain good light transmittance (70-75%), and maintain a clear vision. Therefore, the demand of sputtering target materials for thermal reflective coated glass is becoming increasingly strong.
List of Sputtering Targets for Tool Coating
Abstract: Tool coating is often used for turning tools, manipulators, molds and other mechanical and metallurgical purposes. Coating products include drill, milling cutter, gear cutter, tap, scissors, cutter, plug, die, etc. The thickness of the film is generally 2-10 μ M. the film requires high hardness, low wear, impact resistance, high adhesion, etc. its technical level is higher than that of decorative coating. The superhard protective layer of tools and dies, including tin, ZrN, TiAlN, tic, TiCN, CrN, DLC and other Sputtering Coatings.
Influence of Target Binding and Liner Pipe Quality on Large Area Coating
Abstract: Target shape, purity, density, porosity, grain size and binding quality all have a great influence on film quality and sputtering rate. Today, I want to talk about the influence of target binding and liner tube quality on large area coating.
Influence of Sputtering Target Purity and Uniformity on Large Area Coating
Abstract: The shape, purity, density, porosity, grain size and binding quality of the target have great influence on the coating quality and sputtering rate. High quality target material can not only ensure the good film quality, but also extend the life cycle of Low-E products. More importantly, it can reduce production costs and improve production efficiency. Today, I will discuss with you the influence of target purity and material uniformity on large area coating.
Effect of Crystal Size and Direction of Sputtering Target on Large Area Coating
Abstract: Target shape, purity, density, porosity, grain size and binding quality all have a great influence on the quality and sputtering rate of large area coating. Today, I will discuss the influence of the crystal size and crystal direction of sputtering target on large area coating.
Effect of Relative Density and Gap of Sputtering Target on Large Area Coating
Abstract: As a large raw material for coating, the characteristics of sputtering target, including target shape, purity, density, porosity, grain size and binding quality, have a great influence on film quality and sputtering rate. Today, I will discuss the influence of the relative density and gap of sputtering target on large area coating.
Comparison of Utilization Ratio Between Planar and Rotating Sputtering Target
Abstract: The shape of sputtering target directly affects the stability and film characteristics of magnetron sputtering coating, as well as the utilization rate of the target. Therefore, the quality and production efficiency of the coating can be improved by changing the shape design of the target, so as to save costs.
Advantages and Disadvantages of Magnetron Sputtering Technology
Abstract: Since the appearance of magnetron sputtering, it has obtained rapid development and wide application, which has greatly impacted the position of other coating methods. So what are the advantages and disadvantages of magnetron sputtering technology?
Comparison of the Melt Casting and Spray Rotating Sputtering targets
Abstract: The target material is an important raw material for vacuum coating. The purity and density of the target material directly affect the composition and comprehensive performance of the film system. With the rapid development of sputtering coating technology, new target preparation technology is emerging, and the target quality and performance have been improved significantly. Because of the high utilization rate, the rotating target has been widely used in the coating industry. AEM deposition can provide various kinds of rotating sputtering targets, as shown in the table below:
List of Sputtering Targets for Solar Cell Coating
Abstract: Solar energy is mainly used to convert solar energy into heat and electricity. Among them, the photoelectric conversion is realized by the solar cell which directly converts the light energy into electric energy through the photoelectric effect. At present, the solar cell has developed to the third generation. The first generation is monocrystalline silicon solar cells, the second generation is amorphous silicon and polycrystalline silicon solar cells, and the third generation is thin-film solar cells (represented by CIGS).
List of Sputtering Targets for Semiconductor Coating
Abstract: Sputtering target material for semiconductor has a high requirement for the purity of the target material, which is generally more than 4N or 5N, so the target material for semiconductor coating is also very expensive. The sputtering targets for semiconductor coating mainly include W sputtering target, W-Ti sputtering target, Ti sputtering target, Ta sputtering target, Al sputtering target, Cu sputtering target, etc. The details are as follows: