PVD (Physical Vapor Deposition) and CVD (Chemical Vapor Deposition) are two major thin-film coating technologies. PVD vaporizes materials through physical means (e.g., heating or sputtering), resulting in strong adhesion but slower deposition rates. CVD forms coatings via chemical reactions, off Read More

Vacuum coating technology did not take long to start and it was only in the 1960s that CVD (Chemical Vapour Deposition) technology was applied to cemented carbide tools internationally. As the technology needs to be carried out at high temperatures, the coating type is single and the limitations are great, therefore, its development is not poor at the beginning. PVD coating technology, on the other hand, has two characteristics: low temperature and high energy, and can be applied to almost any substrate, so it is not surprising that the range of applications is very wide. The development of vacuum coating technology has also seen the emergence of new technologies such as PCVD (physical chemical vapour deposition) and MT-CVD (medium temperature chemical vapour deposition), and a variety of coating equipment and coating processes have emerged, and there is now a pleasing scene of a hundred flowers blossoming in this field. Read More

There are four factors affecting the quality of cleaning, respectively: cleaning time, chemicals, mechanical action and cleaning fluid temperature, the four factors also affect each other, a weakening of factors, can be enhanced through the role of the other three factors to compensate, and vice versa. In these four factors, the cleaning time of the smaller is also the pursuit of the goal, so as to improve the efficiency of cleaning. Shorten the production time and delivery cycle. Read More

The tool is one of the most active elements of the cutting system. With the development of technology, the feed and cutting speeds of coated tools have been increased, while their service life has also been extended. Therefore, in today's rapidly developing machining technology, the performance of tools has gained importance, with coating technology being a key technology in tool manufacture. Read More

PVD coating technology, suitable for injection moulding, hardware, die-casting moulds, parts and cutting tools, has anti-wear and high temperature resistance characteristics, the service life can be increased by 2-10 times, can significantly improve production efficiency and reduce production costs. At present, there are still many mould companies who lack understanding of this technology. Read More

The homogeneity of the thickness of the coated film on a magnetron sputtering vacuum coating machine is a very important indicator of the film-forming properties, so it is very necessary to study the homogeneity of the coated film on a magnetron sputtering vacuum coating machine. Here enijor gives you more details. Read More

PVD is a surface treatment process in which metallic or non-metallic materials such as titanium, graphite, gold, crystals and gases are formed on a substrate by sputtering, evaporation or ion plating. PVD has many advantages over traditional chemical plating methods: for example, it is a green and environmentally friendly process; it is not harmful to the operator; and the film is strong, dense, corrosion resistant and of uniform thickness. Read More

With the development of economy and the improvement of living standard, people like to decorate watch cases, watch straps, clothing, lighting, glasses frames, indoor and outdoor decorative parts, hardware luggage, mobile phone cases, mobile phone video screens sanitary ware, food packaging and other decorative items finely decorated with colorful. Here, Yingliyue introduces you to the main applications of pvd vacuum coating technology! Read More

The application of PVD coating technology is divided into two main categories: decorative coating and tool coating. The purpose of decorative coating is to improve the appearance and colour of the workpiece, and to make the workpiece more wear-resistant and corrosion-resistant to extend its service life. The purpose of tool plating is to improve the surface hardness and wear resistance of the workpiece, reduce the friction coefficient of the surface and improve the service life of the workpiece; this is mainly used in various knives and scissors, turning tools (such as turning tools, planing tools, milling tools, drills, etc.), various hardware tools (such as screwdrivers, pliers, etc.), various moulds and other products. Read More

Physical Vapor Deposition (PVD) technology refers to the use of physical methods under vacuum conditions to vaporise the surface of a material source (solid or liquid) into gaseous atoms or molecules, or partially ionised into ions, and to deposit a thin film with a particular function on the surface of a substrate through a low pressure gas (or plasma) process, Physical Vapor Deposition is One of the main surface treatment techniques. PVD (Physical Vapour Deposition) coating technology is divided into three main categories: vacuum evaporation coating, vacuum sputtering coating and vacuum ion coating. The main methods of physical vapour deposition are: vacuum evaporation coating, sputtering coating, arc plasma coating, ion coating and molecular beam epitaxy. The corresponding vacuum coating equipment includes vacuum evaporation coaters, vacuum sputtering coaters and vacuum ion coaters. Read More

PVD (Physical Vapor Deposition) technology is one of the main techniques used to prepare thin film materials, and the substances used to prepare them are known as PVD coated materials. Sputtering and vacuum evaporation coating are the two most dominant PVD coating methods. Read More

Physical Vapour Deposition (PVD) is a technique that uses physical methods under vacuum to vaporise the surface of a material source (solid or liquid) into gaseous atoms or molecules, or partially ionise them into ions, and deposit a thin film with a specific function on the surface. This article will also introduce the basic principles and characteristics of pvd. Read More

PVD coating for medical surgical scissors. Read More

Enijor has cooperated with famous mobile phone manufacturers to coat mobile phone camera brackets, and through careful research and continuous testing, Enijor has met the performance needs of customers. Read More