Sputtering is a widely used process in various industries, from electronics to optics. High-temperature sputtering targets are essential for applications that require materials to perform under extreme conditions. Here are the top ten sputtering target materials known for their ability to withstand high temperatures, listed from highest to lowest melting point. 1. Tungsten Sputtering Target...Continue Reading
Introduction In the realm of advanced materials and cutting-edge technologies, cobalt sputter targets have emerged as key players, revolutionizing various industries. This article aims to delve into the intricacies of cobalt sputtering targets, exploring their applications, manufacturing process, and significance in the world of thin-film deposition. Understanding Cobalt Sputter Targets Cobalt sputter targets are vital...Continue Reading
The sputtering target materials commonly found on the market can be divided into planar targets and rotatory targets according to their shapes. Want to know what are their advantages and disadvantages? Keep on reading this post. Planar Sputtering Target Although rotary targets have developed in recent years, the mainstream shape of the sputtering target is still the planar type. Advantages...Continue Reading
1. What types of coating technology can be divided into? (1) Vacuum coating (2) Electroplating (3) Chemical reaction (4) Heat treatment (5) Physical or mechanical treatment 2. What are the applications of plasma technology in surface technology? Sputter deposition: Sputtering is the use of high-speed ions to strike a solid sputter target, causing surface molecules...Continue Reading
Electron Beam Evaporation – Definition Electron beam evaporation, or E-beam evaporation, is a type of physical vapor deposition (PVD) technique, which directly heats the evaporation material (usually pellets) by using an electron beam under vacuum, and transports the vaporized material to the substrate to form a film. Electron Beam Evaporation – Working Processes Electron beam evaporation...Continue Reading
Tantalum Overview The texture of the tantalum is very hard and the hardness can reach 6-6.5. Its melting point is as high as 2996 °C, only after carbon, tungsten, rhenium, and osmium. Tantalum is malleable and can be drawn into a thin foil. Its coefficient of thermal expansion is very small, and it only expands by 6.6 parts...Continue Reading
What is PVD Coating Technology? Physical Vapor Deposition (PVD) is a thin film preparation technique that physically vaporizes the surface of a material source (solid or liquid) into gaseous atoms, molecules, or partially ionized into ions under vacuum conditions. Then, a film having a specific function is deposited on the surface of the substrate by...Continue Reading
Metal titanium and titanium sputtering target are essentially the same, both of which are composed of titanium element; the difference is that metal titanium is more like a raw material, and titanium target is more like a titanium product. Titanium as a raw material can be made into titanium sputtering targets by several methods, and...Continue Reading
What is Sputtering Deposition? Sputtering deposition, or sputter coating, is one of the physical vapor deposition technology, whereby particles are ejected from a solid target material due to the bombardment of the target by energetic particles. It is an electronic process that deposits thin films of metals or other materials onto a variety of surfaces. Most often,...Continue Reading