Skip to main content

Zinc Sputtering Targets and Applications

Zinc is a chemical element with symbol Zn and atomic number 30. Zinc is the 24th most abundant element in Earth's crust and has five stable isotopes.
Zinc is a metal that is used in many applications in many different ways. By the advance in technology zinc sputtering targets are started to be used to make thin films and have outstanding properties. The most important area that zinc sputtering targets can be used is galvanization. As all we may know by the moisture in the air we face with the problem of corrosion. For the solution of this problem zinc help us. We can product automobiles, bridges and ships by coating them with zinc sputtering targets.
We can also make zinc alloys with other metals to have more intensity and hardness. By this way zinc becomes a suitable material to be used in automobile manufacturing and the mechanical industry, thanks to its superior superplasticity.
Since zinc has good electromagnetic field resistance properties, thin zinc films obtained by sputtering targets are very effective shielding material.
And as zinc is non-magnetic, it is suitable for making components and covers of instruments and meters.
To make explosion-proof equipments zinc sputtering targets can help you due to the properties of zinc which produces no sparks, either alone or in collision with other metals.
If you need zinc sputtering targets, you may contact with us by clicking the links given below:

Comments

Popular posts from this blog

Molybdenum Trioxide Nanoparticles/Nanopowder and Applications

General Information about Molybdenum Trioxide                                                     Molybdenum trioxide is chemical compound with the formula MoO3. Its chief application is as an oxidation catalyst and as a raw material for the production of molybdenum metal.  Molybdenum Trioxide  is a very light blue powder. Molybdenum Trioxide Nanoparticles/Nanopowder and Their Applications                                                    Like many  nanoparticles/nanopowder , Molybdenum Trioxide nanoparticles/nanopowder are used as catalysts. These catalysis reactions include hydrogenation catalysis and cracking catalysis. Molybdenum Trioxide nanoparticles/  nanopowder are useful for...

Rundown about Silicon Oxide Wafer

The main insulating material used in micro-technology is Silicon Dioxide, which in chemical symbols is written as SiO2. In semiconductor technology, SiO2 thin film layers are mainly used as dielectric material film in transistors, capacitors (DRAM) or flash-memories. Silicon Oxide Wafers are produced using crystallization, solid state and other ultra-high purification processes such as sublimation. This process forms a cylindrical ingot, which is then sliced and polished to form wafers. Thermal oxide is a kind of "grown" oxide layer, compared to CVD deposited oxide layer, it has a higher uniformity, and higher dielectric strength, it is an excellent dielectric layer as an insulator . In most silicon- based devices, thermal oxide layer play an important role to pacify the silicon surface to act as doping barriers and as surface dielectrics. The simplest way to produce an insulating silicon oxide layers (SiO2) on silicon wafers is to oxidize silicon with oxygen, which ...

New Way of Deaf-Mute Communication with 3D Graphene

Image retrieved from: http://blogs.rsc.org/cc/2016/09/01/3d-graphene-adds-dimension-to-deaf%E2%80%93mute-communication/ Chinese scientists have developed wearable electronic device with conductive 3D graphene structure to translate sign language into written text. This technology can be applied by injecting graphene ink from a syringe under printed electronic field. For medical field, such as adhesive patches which determine heart, brain signal and neural activity, wearable and bio-integrated medical devices are very important. Due to noticeable properties of cast graphene, for example a 2D honeycomb lattice, excellent mechanical and electrical behaviors, Graphene has an important material in warble technology. However, it is difficult to preserve advantages of Graphene material in a 3D material which has an information about forces from every angle. Yanlin Song  and co-workers at the University of the Chinese Academy of Sciences, Beijing, and Shenyang Jianzhu University...