Firstly, in the field of magnetic materials, high-purity gadolinium (Gd) is an ideal magnetic material, and its surface coated with a high-purity gadolinium layer can significantly improve magnetic properties, stability, and reliability, meeting the needs of various fields. This improvement makes gadolinium coating more advantageous in magnetic material applications.
Secondly, in the field of optical glass, gadolinium coating is also of great significance. By using magnetron sputtering coating technology, high-purity gadolinium can be uniformly deposited on the surface of glass, which can improve the anti reflection, wear resistance, corrosion resistance and other functions of optical glass. This characteristic makes gadolinium coating play an important role in optical glass manufacturing, helping to improve the performance and service life of optical components.
In addition, gadolinium coating has potential applications in other fields. For example, gadolinium sputtering targets and gadolinium evaporation materials are widely used in deposition processes such as semiconductor deposition, chemical vapor deposition (CVD), and physical vapor deposition (PVD). These materials can provide the necessary gadolinium elements for the deposition process, thereby preparing thin film materials with specific properties.
Meanwhile, gadolinium also plays an important role in antioxidant processes. The alloy formed by adding gadolinium to other elements has better resistance to higher temperatures and oxidation processes. This characteristic enables alloys containing gadolinium to have a longer service life in high temperature and oxidation environments.
In addition, gadolinium is also used for microwave applications, such as manufacturing gadolinium yttrium garnet (Gd: Y3Al5O12) materials. This material has good performance in microwave equipment and can be used to manufacture many optical components.
CAS:7440-54-2
Purity:3N
Spec.:Customer-made
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