The term “calcium oxide coating” describes a layer of calcium oxide that is applied to a surface for a number of reasons, including corrosion resistance, thermal barrier, or catalyst support.
Calcium oxide, sometimes referred to as quicklime, is a caustic chemical that is created by burning limestone or seashells to high temperatures. It is white, alkaline, and corrosive.
When calcium oxide is exposed to air, it quickly combines with moisture to create calcium hydroxide, which can then combine with atmospheric carbon dioxide to create calcium carbonate.
Numerous techniques, including thermal spray, the sol-gel method, and chemical vapor deposition, can be used to apply calcium oxide coating. Depending on the process and application, the coating’s thickness might range from a few micrometers to several millimeters.
Numerous advantages of calcium oxide coating include greater chemical stability, improved mechanical qualities, increased catalytic activity, and increased tolerance to high temperatures.
It is frequently employed in the chemical, aerospace, and car sectors. However, it should be emphasized that handling calcium oxide requires appropriate safety precautions due to its strong reactivity and caustic nature.
Global calcium oxide coating market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
Zypcoat CZO is based on Calcium Zirconate, also known as Calcium-Zirconium-Oxide, CaZrO3, which has a melting point of 2325 C and is a less well-known mixed oxide.
On heating above 500 C, Zypcoat CZO transforms into 100% CaZrO3. It bonds well to all substrates, including ceramic, graphite, and metal, and is used in air atmospheres as well as inert/vacuum to temperatures as high as 2000 C.
Zypcoat CZO is appropriate for R&D research at harsh temperatures and circumstances because of its high melting point and anticipated great stability with most materials.
a special mixture of CaO and ZrO2.Use-temperature and melting point at very high temperatures.Low thermal and electrical conductivity is anticipated.
Adaptable to all environments easy to use and clean up, water-based.Typical Uses.Research and development in High-Temperature Ceramics (HTC) testing in harsh conditions.Processing reactive-molten metal covering that acts as a barrier to interactions.
© Copyright 2017-2023. Mobility Foresights. All Rights Reserved.