It is a cermet thermal spray material with excellent corrosion resistance and wear resistance in high-temperature environments.
This is a CrC/25wt%NiCr thermal spray material produced by the granulation and sintering method. By strictly controlling particle size and granule strength, we achieve spitting prevention and excellent adhesion efficiency, while obtaining a thermal spray coating with outstanding corrosion and wear resistance at high temperatures. Compared to commonly used high-temperature wear-resistant materials and coatings such as "Ni-based self-bonding alloys" and "CrC (NiCr plating)," the thermal spray coating using CNC25 has high hardness, wear resistance, and thermal shock resistance. [Application Examples] Leveraging its high resistance to high-temperature corrosion and thermal shock, it is used in a wide range of fields including power generation, steelmaking, machinery, and chemicals. Application examples: - Gas turbines - Nuclear components - Diesel engine parts - In-furnace rolls - Boiler electric heating tubes - Coater blades - Boiler tubes, etc. [Message] At Fujimi, we manufacture and sell many other cermet materials in addition to CNC25, and we can also prototype powders with adjusted WC particle sizes and compositions according to customer requests. If you have any questions or requests regarding cermet materials, please feel free to contact us. *For product details, please refer to the catalog.
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【Examples of Use】 Utilizing high resistance to high-temperature corrosion and thermal shock, it is used in a wide range of fields such as power generation, steelmaking, machinery, and chemicals. Application examples: - Gas turbines - Nuclear components - Diesel engine parts - In-furnace rolls - Boiler electric heating tubes - Coater blades - Boiler tubes, etc.
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Fujimi Incorporated has been a pioneer in the precision artificial abrasive materials industry since its founding in 1950, continuing its unique journey by leveraging classification technology and other advancements. The products born from accumulated know-how and research and development capabilities have evolved from polishing materials for optical lenses to essential components in advanced industries requiring high precision, such as mirror polishing of semiconductor substrates represented by silicon wafers, CMP (Chemical Mechanical Planarization) necessary for multilayer wiring of semiconductor chips, and polishing of hard disks for computers. Recently, we have also been actively engaged in the development of polishing and grinding materials for surface processing in fields such as LED, displays, and power electronics, as well as in applied areas utilizing powder technology. Additionally, we provide thermal spray materials for various industries, including steel, aerospace, and semiconductors.
