Gadolinium Zirconate powder for advanced functional coatings and thermal barrier applications is a high-performance functional ceramic material designed for thermal barrier coatings, nuclear material cladding, and other extreme environment applications. It features a stable structure, low thermal conductivity, and strong radiation resistance, making it ideal for engineering protection and energy conversion systems.
With precisely controlled particle size distribution and a purity of up to 99.9%, our customized Gadolinium Zirconate powder for R&D and large-scale production and Gadolinium Zirconate powder optimized for functional ceramic coatings ensure excellent thermal stability and chemical inertness during material preparation, offering tailored particle size, dispersion, or doping services to meet diverse customer requirements.
Purity: 99.9%
Low thermal conductivity, strong thermal shock resistance
Excellent radiation resistance and oxidation stability
Customized particle size, morphology, and packaging can be provided
Thermal barrier coatings (TBCs): Ceramic thermal insulation coatings used for aircraft engines and gas turbines, replacing traditional YSZ to improve thermal stability and service life.
Nuclear material cladding: As a high-performance oxide ceramic material, it resists high-energy particle irradiation and has excellent stability.
Functional Ceramics and Sensors: With good electrical insulation and ion conductivity, it is suitable for gas sensors, insulating components, etc.
Catalysis and Materials Research: As a research platform for rare earth oxide systems, it is used for basic scientific exploration such as solid electrolytes and doped materials.
We provide Certificate of Analysis (COA), Material Safety Data Sheet (MSDS) and other relevant reports for each batch of goods. In addition, we also support third-party testing to enhance quality assurance.
Molecular formula: Gd₂Zr₂O₇
Molecular weight: 586.3 g/mol
Appearance: Off-white to light yellow fine powder, uniform particles
Density: Theoretical density is about 6.5 g/cm³
Melting point: about 2,400 °C
Crystal structure: cubic system
Chemical stability: stable at high temperature, oxidizing or reducing atmosphere, not easy to decompose or change phase
Signal Word:
None
Hazard Statements:
None
Inner packaging: Vacuum-sealed bag to protect against contamination and moisture.
Outer packaging: Carton or wooden box, depending on size and weight.
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