"semiconductor slurry"
Полирующий порошок оксида церия с высокой скоростью удаления для обработки оптического стекла
High Removal Rate Cerium Oxide Polishing Powder for Optical Glass Processing Product Overview High Removal Rate Cerium Oxide Polishing Powder is engineered for efficient polishing of optical glass components requiring fast material removal and stable surface quality. The optimized particle morphology provides excellent chemical-mechanical interaction with glass substrates, enabling improved productivity without compromising surface finish. Designed for large-scale precision
Стекло оксида церия для оптической полировки
High Purity Cerium Oxide for Optics Polishing Description: Achieve flawless finishes with our premium Cerium Oxide Polishing Powder/Slurry, specifically engineered for semiconductor, optical component and precision applications. Designed to deliver excellent clarity and smoothness, it’s the perfect choice for polishing delicate surfaces like glass, lenses, and semiconductor wafers. Key Features: Ultra-fine Particles for precision polishing High Purity for optimal performance
Полировальный порошок на основе оксида церия класса CMP для AR-оптики, массивов микролинз и носимых оптических датчиков
CMP-Grade Ceria Polishing Powder For AR Optics, Micro-Lens Arrays & Wearable Optical Sensors Product Overview This CMP-grade ceria polishing powder is engineered for next-generation micro-optical components used in AR wearables, optical sensors, and miniaturized imaging systems. Featuring controlled reactivity and ultra-fine particle engineering, the product enables atomic-level surface finishing required for high-resolution optical performance and advanced photonics
Сверхтонкий полировальный порошок оксида церия для лазерных кристаллов и прецизионной оптики
Ultra-Fine Cerium Oxide Polishing Powder for Laser Crystals & Precision Optics Product Overview Ultra-Fine Cerium Oxide Polishing Powder is developed for ultra-precision polishing processes requiring superior surface finish and minimal subsurface damage. The refined particle distribution enables smooth finishing of laser crystals and advanced optical materials used in high-performance photonics systems. Ideal for final polishing stages demanding nanometer-level surface
