"cerium oxide polishing compound"
Odm 세리움 산화물 기반의 굴착 분말 및 화합물
Polishing Slurry for Ultra-Fine Electronics Surfaces Overview: Our Polishing Slurry for Ultra-Fine Electronics Surfaces is meticulously engineered to deliver precise, high-quality finishes for the most delicate electronics applications. With advanced cerium oxide-based technology, this slurry is designed for the polishing of ultra-fine surfaces in the electronics industry, ensuring smoothness, clarity, and minimal defects. Key Features: High Purity Cerium Oxide: Formulated
시리움 산화물 화합물 (Ceo2) 를 닦는 화학 강화 유리용 슬러리
Polishing Slurry For Chemically Strengthened Glass Description Lichen Cerium-Based Polishing Slurry for Chemically Strengthened Glass is a high-purity, ready-to-use slurry specifically formulated for the fine polishing and surface finishing of chemically strengthened glass. Designed to work effectively on glass that has undergone ion-exchange strengthening processes, this slurry delivers excellent surface smoothness, high gloss, and low defect density without compromising the
스크래치 무료 랩링 슬러리 세리움 산화물 스크래시브 스마트 폰 카메라 렌즈
Scratch-free Cerium Oxide Slurry For Smartphone Camera Lenses Description Our Scratch-free Cerium Oxide Slurry is specially formulated to deliver premium polishing performance for smartphone camera lenses. Designed to provide superior surface quality while preventing surface damage, this cerium oxide slurry is ideal for achieving high-precision finishes on optical lenses, ensuring clarity, scratch resistance, and minimal distortion in high-quality smartphone cameras. Key
스크래치 저항성 유리 닦기용 세리움 산화물 슬러리 0.6μM
Cerium Oxide Slurry For Display Cover Glass Description Lichen Cerium Oxide Slurry for Display Cover Glass is a high-purity, water-based slurry designed for the precision polishing of display cover glass used in smartphones, tablets, wearables, and other consumer electronics. Formulated with ultra-fine cerium oxide particles, this slurry ensures superior surface smoothness, optical clarity, and scratch resistance, providing a premium finish for high-end glass covers. Perfect
평형화 세리움 산화물 매물 반도체 유리를 위한 가려진 닦기 페이스트
Cerium Oxide Slurry For Semiconductor Glass Substrates Description Lichen Cerium Oxide Slurry for Semiconductor Glass Substrates is a high-purity, water-based polishing slurry formulated specifically for semiconductor glass applications. This slurry provides excellent material removal rates, consistent surface finishes, and precise planarization, making it ideal for polishing semiconductor glass substrates used in wafer-level packaging, photomasks, and advanced integrated
PH 중립 세리움 산화물 바위 롤러 자동차 디스플레이 유리
Slurry For Polishing Of In-car Display Glass Description Lichen Slurry for Polishing In-Car Display Glass is a high-purity cerium oxide-based slurry designed specifically for the demanding requirements of automotive display glass polishing. This slurry is formulated to deliver superior surface smoothness, high optical clarity, and scratch-free finishes on the glass surfaces used in in-car displays, touchscreens, and instrument clusters. Ideal for automotive infotainment
광학 유리 및 포토닉스 부품용 고 제거율 세륨 산화물 CMP 슬러리
High Removal Rate Cerium Oxide CMP Slurry for Optical Glass & Photonics Components Product Overview High Removal Rate Cerium Oxide CMP Slurry is engineered for precision polishing of optical glass and photonic components requiring fast material removal with controlled surface quality. The optimized particle morphology enables efficient planarization while maintaining excellent surface integrity and process stability. Designed for advanced optical manufacturing, this slurry
유리 결함 제거제 세리움 산화질소 희토류 닦는 슬러리 낮은 산란 레이저 광학 닦기
Cerium Oxide For Low-scatter Laser Optics Polishing Description Lichen Cerium Oxide for Low-Scatter Laser Optics Polishing is a high-purity, cerium-based polishing powder engineered for the precision finishing of laser-grade optical components. Developed to meet the stringent surface quality requirements of modern laser systems, this product enables ultra-smooth surfaces with minimal micro-defects, significantly reducing light scatter and optical losses. It is ideally suited
0.8μM 세리움 산화질소 희토류 닦는 매립물 적외선 IR 광학 닦기용 가시제
Cerium Oxide For Polishing High-index Infrared (IR) Optics Description Lichen Cerium Oxide for Polishing High-Index Infrared (IR) Optics is a high-purity ceria-based polishing material engineered for the precision finishing of high-index IR optical components. Leveraging cerium oxide’s unique chemical–mechanical polishing characteristics, this product delivers efficient material removal, low surface roughness, and excellent surface uniformity on demanding IR substrates.
사피어 세리움 산화물 고정도 아스피어 렌즈용 희토류 닦기 매물
Cerium Oxide For High-precision Aspheric Lens Manufacturing Description Our Cerium Oxide for High-Precision Aspheric Lens Manufacturing is specifically engineered to meet the stringent surface quality and accuracy requirements of advanced optical lens production. Designed for polishing complex aspheric geometries, this high-quality cerium oxide delivers exceptional surface smoothness, form accuracy, and optical clarity, making it ideal for applications in imaging optics,
반도체 유리용 정밀 평면화 세리움 산화물 슬러리
Slurry For Fine Planarization Of Semiconductor Glass Description Lichen Cerium-Based Polishing Slurry for Fine Planarization of Semiconductor Glass is a high-purity, ready-to-use slurry engineered for advanced glass planarization processes in semiconductor manufacturing. Formulated with precisely controlled cerium oxide particles, this slurry delivers excellent surface flatness, low roughness, and minimal defect generation, meeting the stringent requirements of modern
스크래치 감축 유리 닦기 페이스트 파우더 3 미크론 세리움 산화물 기반
Scratch-reduction Polishing Powder For Smartphone Cover GlassDescriptionLichen Scratch-Reduction Polishing Powder for Smartphone Cover Glass is a high-performance cerium oxide-based powder designed to deliver smooth, scratch-free finishes on smartphone cover glass. Whether you're working with sapphire glass, or other advanced smartphone glass materials, this polishing powder is specially formulated to enhance the optical clarity and durability of mobile device screens, while