sic ceramics
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低ナトリウムアルファアルミニウム酸化物 2〜3μmの結晶サイズと高純度Al2O3 ≥99.8%
Low-Sodium Alpha Aluminum Oxide (2-3μm) | White Alumina Ceramics for Vacuum Tubes & Extrusion High-purity white alumina ceramics (Al₂O₃ ≥99.8%) with 2-3μm crystal size. Ideal for electric vacuum tube shells (dry pressing) and extruded ceramics. Excellent electrical insulation and sinterability. Low-Sodium Alpha Aluminum Oxide for Advanced Technical Ceramics Our high-purity white alpha aluminum oxide powders are engineered for demanding ceramic forming processes. With
高性能セラミック基板:アルミナ (Al2O3),アルミナイトライド (AlN),シリコンナイトライド (Si3N4)
High-Performance Ceramic Substrates: Alumina (Al2O3), Aluminum Nitride (AlN), & Silicon Nitride (Si3N4) Ceramic substrates are critical components in modern electronics, providing the essential foundation for circuits while managing heat and ensuring electrical insulation. Among the most widely used materials are Alumina (Al2O3), Aluminum Nitride (AlN), and Silicon Nitride (Si3N4), each offering a unique set of properties for demanding applications. Ceramic Substrates
耐高温シリコン窒化セラミックヒーター保護管、耐腐食性および耐熱衝撃性
Silicon Nitride Ceramic Heater Protection Tube - Advanced High-Temp & Corrosion Resistant Solution Upgrade Your Heater Performance with Durable Silicon Nitride Protection Tubes Our Silicon Nitride Ceramic Heater Protection Tube is engineered from premium advanced ceramic materials to deliver unmatched protection for heating elements in extreme conditions. Specifically formulated for high-temperature applications, this protection tube excels in harsh environments where other
低ナトリウム (<0.03%) 99.9% Al2O3 高アルファ相のアルミナセラミック基板
Low Sodium 99.9% Alumina Ceramic Substrate for LCD Glass & Solar Panels Ultra-pure 99.9% Al₂O₃ ceramic substrate material featuring low sodium content (
熱伝導性が高いセラミック基板と特異的な屈曲強度とコスト効率の良いアルミナ基板
Advanced Ceramic Substrates: Alumina (Al₂O₃), Aluminum Nitride (AlN) & Silicon Nitride (Si₃N₄) for Electronics Engineered ceramic substrates form the foundation of modern electronic systems. Alumina (Al₂O₃), Aluminum Nitride (AlN), and Silicon Nitride (Si₃N₄) offer unique combinations of thermal, mechanical, and electrical properties, making them indispensable across power electronics, RF/microwave, and LED applications. Material Property Comparison Property Al₂O₃ 96% Al₂O₃
高流動性高純度アルミニウムセラミック粉末 (Al2O3 ≥99.7%) 光伏およびLCDガラス用
High-Fluidity Alumina Ceramic Powder for Photovoltaic & LCD Glass High-purity α-Alumina (Al₂O₃ ≥99.7%) powder engineered for LCD, cover, and photovoltaic glass applications. Enhances chemical stability and light transmittance while providing excellent fluidity and reactivity. High-Fluidity Alumina (Al₂O₃) Ceramic Powder Our high-purity aluminum oxide (alumina) powder is specially engineered for the manufacturing of high-performance photoelectric glass, including LCD
14*11 無加圧焼結 SiC ローラー長寿命
14*11 Pressureless Sintered SiC Roller Product Overview: Seamless Pressureless Sintered Silicon Carbide (SSiC) Rods, OD 14 mm * ID 11 mm This product is a hollow tube made of pressureless sintered silicon carbide (SSiC) with outer diameter 14 mm and inner diameter 11 mm. It is manufactured from high-purity SiC powder with composite sintering aids, followed by high-temperature pressureless densification sintering. The rods feature high density, precise dimensional accuracy,
16*12 加圧焼結 SiC ローラー長寿命
16*12 Pressureless Sintered SiC Roller - Long Service Life Product Overview Pressureless Sintered Silicon Carbide (SSiC) roller rods are advanced ceramic components manufactured from high-purity, ultrafine SiC powders with suitable sintering aids, through a solid-state or liquid-phase sintering process at elevated temperatures under normal atmospheric pressure. The resulting material contains ≥99% SiC, with a density ≥3.10 g/cm³ and virtually no free metallic impurities such
再結晶化シリコンカービッド管状セラミック膜
Recrystallized Silicon Carbide Tubular Ceramic Membranes Product Overview Recrystallized silicon carbide (R-SiC) tubular ceramic membranes are high-performance inorganic separation membranes manufactured from high-purity SiC (≥99%) via a recrystallization sintering process. They feature an asymmetric multilayer structure consisting of a support layer, an intermediate layer, and a separation layer. The support material exhibits excellent mechanical and thermal properties,