sic heating elements
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高温耐食性炭化ケイ素ロッド SiCヒーター、実験室炉用カスタマイズ可能なサイズ
High Temperature Silicon Carbide Heating Elements Premium silicon carbide rod heaters designed for laboratory muffle and tube furnaces, offering exceptional performance at extreme temperatures up to 1600°C. Product Specifications Outer Diameter (mm) Hot Zone (mm) Cold Zone (mm) Overall Length (mm) Resistance Range 8 100-300 60-200 240-700 2.1-8.6 12 100-400 100-350 300-1100 0.8-5.8 14 100-500 150-350 400-1200 0.7-5.6 16 200-600 200-350 600-1300 0.7-4.4 18 200-800 200-400 600
モリブデン二ケイ化物 (MoSi2) 発熱体、最高温度1800℃、自己形成保護石英層、および複数の構成
Molybdenum Disilicide (MoSi2) Heating Elements High-performance resistance heating components manufactured from pure molybdenum disilicide with maximum operating temperature of 1800°C and working range of 500-1700°C. Key Features Maximum temperature: 1800°C in oxidizing atmospheres Self-forming protective quartz surface layer Excellent oxidation resistance Suitable for continuous high-temperature operations Multiple configurations available Product Specifications Temperature
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
炭化ケイ素高温真空焼結炉
Silicon Carbide High-Temperature Vacuum Sintering Furnace Application Introduction This system is primarily designed for the cemented carbide and powder metallurgy industries, specializing in the production of various particle sizes of tungsten carbide (WC), titanium carbide (TiC), vanadium carbide (VC), and other metal and composite metal powders. The system significantly enhances silicon carbide (SiC) quality and offers substantial advantages over traditional carbonization
シリコンナイトライドヒーター保護チューブ 1450°C 最大使用温度,高熱衝撃耐性,溶けたアルミニウムで反応しない
Silicon Nitride (Si3N4) Heater Protection Tubes for Aluminum Industry Our advanced silicon nitride ceramic heater protection tubes are engineered to deliver superior performance in aluminum melting and holding applications. With enhanced thermal and mechanical properties compared to conventional materials, silicon nitride enables reliable, long-lasting protection for your heating systems. Key Advantages of Silicon Nitride Protection Tubes Excellent High-Temperature Performanc
5mm-6mm無加圧焼結炭化ケイ素粉砕ボール
5mm-6mm Pressureless Sintered Silicon Carbide Grinding Balls Silicon Carbide (SiC), a typical covalently bonded compound, offers exceptionally high hardness, superior wear resistance, excellent high-temperature mechanical properties, and outstanding chemical stability, making it a key member of advanced structural ceramic materials. SiC grinding balls are produced from high-purity SiC powders through forming, high-temperature sintering, and precision finishing. They are
再結晶されたシリコンカービッド RSiC 孔状の柱型セラミックモジュール
Recrystallized Silicon Carbide (RSiC) Porous Columnar Ceramic Module Product Overview The Recrystallized Silicon Carbide (RSiC) Porous Columnar Ceramic Module is a high-performance specialized ceramic manufactured from ultra-pure silicon carbide micropowder. It is sintered via a high-temperature evaporation-condensation mechanism (typically exceeding 2000°C) without the use of any sintering additives or binders. Its columnar (tubular/honeycomb) structural design fully