投稿者名:アドミンエイト

Optimize Heat Transfer With a Silicon Carbide Tube Kerui produces Sintered Silicon Carbide (SiC) tubes through processes such as Reaction Bonding or Recrystallization for use in various applications. These SiC tubes provide optimal performance. Industrial environments requiring high strength and wear resistance will benefit greatly from composite materials’ high corrosion resistance, superior wear resistance, and higher temperature tolerance than metal alloys. High Temperature Resistance High-grade silicon carbide tubes can withstand extreme temperatures without being damaged by materials being processed. Their Mohs hardness rating, which approaches that of diamond, means they can easily withstand wear and abrasion and are also extremely resistant to corrosion. Additionally, this ceramic material is known for […]

Superior Strength With Reaction Bonded SiC Reaction Bonded SiC (RBSC) Offers Superior Strength Reaction bonded silicon carbide (RBSC) boasts superior temperature strength, oxidation resistance and thermal shock resistance compared with its alternatives, making it suitable for use in mining and industry equipment such as kiln beams, posts, setters and burner nozzles – helping decrease thermal mass while increasing energy efficiency. It can also be found used as part of energy efficient burner nozzles that can save on energy usage costs. RBSC has lower density and mechanical strength than sintered silicon carbide (SSiC), yet provides increased thermal shock resistance and can be formed into complex shapes more efficiently. High Strength RB

Precision Spraying With Silicon Carbide Nozzle Silicon carbide nozzles have become an indispensable industrial tool, due to their resistance to harsh chemicals and extreme temperatures. Their resilience reduces maintenance costs while simultaneously increasing productivity and efficiency for greater business success. Abrasive Blasting: SiC nozzles are specially engineered to propel abrasive media for surface preparation and cleaning purposes, cutting materials such as metal and stone precisely with precision. Furthermore, these durable tools can withstand wear-and-tear conditions common in harsh working environments. Precision Silicon carbide is one of the hardest and lightest advanced ceramics, boasting high temperature resistance, erosion resistance, chemical stability, durability and precision for spraying applications that maximize coverage while

Optimize Your Combustion With Silicon Carbide Burner Nozzles Silicon carbide burner nozzles have quickly become indispensable components in industrial combustion systems, revolutionizing how heat is generated and materials processed. Their durable design withstands extreme temperatures and harsh environments – helping businesses reduce energy costs and achieve sustainability goals more easily. Bonded and sintered silicon carbide provide low wear rates in blast nozzles, maintaining internal geometry with minimal degradation while decreasing compressor requirements, downtime costs and maintenance expenses. Durability Silicon carbide (SiC) nozzles are made of durable material designed to withstand harsh and high-wear environments found in industrial combustion plants, making them highly impact resistant and less likely to degrade or

再結晶炭化ケイ素：要求の厳しい用途に最適な高性能材料 結晶化炭化ケイ素（RSiC）は、優れた機械的、熱的、電気的特性を持つ高性能セラミック材料です。そのユニークな特性の組み合わせにより、航空宇宙、半導体、自動車など、さまざまな産業における要求の厳しい用途に理想的な材料となっています。この記事では、RSiCの特性、その製造プロセス、および様々な産業における用途についてご紹介します。再結晶炭化ケイ素の特性 RSiCは、結晶格子構造のケイ素原子と炭素原子からなるセラミック材料である。炭化ケイ素粉末を真空または不活性雰囲気中で高温（2200℃以上）にて再結晶させることにより形成される。得られた材料の密度は

炭化ケイ素は、強度、熱安定性、耐摩耗性で有名な先端材料です。この万能材料は、バーナーノズルを含む多くの産業用途に利用できます。反応焼結炭化ケイ素バーナーノズルは、高い熱伝導性、優れた耐摩耗性、耐腐食性、長寿命、低エネルギー消費という特徴から、トンネルキルン、シャトルキルン、ローラーキルンなどに最適です。高い熱伝導性 炭化ケイ素（SiC）はカーボランダムとも呼ばれ、非常に硬く化学的に安定した半導体材料で、高い熱伝導性を持っています。天然ではモアッサナイト鉱床として発見されましたが、1893年以来、研磨材やセラミックとして大量生産されています。

炭化ケイ素るつぼは、高い溶融温度を誇り、非鉄金属製錬用途に適しています。酸素化および吸水の影響を受けやすい黒鉛るつぼとは異なり、炭化ケイ素るつぼは、これらのリスクに対して優れた耐性を提供します。るつぼを乾燥した場所に保管および焼戻しし、保管、輸送、および取り扱い中に蓄積した湿気を発散させます。これにより、蓄積した湿気をより効率的に逃がすことができ、輸送および取り扱いコストを削減できる。炭化ケイ素黒鉛るつぼは、金属の溶解に簡単、便利、かつ経済的な選択肢です。最小限のメンテナンス要件により、汚染のリスクなしに、さまざまな温度で多くの金属および合金の溶解に対応できます。