Protect Your Surfaces With Resilient Silicon Carbide Plates
Silicon carbide is an exceptionally hard material capable of withstanding high temperatures. Furthermore, its excellent mechanical strength, low coefficient of thermal expansion, and abrasion resistance make it one of the premier materials.
Refractory ceramic material is ideal for use as a lining in furnace nozzles and other wear-resistant components, or to build lightweight kiln furniture like posts and firing rings.
Corrosion Resistant
Silicon carbide plates are extremely long-wearing and corrosion resistant, making them an excellent choice for use in fluid control systems utilizing highly corrosive liquids or gases. Furthermore, their material can withstand high temperatures without succumbing to damage; providing equipment protection while working steadily in harsh environments.
Silicon carbide stands apart from ceramics like zirconia by being non-toxic and inert, as well as possessing impressive chemical inertness that resists most chemicals. Due to this almost universal chemical resistance, silicon carbide makes for an excellent choice in environments prone to corrosion such as the ocean environment.
Stanford Advanced Materials (SAM) is a trusted supplier of silicon carbide products to businesses around the globe. To discover our offerings or request a quote, contact us now – we look forward to helping you find a solution that meets all of your needs! You can trust in us for providing superior-grade silicon carbide plates. Additionally, customization services can be provided upon request.
High Temperature Resistant
Silicon carbide is an abrasion resistant material designed to withstand high temperatures without degrading, even when exposed to furnaces, stoves or other equipment used in manufacturing or cooking processes.
Nitride-bonded silicon carbide is chemically inert and highly resistant to acids and alkalis, making it an ideal material to use in highly corrosive environments. Furthermore, its hardness ranks second only to diamond on Mohs scale at level 10 and boasts excellent mechanical strength.
Sintered, reaction-bonded or recrystallized silicon carbide plates will maintain their structural integrity and functionality at elevated temperatures, working steadily over an extended period. Their low thermal expansion rates also allow you to achieve greater efficiencies and cost savings in your operations.
高強度
Silicon carbide stands second only to diamond in terms of hardness and wear resistance, making it an excellent material for wear-resistance applications. As a semiconductor with superior thermal conductivity and semi-conductive properties, it makes an excellent material choice for applications which demand heat resistance – solid-phase sintered silicon carbide can remain strong at temperatures as high as 1400degC!
Silicon carbide plates offer unparalleled resistance to corrosion in harsh environments such as high-temperature kilns or protective coatings, making them perfect for chemical industries and power plants where chemicals may be harmful to metals.
Silicon carbide plates have long been utilized by military and defense organizations as armor components to safeguard personnel and vehicles against modern threats. Their hardness allows them to withstand attacks by ballistic projectiles or high-velocity fragments; furthermore, their lightweight properties reduce overall vehicle weight thereby becoming essential components in modern vehicle armor solutions.
軽量
Silicon carbide plates make an excellent material choice for making armor and ballistic shields, as they can withstand bullets of high caliber as well as other dangers. Furthermore, their light weight helps minimize vehicle and equipment load issues while their inert chemical makeup provides an eco-friendly option compared to traditional coatings.
Silicon carbide’s insulating properties make it a versatile material suitable for mechanical seals, pump parts and semiconductor processing equipment. Furthermore, its heat resistance, hardness and oxidation resistance add long-term reliability while its low thermal expansion rate maximizes space efficiency and energy conservation.
Silicon carbide ceramic lining is widely used as kiln furniture in tunnels, shuttles, double-rollers and other industrial kilns for its resistance to corrosion, erosion, thermal shock and oxidation. Furthermore, this material can reduce wear on blasting machines while improving performance by reducing wear on shot blast nozzles; additionally it’s used for making ceramics, glasswares, iron casting furnaces as well as metal smelting furnaces.