Silicon carbide plate is an extremely tough, reliable material with exceptional mechanical and thermal properties that makes it suitable for armor protection, cutting tools, wear-resistant components and wear resistance applications.
Radiation detectors and ultraviolet (UV) detectors, both essential to many applications, use SIC plates extensively. Furthermore, these plates have high breakdown voltage ratings and offer corrosion-resistance.
High-strength
Silicon carbide plate is a high-performance material often employed in demanding applications. Able to withstand extreme temperatures while resisting wear and corrosion, silicon carbide is ideal for armor/ballistic protection, cutting tools, wear resistant components and many more. In addition, its thermal properties offer lower expansion and increased conductivity which make it suitable for numerous industrial uses.
This plate has been machined prior to sintering to ensure a smooth surface for heat transfer. With a Mohs hardness rating of 9.5, this material makes an excellent cutting and grinding abrasive suitable for metals and ceramics alike. Furthermore, its Mohs hardness rating also makes it suitable for use in grinding applications.
SIC is widely recognized for its chemical resistance, making it an excellent choice for blast furnace lining applications. It can withstand acids, alkali and reactive gases without becoming damaged; furthermore it resists abrasion and impact and can even be used in high-temperature kilns and ceramics.
SiC plates produced through the sintering process are both strong and durable, as the high density and toughness can withstand shocks and impacts while their resilience makes for excellent creep rupture resistance. Furthermore, SiC material has one of the lowest CTE ratings among all refractory materials, so temperature changes don’t significantly alter its performance; using SiC plates may help lower maintenance costs while improving productivity.
High-temperature resistance
Silicon carbide plates are composed of silicon and carbon, creating hard and heat-resistant surfaces. Used widely across a range of applications from furnace linings and kiln furniture, to excellent strength, wear resistance, thermal conductivity and low thermal expansion; silicon carbide plates offer many benefits that make them highly desirable materials.
Silicon carbide ceramics are an ideal choice for ballistic protection. When combined with other materials, silicon carbide ceramics can enhance flexibility, impact resistance, and overall performance – perfect for military personnel, law enforcement officers, and security officers.
Chemical resistance of sic plate is another key advantage. It can withstand acids and alkalis without succumbing to corrosion, while being formed into intricate shapes using advanced hydraulic vibration molding technology – providing for finished products with exact dimensions, shapes, sizes and desired refractory properties.
YUFENGREC SiSIC is an innovative high-temperature refractory material with unique wear resistance properties that is easily formed into complex shapes, making it suitable for bottom plates in various industries such as metalworking, ceramics, glass manufacturing and steel production. Powder sintering applications and dewatering components may also benefit from this product which offers excellent thermal shock resistance making it suitable for metal smelting as well as papermaking industries.
Excellent chemical resistance
Silicon carbide (SiC) plate is highly resilient, boasting excellent chemical and erosion resistance. Due to its high strength, low thermal expansion coefficient, and resistance against oxidation and corrosion, SiC plate can be found in applications as diverse as spray nozzles and shot blast cyclone components.
These plates are an integral component of modern ballistic protection systems, ensuring military personnel can perform their duties safely. Resistant to threats such as bullets, shrapnel and debris while providing superior flexibility and impact resistance, these plates offer total protection and peace of mind to military personnel serving on active duty.
Sic plate can be found in various industrial applications, from furnace linings and kiln furniture to grinding wheels, shotblast nozzles, wear-resistant components and wear-resistance features. Furthermore, this material boasts excellent abrasion-resistance characteristics making it suitable for grinding wheels, shotblast nozzles and wear-resistant components. Furthermore, Sic has excellent thermal conductivity properties, as well as being suitable for high temperature environments.
SiC is known for its superior chemical inertness, making it well suited to harsh chemical environments. It can withstand exposure to acids, oxidizing agents and other corrosive gases and liquids without suffering damage, while its high temperature tolerance allows it to be combined with metals to create composite materials more tolerant to high-temperature environments. SiC plates come in various shapes and sizes and can easily be machined, drilled or shaped using standard tools for use as power devices.
Low thermal expansion
Silicon carbide is one of the hardest materials available, competing with diamond and boron carbide as one of the hardest materials available. This hardness translates into exceptional resistance against abrasion and wear, greatly increasing component lifespan when using this material. Furthermore, silicon carbide boasts incredible thermal stability allowing mechanical properties to remain intact even at high temperatures, and its chemical corrosion-resistance makes it suitable for fluid control systems handling aggressive liquids or gases.
SiC’s low thermal expansion helps minimize deformation during temperature fluctuations, offering greater dimensional stability and precision in orifice plates. This feature is especially advantageous in kilns where temperatures often fluctuate rapidly; this feature not only ensures functional furniture over time but also saves energy costs by avoiding thermal shock that negatively impacts fired products.
Reaction Bonded Silicon Carbide (RB-SiC), produced through recrystallization, sintering, and reaction bonding processes, offers an economical and high-quality alternative to sintered SiC in situations where its costs are prohibitive. RB-SiC offers similar durability and wear resistance, making it suitable for applications including refractory manufacturing as well as ceramic production; its lightweight composition also makes it suitable for industrial processes that may otherwise involve handling low expansion materials which can often prove costly or intractable
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