Silicon Carbide Ceramics
2.8 Density 1600°C High Efficiency Silicon Carbide Heating Element with Reaction Bonded SiC Rod
2.8 Density 1600°C Silicon Carbide Heating Element - High Efficiency Our high-performance silicon carbide rod series, with our flagship SLW and LW helix models at its core, is engineered through leading-edge reaction sintering technology. It provides the ideal heating solution for zirconia dental sintering, laboratory research and specialized industrial furnaces. Product Series Overview To meet the demands of diverse application scenarios, we offer the following product
High-Temperature Capability SiC Roller Tube with Extended Service Life and Reduced Maintenance for Kiln Applications
Elevate Kiln Performance with Premium Reaction Sintered Silicon Carbide Roller Tubes Ensure unmatched stability and efficiency in your high-temperature roller hearth kilns with our advanced reaction sintered silicon carbide (SiC) roller tubes. Engineered for demanding applications across ceramics, lithium battery production, and specialty materials processing, they deliver superior durability and consistent performance under extreme conditions. Why Choose Our SiC Roller Tubes
Reaction-bonded silicon carbide setter plate with 1380℃ max service temp, 250MPa flexural strength, and ≥3.0g/cm3 density for kiln trolley support
Reaction-bonded silicon carbide fish-shaped refractory setter plate for kiln trolley support This reaction-bonded silicon carbide (RSiC) fish-shaped refractory setter plate for kiln trolley support is the ideal choice for high-temperature firing processes. Its unique fish-shaped design not only enhances structural strength but also optimizes heat distribution, ensuring uniform temperature during the firing process. Manufactured using advanced reaction-bonding technology, this
Pressureless Sintered SSiC Mechanical Seal Rings with 1650°C Max Service Temp Zero Free Silicon and High Purity
Pressureless Sintered Silicon Carbide (SSiC) Mechanical Seal Rings | For Extreme Service Our Pressureless Sintered Silicon Carbide (SSiC) Mechanical Seal Rings represent the pinnacle of advanced ceramic engineering for severe-duty applications. Manufactured without applied pressure at ultra-high temperatures, they achieve a fully dense, pore-free microstructure with zero free silicon. This results in unparalleled chemical purity, exceptional thermal stability, and superior
Reaction Bonded Silicon Carbide RBSiC Rings with Max. Service Temp 1380℃, Flexural Strength 367MPa, and Density 3.05
Reaction Bonded Silicon Carbide RBSiC Rings Reaction Bonded Silicon Carbide (RBSiC) Rings: High Hardness and Thermal Stability for Demanding Industrial Applications Silicon Carbide Mechanical Seal Rings deliver exceptional performance in the most challenging industrial environments. Engineered for superior durability, they offer high hardness, outstanding wear resistance, and excellent corrosion resistance. These rings are the ideal solution for pumps, compressors, and
High-Purity Pressureless Sintered SiC Crucible with 1800°C Resistance and 1650°C Service Temperature
High-Purity Pressureless Sintered SiC Crucible | 1800°C Resistance, Fast Heat Transfer Product Description Our pressureless sintered silicon carbide (SSiC) crucible is engineered for the most demanding high-temperature applications. Manufactured from ultra-high-purity SiC powder via advanced sintering technology, it delivers unmatched thermal performance and longevity. This crucible is the ideal solution for metal melting, advanced material synthesis, and any process
RBSiC Grinding Barrel with 1380°C Max Service Temp 250MPa Flexural Strength and ≥3.0g/cm3 Density for High-Temperature Applications
RBSiC/SiSiC Grinding Barrel | Chemical-Inert Container for High-Temp & Corrosive Media Our Reaction-Bonded SiC (RBSiC) grinding barrels handle temperatures up to 1380°C and aggressive chemicals, offering 10x longer service life than alumina. Ideal for battery materials, minerals, and advanced ceramics grinding. Custom designs available. Reaction-Bonded Silicon Carbide (RBSiC/SiSiC) Grinding Barrels: Engineered for Extreme Conditions Tired of grinding barrels that wear out too
Black Silicon Carbide Refractory Bricks with High-Temp Abrasion and Thermal Shock Resistance for Extreme Industrial Use
Black Silicon Carbide Refractory Bricks | High-Temp, Abrasion & Thermal Shock Resistant Boost furnace lifespan with our Black SiC refractory bricks (SiC 72%-99%). Superior hardness (9.3 Mohs), exceptional thermal shock & abrasion resistance. Ideal for kilns, blast furnaces & incinerators. Black Silicon Carbide Refractory Bricks for Extreme Industrial Environments Engineered to redefine durability in high-temperature applications, our Black Silicon Carbide (SiC) Refractory
Customized Silicon Carbide Ceramic Pipe Burners with 1650°C Max Service Temp, 20% Fuel Reduction, and Thermal Shock Resistance
Customized Silicon Carbide Ceramic Pipe Burners Finned Radiant Tubes ZG Industrial supplies high-performance customized silicon carbide ceramic pipe burners and finned radiant tubes. Engineered for extreme conditions, our Si/SiC composite tubes deliver superior heat transfer, exceptional durability, and significant energy savings for industrial heating applications. Available for immediate installation in systems up to 6 inches in diameter. Key Features & Benefits Superior
200mm High Corrosion Resistant 99% Silicon Carbide Ceramic Head for Extreme Chemical Environments
200mm High Corrosion Resistant 99% Silicon Carbide Ceramic Head Product Overview Our high-performance silicon carbide ceramic head is manufactured using direct isostatic pressing and pressureless sintering technologies. Engineered to pair seamlessly with silicon carbide block hole systems, this component forms the core of highly efficient block hole heat exchangers. Customizable inlet/outlet configurations and sealing methods are available to meet specific design requirements
Silicon Carbide Tray & SiC Wafer Holder with 1650°C Max Service Temp, High Thermal Conductivity, and Plasma & Corrosion Resistance for ICP Etching
Silicon Carbide (SiC) Trays & Plates: High-Performance Wafer Holders for ICP Etching in LED Manufacturing Silicon Carbide (SiC) trays and plates are precision-engineered wafer carriers designed specifically for Inductively Coupled Plasma (ICP) etching processes within the LED industry. SiC stands out as a superior material due to its exceptional thermal management, outstanding corrosion resistance, and remarkable mechanical stability at extreme temperatures. Key Material
Corrosion Resistant Silicon Carbide Heat Exchanger Block with 1650°C Max Service Temp and Cross-Bore Configuration
Silicon Carbide (SiC) Heat Exchanger Blocks Advanced cross-bore heat transfer solutions for corrosive industrial environments Product Overview Our Silicon Carbide (SiC) Heat Exchanger Blocks represent a breakthrough in thermal management for highly corrosive environments. Manufactured via direct isostatic pressing and pressure-free sintering, these blocks feature an innovative design of interconnected vertical and horizontal holes. This unique cross-bore configuration enables
Custom 800x500mm Silicon Carbide Heat Exchanger Plate with High Corrosion and Thermal Shock Resistance
Custom 800x500mm Silicon Carbide (SiC) Heat Exchanger Plate High Corrosion & Thermal Shock Resistance Our custom silicon carbide heat exchanger plates represent the pinnacle of corrosion-resistant thermal technology. Manufactured from high-purity sintered silicon carbide (SSiC) through advanced isostatic pressing and pressureless sintering processes, these plates deliver unmatched performance in the most demanding chemical processing applications. Technical Specifications &
High-Temperature Resistant and Corrosion Resistant Silicon Carbide Impeller with Ultra-High Purity (99% SiC)
Silicon Carbide (99% SiC) Impeller | High-Temp & Corrosion Resistant Our Silicon Carbide (99% SiC) Impeller is engineered from ultra-high-purity silicon carbide, delivering superior mechanical strength and exceptional thermal stability. Designed for extreme environments, it ensures reliable performance in demanding industrial applications, offering outstanding resistance to heat, corrosion, and wear. Key Features Ultra-High Purity (99% SiC): Ensures maximum performance,
Silicon Carbide Sandblasting Nozzle with Superior Wear Resistance, Extended Service Life, and Precision Engineering for Industrial Applications
Silicon Carbide (SiC) Sandblasting Nozzles Superior wear resistance for industrial surface treatment applications Our Silicon Carbide Sandblasting Nozzles are engineered for extreme durability and precision in demanding surface treatment applications. Manufactured through advanced isostatic pressing and pressureless sintering technology, these nozzles deliver exceptional performance where it matters most. We offer comprehensive customization with capabilities for precise
Silicon Carbide Sealing Rings with 1650°C Max Service Temp, 380MPa Flexural Strength, and Corrosion Resistance
Silicon Carbide (SiC) Sealing Rings Advanced Performance for Demanding Applications Product Overview Our Pressureless Sintered Silicon Carbide Sealing Rings represent the pinnacle of sealing technology, engineered to deliver unmatched performance in extreme operating conditions. Utilizing advanced manufacturing processes including dry pressing for small-volume rings and isostatic pressing for large-size components, we provide precision-crafted sealing solutions tailored to
High Temperature Resistant Silicon Carbide Cylinder with Precision Machining and Corrosion Resistance for Demanding Industries
Silicon Carbide (SiC) Cylinders High-performance precision components engineered for demanding industrial applications through advanced direct isostatic pressing and pressure-free sintering processes. Key Features & Advantages Exceptional Durability: Superior performance under extreme conditions including strong corrosion, particulate erosion, and high temperatures Large-Scale Capacity: Available in dimensions up to 350mm diameter and 2000mm height Precision Manufacturing:
Electrically Conductive Silicon Carbide Handling Arm with 1650°C Max Service Temp and 380MPa Flexural Strength
Electrically Conductive Ceramics Handling Arm: Precision for Extreme Environments Pressureless Sintered Silicon Carbide (SiC) Manipulator Arm represents a breakthrough in high-performance material handling solutions. Manufactured using advanced pressureless sintering technology with high-purity silicon carbide, this handling arm delivers exceptional performance where conventional materials fail. Key Advantages Exceptional Mechanical Properties Superior strength and extreme
Custom High-Strength SiC Square Beams with 1380°C Max Temperature, 250MPa Flexural Strength, and Thermal Shock Resistance for Kiln Support
Custom High-Strength SiC Square Beams | Kiln Support up to 1380°C Get customized Reaction-Sintered Silicon Carbide (SiC) square beams for high-temperature kilns. With a 1380°C max temperature, high load capacity, and superior thermal shock resistance. Ideal for shuttle, tunnel & roller kilns. Request a quote for custom sizes. Custom High-Strength Reaction-Sintered Silicon Carbide Square Beams Engineered for extreme environments, our Reaction-Sintered Silicon Carbide (SiC)