High-Temperature Resistant SiC Forks: Precision Core Components for Semiconductor Manufacturing
Brand Name:KeGu
Model Number:Customizable
Payment Terms:L/C,D/A,D/P,T/T,Western Union,MoneyGram
Place of Origin:China
Supply Ability:2,000 pcs/month
Packaging Details:Strong wooden box for Global shipping
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Location:
Chaoyang Shaanxi China
Address:
5# Chaoyang Road,Weicheng Sub-district,Qinhan New City, Xixian New Area, Xi'an Shaanxi Province,China,712039
Supplier`s last login times:
within 25 hours
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Product Description
High-Temperature Resistant Silicon Carbide (SiC) Forks, also known as Pressureless Sintered SiC Robotic Arms, represent a breakthrough in material science for precision automation. Engineered using advanced pressureless sintering technology, these forks deliver unparalleled performance in the most demanding semiconductor manufacturing environments. Composed of high-purity silicon carbide, they offer an exceptional combination of thermal stability, mechanical strength, and corrosion resistance essential for next-generation industrial applications.
Key Properties & Advantages
Extreme Temperature Resilience: Withstands operating temperatures up to 1650°C in air, maintaining structural integrity in high-temperature processes.
Superior Mechanical Strength: Features high flexural strength (320-400 MPa) from room temperature up to 1300°C, ensuring reliable performance under heavy loads.
Exceptional Thermal Management: Offers outstanding thermal conductivity (196 W/m·K at 20°C) combined with low thermal expansion (4.0 x 10⁻⁶/K), providing excellent thermal shock resistance (>350°C).
Maximized Durability: Ultra-high hardness (2350 kg/mm² Vickers) and near-zero open porosity ensure exceptional wear resistance and long-term reliability in abrasive environments.
Optimized for Precision: High modulus of elasticity (410 GPa) and rigid lightweight design enable minimal deflection and high-precision handling of sensitive substrates like silicon wafers.
Technical Specifications
| Physical Properties | Unit | Value (SSiC) |
|---|---|---|
| Composition: SiC | Vol% | ≥98 |
| Density @ 20°C | g/cm³ | ≥3.05 |
| Open Porosity | Vol% | ≈0 |
| Vickers Hardness HV1 | kg/mm² | 2350 |
| Rockwell Hardness 45N | R45N | 93 |
| Flexural Strength | ||
| - @ 20°C | MPa | 320-400 |
| - @ 1300°C | MPa | 300-400 |
| Thermal Conductivity | ||
| - @ 20°C | W·m⁻¹·K⁻¹ | 196 |
| - @ 1200°C | W·m⁻¹·K⁻¹ | 60 |
| Max. Service Temp (air) | °C | 1650 |
| Thermal Shock Resistance | °C | >350 |
| Coefficient of Thermal Expansion | 10⁻⁶/K | 4.0 |
| Modulus of Elasticity @ RT | GPa | 410 |
Critical Application Areas
Semiconductor Manufacturing: Ideal for wafer handling, transfer, and processing in CVD, LPCVD, diffusion furnaces, and other high-temperature equipment
Advanced Thermal Processing: Essential components for high-temperature industrial furnaces and heat treatment systems
Aerospace & Defense: Critical parts requiring thermal stability and lightweight durability
Nuclear Energy Systems: Components for demanding radiation and high-temperature environments
Precision Automation: Robotic arms and end-effectors for cleanroom and harsh environment applications
Performance Benefits
Reduced particle generation and contamination in cleanroom environments
Minimal thermal deformation for precise positioning accuracy
Extended service life compared to quartz and graphite alternatives
Reduced maintenance downtime and increased production throughput
Excellent resistance to chemical corrosion from process gases and cleaning agents
These SiC forks are specifically engineered to enhance process reliability and yield in precision manufacturing applications where temperature extremes, chemical resistance, and mechanical stability are critical performance factors.
High-Temperature Resistant SiC Forks: Precision Core Components for Semiconductor Manufacturing
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