Product Overview
Our Electronic Potting Compound is specially developed for Superconducting Qubit Amplifiers, dedicated to encapsulating, sealing, insulating and protecting superconducting qubits, amplifier modules, PCB substrates, precision chips and quantum signal transmission components. As a leading manufacturer of liquid silicone and addition curing silicone, we optimize the formula for ultra-high-precision quantum scenarios, enhancing low signal interference, high purity and environmental adaptability to adapt to the extreme precision, low-noise operation requirements of superconducting qubit amplifiers. Compared with epoxy potting resin, it has minimal volatile content, no exotherm during curing, low shrinkage, and absorbs thermal stress, ensuring long-term reliable operation of components in quantum computing, quantum communication and scientific research fields.
Key Features & Advantages
- Ultra-Low Signal Interference: Optimized formula with ultra-low dielectric loss and minimal electromagnetic interference, avoiding interference with superconducting qubit signals and amplifier operation, ensuring high-precision quantum signal amplification and stable transmission (critical for superconducting qubit amplifier performance).
- Superior Stability & Wide Temperature Adaptability: Stable performance from -60℃ to 220℃, withstanding extreme temperature fluctuations in quantum computing environments; effectively absorbing thermal stress generated by component operation, avoiding deformation of precision quantum parts and ensuring consistent signal amplification accuracy.
- High Insulation & Ultra-High Purity: High volume resistivity (≥1.0×10¹⁶ Ω·cm), excellent dielectric strength, isolating internal and external static and interference; minimal volatile content, no harmful residues, ensuring the cleanliness of internal precision superconducting components and avoiding quantum signal distortion.
- Precision Curing & Easy Operation: Adjustable weight mixing ratio, easy to proportion and stir; curable at room or heated temperatures, fully cured in 24 hours; optional vacuum degassing (0.01MPa for 3 minutes) to eliminate air bubbles, ensuring full penetration into tiny gaps of precision quantum components.
- Strong Adhesion & Customizability: Excellent adhesion to PC, PMMA, PCB, aluminum, copper and stainless steel, ensuring tight sealing of superconducting qubit amplifier components; as a professional Silicone Potting Compound manufacturer, we customize hardness, viscosity, operation time and interference resistance to match different superconducting qubit amplifier models.
How to Use
- Pre-Mix Preparation: Thoroughly stir Component A to evenly distribute settled fillers, and shake Component B vigorously to ensure uniformity, avoiding stratification that affects insulation and signal interference performance.
- Precision Mixing: Strictly follow the recommended weight ratio of Component A to B, stirring slowly and evenly to ensure full integration without air bubbles that cause signal distortion and affect quantum signal amplification precision.
- Degassing: After mixing, place the adhesive in a vacuum container at 0.01MPa for 3 minutes to eliminate air bubbles, ensuring full penetration into tiny gaps of superconducting qubit amplifier precision components.
- Curing: Pour the degassed mixture into component housings; cure at room temperature or heat to accelerate, enter the next process after basic curing, and ensure 24 hours of full curing. Note: Environment temperature and humidity significantly affect curing speed.
Application Scenarios
This specialized silicone potting compound is exclusively for Superconducting Qubit Amplifiers, including quantum computing superconducting amplifiers, quantum communication qubit amplifiers, and precision quantum amplifier modules. It is suitable for encapsulating superconducting qubits, amplifier modules and PCB substrates, ensuring stable operation in quantum computing centers, scientific research laboratories, and quantum communication systems. It enhances superconducting qubit amplifier signal amplification precision, extends service life in harsh environments, and is compatible with Rapid prototyping silicone to accelerate new quantum amplifier product R&D. Technical Specifications
Curing Type: Addition-Curing; Mix Ratio (A:B): Customizable (weight ratio); Appearance: Liquid (both components); Viscosity: Customizable (ultra-low option available); Hardness (Shore A): Customizable; Operating Temperature: -60℃ to 220℃; Dielectric Strength: ≥25 kV/mm; Volume Resistivity: ≥1.0×10¹⁶ Ω·cm; Dielectric Loss: Ultra-low; Volatility: Minimal; Curing Time: 24 hours (room temperature, heat-accelerated); Bonding Substrates: PC, PMMA, PCB, CPU, aluminum, copper, stainless steel; Compliance: EU RoHS; Shelf Life: 12 months. All key parameters are fully customizable.
Certifications & Compliance
Our Electronic Potting Compound complies with international precision quantum equipment, scientific research and safety standards: ISO 9001 (strict quality control), CE Certification, EU RoHS Directive, meeting global superconducting qubit amplifier safety and performance requirements, trusted by global quantum computing, scientific research and aerospace equipment procurement partners.
Customization Options
We provide superconducting qubit amplifier-specific tailored solutions: custom formulations (adjust signal interference resistance, viscosity and curing speed), ultra-low viscosity optimization for precision quantum component gaps, and small-batch packaging to meet large-scale production and R&D needs of quantum equipment manufacturers.
Production Process & Quality Control
We implement a 5-step strict quality control process: high-purity silicone raw materials screening, precision automated formulation mixing, performance testing (insulation, signal interference, adhesion), curing verification, and sealed packaging. Our monthly capacity exceeds 500 tons, supporting stable supply for global superconducting qubit amplifier orders. The product is non-hazardous, transportable as general chemicals, and has a 12-month shelf life when stored in a cool, dry place.
FAQ
Q: Is it suitable for quantum computing superconducting qubit amplifiers?
A: Yes, it has ultra-low signal interference, adapting to high-precision quantum signal amplification requirements.
Q: Will it affect quantum signal transmission?
A: No, its ultra-low dielectric loss ensures stable quantum signal transmission and precise amplification.
Q: What’s the curing time?
A: 24 hours at room temperature, heat-accelerated.
Q: Shelf life?
A: 12 months when sealed and stored properly.
Q: How to handle stratified colloid?
A: Stir evenly before use; performance remains unaffected.
Shenzhen Hong Ye Jie Technology Co., Ltd
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