Quiet Operation Thermal Shock Chambers: Low Noise Design for Lab
EnvironmentsOur Quiet Operation Thermal Shock Chambers are specifically engineered to provide rapid and extreme
temperature cycling while maintaining a low noise profile, making them ideal for laboratory and research environments where
quiet operation is critical. These chambers feature an advanced
design focused on noise reduction, ensuring minimal disruption
without compromising their ability to deliver precise and rapid
thermal shocks. Perfect for testing sensitive components and
systems in R&D labs, academic institutions, and quiet testing
facilities, our chambers efficiently uncover product weaknesses
while preserving a conducive work atmosphere. Key Features- Low Noise Design: Incorporates advanced acoustic insulation, optimized compressor
mounting, and quiet fan technologies to significantly reduce
operational noise levels.
- Rapid Temperature Change Rates: Capable of achieving extremely fast temperature transitions
between hot and cold zones, simulating severe thermal shocks for
accelerated testing.
- Precise Temperature Control & Uniformity: Advanced control systems ensure stable and uniform temperature
conditions within each zone, crucial for accurate and repeatable
test results.
- Two-Zone (or Multi-Zone) Configuration: Utilizes physically separated hot and cold chambers with an
automated mechanical lift for swift and precise sample transfer.
- Stainless Steel Interior: High-grade stainless steel construction ensures durability,
corrosion resistance, and easy cleaning, suitable for demanding lab
use.
- Comprehensive Data Logging: Continuously records temperature profiles, transfer times, and
test cycles, providing thorough documentation for analysis and
reporting.
- User-Friendly Interface: Intuitive touchscreen controls and software simplify test
programming, real-time monitoring, and data export.
- Energy Efficiency: Optimized refrigeration and heating systems, combined with
superior insulation, ensure efficient operation while keeping noise
levels down.
- Safety Features: Equipped with multiple interlocks, over-temperature protection,
and alarms to safeguard both the equipment and the test samples.
Applications- R&D Laboratories: Ideal for early-stage product development and material
characterization where quiet operation is essential.
- Academic Institutions: Suitable for scientific research and educational purposes
requiring precise and rapid thermal cycling without disruption.
- Electronics & Semiconductor Labs: Testing sensitive components like ICs, sensors, and PCBs to
identify thermal fatigue and connection issues.
- Medical Device Development: Durability testing of devices exposed to rapid temperature
variations in a quiet environment.
- Small Batch Production & Quality Control: Perfect for applications where thermal shock testing is needed
without excessive noise pollution.
- Optoelectronics & Photonics: Evaluating the stability of optical components under rapid thermal
changes.
Benefits- Conducive Lab Environment: Significantly reduced noise levels ensure a comfortable and
productive workspace.
- Accelerated Product Development: Rapidly identifies design flaws and potential failure modes,
speeding up time-to-market.
- Enhanced Product Reliability: Guarantees products perform robustly in environments with frequent
and severe temperature changes.
- Accurate & Repeatable Testing: Delivers precise results critical for detailed analysis and
validation.
- Long-Term Durability: Robust construction ensures reliable performance over many years
of intensive use.
- Cost-Effective Operation: Energy-efficient design helps manage running costs.
Specifications| Model | TSC-49-3 | TSC-80-3 | TSC-150-3 | TSC-216-3 | TSC-512-3 | TSC-1000-3 | | Inside dimension(W x D x H) cm | 40 x 35 x 35 | 50 x 40 x 40 | 65x 50 x 50 | 60 x 60 x 60 | 80 x 80 x 80 | 100 x 100 x 100 | | Outside dimension(W x D x H)cm | 128x 190 x 167 | 138 x 196 x 172 | 149 x 192 x 200 | 158 x 220 x 195 | 180 x 240 x 210 | 220 x 240x 220 | | Internal material | #304 Stainless Steel | | External material | Powder coated #304 Stainless Steel | | High temperature range | 60 ℃ ~ 200 ℃ | | Low temperature range | 0 ℃ ~ -70 ℃ | | Test temperature range | 60 ℃ ~ 180 ℃ / 0 ℃ ~ -70 ℃ | | Temperature recovery time | 1-5min | | Temperature stability ℃ | ±2 | | Cylinder switching time | 10s | | High temperature ℃ | 150 | 150 | 150 | 150 | 150 | 150 | | Heating time (min) | 20 | 30 | 30 | 30 | 30 | 30 | | Low temperature | -40, -50, -65 | -40, -50, -65 | -40, -50, -65 | -40, -50, -65 | -40, -50, -65 | -40, -50, -65 | | Cooling time (min) | 40, 50, 60 | 40, 50, 60 | 40, 50, 60 | 40, 50, 60 | 40, 50, 60 | 40, 50, 60 | | Air circulation system | Mechanical convection system | | Cooling system | Imported compressor, fin evaporator, gas condenser | | Heating system | Fin heating system | | Humidification system | Steam Generator | | Humidification water supply | Reservoir, Sensor-controller solenoid valve, recovery-recycle
system | | Controller | Touch panel | | Electrical power requirements | 3 phase 380V 50/60 Hz | | Safety device | Circuit system load protection, compressor load protection, control
system load protection, humidifier load protection, overtemperature
load protection, fault warning light |
Seeking a thermal shock chamber that performs powerfully yet
quietly in your laboratory? Contact our experts today to discuss
your requirements for a Quiet Operation Thermal Shock Chamber and ensure your product reliability without disrupting your
workspace. |
