Benthtop High & Low Temperature Chamber
* Lowest temperature: -70℃, -40℃, -25℃, -10℃
* It can be placed on desk.
* Screen:LCD touch screen with PID
* Working mode: Programmable, constant, fix timing
* Test data record: USB download
* Remote control: computer remotely control the chamber
* Test / Cable port: diameter 25mm or 50mm
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Model | Temperature Range | Capacity | Price (US$) |
ML0 | -3~130℃ | 30L | 750.00 |
WD005 | -5~150℃ | 60L | 1000.00 |
ML0P | -5~130℃ | 30L | 1,000.00 |
ML2P | -22~130℃ | 30L | 1,290.00 |
ML3P | -32~130℃ | 30L | 1,500.00 |
ML4P | -40~130℃ | 30L | 1,750.00 |
SW106 | -10~150℃ | 60L | 1,280.00 |
SW206 | -25~150℃ | 60L | 1,580.00 |
SW406 | -40~150℃ | 60L | 1,890.00 |
SW506 | -55~150℃ | 60L | 2,350.00 |
SW706 | -70~150℃ | 60L | 2,500.00 |
SW110 | -10~150℃ | 100L | 1,410.00 |
SW210 | -25~150℃ | 100L | 1,730.00 |
SW410 | -40~150℃ | 100L | 2,050.00 |
SW510 | -55~150℃ | 100L | 2,580.00 |
SW710 | -70~150℃ | 100L | 2,650.00 |
SW115 | -70~150℃ | 145L | 1,550.00 |
SW215 | -25~150℃ | 145L | 1,870.00 |
SW415 | -40~150℃ | 145L | 2,280.00 |
SW515 | -55~150℃ | 145L | 2,740.00 |
SW715 | -70~150℃ | 145L | 2,900.00 |
* Please contact us for more technical information or quotation.
* If you want to specially customize the chamber, please contact us.
Sales email: shjianheng@gmail.com
WeChat: +8613816088813
Benchtop low-temperature equipment, including cryostats, freezers, and temperature chambers, offers compact, efficient cooling solutions ideal for laboratory and industrial settings. Below are its key advantages and typical applications, within 500 words.
Space-Efficient Design: Compact footprint fits on lab benches, conserving valuable floor space—critical for small research facilities. Lightweight construction enables easy mobility between workstations.
Precision Temperature Control: Maintains stable, uniform low temperatures (-40°C to 4K) with minimal fluctuations, ensuring reliable experimental results. Advanced thermoelectric or closed-cycle refrigeration eliminates liquid nitrogen dependency, reducing costs and safety risks.
Cost-Effectiveness: Lower capital and operational expenses than large-scale cryogenic systems. Energy-efficient operation and reduced maintenance requirements minimize long-term costs.
User-Friendly Operation: Intuitive interfaces, automated controls, and remote monitoring capabilities simplify use, reducing training time. Integrated safety features (over-temperature alarms, emergency shutoffs) enhance operational security.
Versatility: Modular designs support diverse applications, from sample storage to material testing. Many models integrate with analytical instruments for seamless workflow integration.
Biomedical Research: Preserves cells, tissues, and biological samples to prevent protein denaturation. Facilitates cryosectioning for histopathology and rapid disease diagnosis. Supports cryopreservation of stem cells and vaccines.
Materials Science: Enables characterization of superconductors, quantum materials, and semiconductors at low temperatures. Tests material properties (conductivity, durability) under extreme conditions.
Electronics Testing: Evaluates performance of electronic components (chips, sensors) in cold environments, simulating aerospace or polar operating conditions.
Chemical Analysis: Stabilizes temperature-sensitive reactions in spectroscopy (Raman, FTIR) and chromatography. Controls viscosity and phase changes in polymer research.
Pharmaceutical Development: Conducts controlled-rate freeze-thaw studies for drug formulations. Supports stability testing of biologics under cold-chain conditions.
Benchtop low-temperature systems balance performance, convenience, and affordability, making them indispensable tools across scientific disciplines, accelerating research while maintaining high standards of precision and safety.
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