DBST-1000 Up-Down Two-Zone Thermal Shock Test Chamber
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The Up-Down Two Zone Thermal Shock Chamber is engineered to evaluate the durability of products, components, and materials under extreme temperature transitions. This system features a dual-chamber design (high-temperature and low-temperature zones) with a movable basket that rapidly transitions samples between zones (≤10 seconds), simulating sudden thermal shocks.
The Up-Down Basket Thermal Shock Test Chamber features an up-down basket structure that enables rapid transfer of test samples between high-temperature and low-temperature zones, simulating extreme temperature shock environments. This chamber is capable of achieving a wide range of temperature differentials, ensuring precise and repeatable test conditions.
|Key Features:
Rapid Switching: ≤10 seconds transition time between -70℃ and +180℃.
High Precision: ±0.5℃ temperature stability and ±2℃ uniformity.
Customizable chamber sizes (e.g., 50L–2000L) and basket dimensions (e.g., 300×300×400mm to 1000×1000×1000mm).
Modular Design: Vertical basket movement for minimal mechanical stress on samples.
Triple safety systems: over-temperature protection, power overload detection, and emergency shutdown and leak-proof design with automatic pressure relief.
Energy Efficiency: Regenerative refrigeration system reduces energy consumption by 30% compared to traditional models.
User-friendly Interface: 7-inch touchscreen controller with programmable cycles (1–9999 cycles) and real-time data logging.
|Core Advantages:
✅ Space Efficiency: Vertical stacking design reduces lab footprint by 30% vs tranditional chambers.
✅ Customizable Configurations:Optional vibration integration for mechnical-environmental stress tests.
✅ Broad Applications: Validated for EV batteries (GB38031-2020), aerospace components (MIL-STD-810D), and consumer electronics.
| Application Scenarios
Electronics: Validate PCB thermal shock resistance in automotive dashboards
Energy: Test lithium battery performance under -40°C to +85°C cycles
Aerospace: Simulate stratospheric temperature fluctuations for satellite components
|Compliance Standards
IEC 60068-2-14 (Environmental Testing)
MIL-STD-810G (Mechanical Vibration)
GB/T 2423.22 (Temperature Cycling)
|Why Choose Us?
ISO 9001 Certified Manufacturer with 13+ years of R&D experience
Customizable Configurations: Support non-standard sizes and temperautre ranges per project needs.
Global Compliance: Meets IEC, GB, GJB, and UL standards
Global Recognition: Trusted by Fortune 500 companies and R&D labs worldwide.
The Up-Down Basket Thermal Shock Test Chamber features an up-down basket structure that enables rapid transfer of test samples between high-temperature and low-temperature zones, simulating extreme temperature shock environments. This chamber is capable of achieving a wide range of temperature differentials, ensuring precise and repeatable test conditions.
|Key Features:
Rapid Switching: ≤10 seconds transition time between -70℃ and +180℃.
High Precision: ±0.5℃ temperature stability and ±2℃ uniformity.
Customizable chamber sizes (e.g., 50L–2000L) and basket dimensions (e.g., 300×300×400mm to 1000×1000×1000mm).
Modular Design: Vertical basket movement for minimal mechanical stress on samples.
Triple safety systems: over-temperature protection, power overload detection, and emergency shutdown and leak-proof design with automatic pressure relief.
Energy Efficiency: Regenerative refrigeration system reduces energy consumption by 30% compared to traditional models.
User-friendly Interface: 7-inch touchscreen controller with programmable cycles (1–9999 cycles) and real-time data logging.
|Core Advantages:
✅ Space Efficiency: Vertical stacking design reduces lab footprint by 30% vs tranditional chambers.
✅ Customizable Configurations:Optional vibration integration for mechnical-environmental stress tests.
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FAQs
What temperature ranges do your test chambers support?
Our standard chambers cover -40°C to +150°C. Custom ranges (e.g., -70°C to +200°C) are available for specialized applications like aerospace or EV battery testing
Can you customize chambers for specific industries (e.g., automotive, aerospace)?
Yes. We design multi-zone chambers (e.g., triple-zone thermal shock) and integrate vibration tables for comprehensive testing. Recent projects include EV motor durability testing for OEMs
Have you worked with automotive clients?
Yes. We supplied thermal shock chambers to a leading EV battery manufacturer for -40°C to +85°C cycling tests. Results improved battery pack lifespan by 18%.
Do you offer on-site installation and training?
Yes. Our engineers provide full deployment support, including: 1.System setup and calibration 2.Operator training (2-3 day sessions) 3.Post-installation validation reports
What warranty coverage is included?
Standard warranty: 12 months (parts + labor). Extended options: Up to 36 months (additional 15% fee). Critical components (compressors, controllers) have extended MTBF ratings.
How do you handle chamber malfunctions?
24/7 remote support: Diagnostic access via IoT-enabled controllers. On-site repair: 4-hour response + 24 or 48-hours fix commitment in nearby cities
What payment terms do you accept?
T/T: 50% deposit, 50% before shipment. L/C: Available for orders ≥$30k. Flexible terms for long-term partners.
What is your lead time for standard vs. custom orders?
Standard units: 30–45 days after order confirmation. Custom builds: 60–90 days (includes 3D design review and prototyping).
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About US
Founded 2012 and located in Suzhou, Danble is a professional supplier specializing in the R&D, manufacturing, and sales of environmental test chambers and laboratory testing solutions.
Danble offer a full range of standard and custom-designed temperature test chambers can aid reliability testing by subjecting products to real-world climate and wear extremes like temperature, humidity, altitude, vibration, and more.
This seires of test chamber can simulate various extreme environments to test products. It has wide temperature & humidity range and high control accuracy, and can meet the GB and IEC related test standards.
This series are critical for evaluating products and materials ( EV batteries, assessing PCBs, semiconductors, consumer electronics) under extreme thermal stress conditions
This series has two( two-zone with a transfer basket to cycle samples) or three ( three-zone with isolation valves control airflow direction) zones structure, and supports high & low temperature shock and ambinent temperature test without reconfiguration.
The altitude test chamber (or high-altitude test chamber) is a specialized environmental simulation device designed to replicate conditions at elevated elevations, including low atmospheric pressure, reduced oxygen levels, and temperature extremes. These chambers are critical for validating the performance, safety, and reliability of products across industries such as aerospace, automotive, electronics, and defense
Combined with temperature, humidity and vibration functions, it can be applied to the performance indicators of aerospace products, auto parts, electronic infromation instruments and other samples under harsh comprehensive conditions.
SOLUTION
Semi-conductor
Given the high sensitivity of semiconductors to environmental factors, our solutions focus on accurate control of temperature and humidity. By maintaining a stable and clean testing environment, we help semiconductor manufacturers detect potential defects caused by environmental stress, safeguard product quality during manufacturing processes, and meet the stringent requirements of the semiconductor industry.
Our environmental test chambers can precisely simulate a wide range of conditions such as extreme temperatures (ranging from -70℃ to 180℃), humidity levels (10% - 98% RH), and even low - pressure or high - pressure environments. This enables thorough evaluation of battery performance, including thermal stability, cycle life, and safety under different scenarios, ensuring that batteries meet strict quality and reliability standards.
In the new energy sector, especially in solar and wind energy applications, our testing chamber can simulate real - world environmental conditions like strong sunlight, high wind, and changing temperatures. This allows for the assessment of the durability and performance of new energy devices, contributing to the development of more efficient and reliable clean energy solutions.
Automotive parts need to withstand various harsh environmental conditions during vehicle operation. Danbo's environmental testing solutions subject automotive components to temperature cycling, humidity exposure, and vibration tests. This helps automotive manufacturers ensure that parts can function properly in different climates and driving conditions, enhancing vehicle safety and reliability.
Given the high sensitivity of semiconductors to environmental factors, our solutions focus on accurate control of temperature and humidity. By maintaining a stable and clean testing environment, we help semiconductor manufacturers detect potential defects caused by environmental stress, safeguard product quality during manufacturing processes, and meet the stringent requirements of the semiconductor industry.
Our environmental test chambers can precisely simulate a wide range of conditions such as extreme temperatures (ranging from -70℃ to 180℃), humidity levels (10% - 98% RH), and even low - pressure or high - pressure environments. This enables thorough evaluation of battery performance, including thermal stability, cycle life, and safety under different scenarios, ensuring that batteries meet strict quality and reliability standards.
In the new energy sector, especially in solar and wind energy applications, our testing chamber can simulate real - world environmental conditions like strong sunlight, high wind, and changing temperatures. This allows for the assessment of the durability and performance of new energy devices, contributing to the development of more efficient and reliable clean energy solutions.
Automotive parts need to withstand various harsh environmental conditions during vehicle operation. Danbo's environmental testing solutions subject automotive components to temperature cycling, humidity exposure, and vibration tests. This helps automotive manufacturers ensure that parts can function properly in different climates and driving conditions, enhancing vehicle safety and reliability.
