CATEGORIES

    High-Low Temperature Circulating Bath Pot

    Overview Products Knowledge Standards Terms
    The high-low temperature circulating water bath regulates the temperature of the liquid in the tank through its heating and cooling system, while the circulation pump facilitates the flow of the liquid between devices to transfer heat. It is used for testing material performance under varying temperature conditions, such as paint curing and plastic temperature resistance experiments.
    Selection
    When selecting, consider that the temperature range should cover experimental needs, the temperature control accuracy should meet standards, the tank capacity should match the sample size, the circulation flow rate should align with heat exchange requirements, the material's corrosion resistance should suit the working medium, and safety protection should include over-temperature protection.
    type
    Number of holes
    volume
    Constant temperature fluctuation
    specific function

    Terms

    Three-Purpose Constant Temperature Water Bath
    Chlorine Dioxide Detector
    Transparent Refrigerated Constant Temperature Bath
    Temperature and Humidity Cycling Test Chamber
    Constant Temperature Oil Bath
    Fatigue testing
    Internal circulation water bath
    Low-temperature circulating cooling pump
    Blower Drying Oven
    Three-hole constant temperature circulation bath

    Standards

    Active GB/T 41931-2022
    Plastics/rubber—Polymer dispersions and synthetic rubber latices—Freeze-thaw cycle stability test
    Active GB/T 13477.14-2019
    Test method for building sealants-Part 14:Determination of resistance to prolonged exposure to water
    Active GB/T 41753-2022
    Test method for durability to extension compression cycling under accelerated weathering for sealants
    Active GB/T 42261-2022
    Metallic and other inorganic coatings—Test method of cyclic heating for thermal-barrier coatings under temperature gradient
    Active GB/T 2317.3-2008
    Test method for electric power fittings - Part 3: Heat cycle tests for electric power fittings
    Active GB/T 23711.5-2019
    Test method for pressure vessels lined with plastics—Part 5:Cold-hot cycling inspection
    Active GB/T 13477.12-2018
    Test method for building sealants-Part 12:Determination of adhesion/cohesion properties at constant temperature
    Active GB/T 9966.2-2020
    Test methods for natural stone—Part 2:Determination of dry,wet and after freezing flexural strength
    Active GB/T 9966.1-2020
    Test methods for natural stone—Part 1:Determination of dry,wet and after freezing compressive strength
    Active GB/T 13477.23-2022
    Test method for building sealants—Part 23:Durability to extension compression cycling under accelerated weathering
    Active GB/T 2423.4-2008
    Environmental testing for electric and electronic products - Part 2: Test method - Test Db: Damp heat,cyclic ( 12h+12h cycle)
    Active GB/T 26809-2011
    Thermostatic baths and circulators - Refrigerated circulators
    Active GB/T 26808-2011
    Thermostatic baths and circulators - Refrigerated baths
    Active GB/T 28853-2012
    Thermostatic baths and circulators - Heated circulators
    Active GB/T 28850-2012
    Thermostatic baths and circulators - Heated liquid baths

    Instruments

    NELE GDH-2015 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution +/- 0.0050 ℃ uniformity
    NELE GDH-2015 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution +/- 0.0050 ℃ uniformity

    The non-heat centrifugal circulating pump is used to avoid its own heat generation affecting the temperature field, and the U-shaped return design realizes a high degree of uniformity in the temperature field, with a temperature control accuracy of +/- 0.0050 ° C. It has multiple safety functions of low water level protection and Compressor.

    $ 1837.00
    NELE GDH-1020 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ Temperature resolution
    NELE GDH-1020 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ Temperature resolution

    The non-heat centrifugal circulating pump is used to avoid its own heat generation affecting the temperature field, with a Temperature Uniformity of +/- 0.0050 ° C, and multiple safety functions such as low water level protection and temperature runaway alarm.

    $ 1927.00
    NELE GDH-60100 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ Temperature Control
    NELE GDH-60100 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ Temperature Control

    The non-heat centrifugal circulating pump is used to avoid its own heat generation affecting the temperature field. Temperature Uniformity reaches +/- 0.0050 ℃, with low water level protection and temperature runaway alarm function to ensure the safety and stability of the experiment.

    $ 14703.00
    NELE GDH-1015 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution
    NELE GDH-1015 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution

    Adopt non-heat centrifugal circulating pump to avoid its own heat generation affecting the temperature field, Temperature Uniformity +/- 0.0050 ℃, with low water level protection and temperature runaway alarm and other safety functions, accurate and stable temperature control.

    $ 1703.00
    NELE GDH-6030 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ Temperature resolution
    NELE GDH-6030 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ Temperature resolution

    The non-heat centrifugal circulating pump is used to avoid its own heat generation affecting the temperature field, and the U-shaped return design realizes Temperature Uniformity +/- 0.0050 ℃, with low water level protection and Compressor multiple safety protection functions.

    $ 7243.00
    NELE GDH-0530 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution +/- 0.0050 ℃ uniformity
    NELE GDH-0530 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution +/- 0.0050 ℃ uniformity

    The non-heat centrifugal circulating pump is used to avoid its own heat generation affecting the temperature field, and the U-shaped return design realizes turbulence and high uniformity, Temperature Uniformity +/- 0.0050 ℃, with multiple safety functions such as low water level protection and temperature loss protection.

    $ 2160.00
    NELE GDH-0506 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ Temperature resolution
    NELE GDH-0506 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ Temperature resolution

    The non-heat centrifugal circulating pump is used to avoid its own heat generation affecting the temperature field. Temperature Uniformity reaches +/- 0.0050 ℃, with low water level protection and anti-dry burning functions, to ensure the safe and stable operation of the experiment.

    $ 1335.00
    NELE GDH-0510 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ Temperature resolution
    NELE GDH-0510 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ Temperature resolution

    Adopt non-heat centrifugal circulating pump to avoid its own heat generation affecting the temperature field, Temperature Uniformity +/- 0.0050 ℃, integrated PID automatic temperature control and High Accuracy PT100 Sensor to ensure stability and accuracy.

    $ 1408.00
    NELE GDH-6020 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution +/- 0.0050 ℃ uniformity
    NELE GDH-6020 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution +/- 0.0050 ℃ uniformity

    The non-heat centrifugal circulating pump is used to avoid its own heat generation affecting the temperature field, U-shaped return design to achieve turbulence and high uniformity, Temperature Uniformity +/- 0.0050 ℃, resolution 0.0001 ℃, with low water level protection and Compressor multiple safety functions.

    $ 6275.00
    NELE GDH-2030 Ultra high accuracy Low Temperature Circulating Bath Temperature Uniformity +/- 0.005 ℃
    NELE GDH-2030 Ultra high accuracy Low Temperature Circulating Bath Temperature Uniformity +/- 0.005 ℃

    Adopt non-heat centrifugal circulating pump to avoid its own heat generation affecting the temperature field, Temperature Uniformity of +/- 0.0050 ℃, equipped with PID automatic temperature control program and High Accuracy PT100 Sensor to ensure accurate and stable temperature control.

    $ 2600.00
    NELE GDH-2050 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution +/- 0.0050 ℃ uniformity
    NELE GDH-2050 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution +/- 0.0050 ℃ uniformity

    The non-heat centrifugal circulating pump is adopted to avoid its own heat generation affecting the temperature field. The U-shaped return design realizes Temperature Uniformity +/- 0.0050 ℃, and has multiple safety functions such as low water level protection and temperature loss alarm.

    $ 3765.00
    NELE GDH-50100 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution +/- 0.0050 ℃ uniformity
    NELE GDH-50100 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution +/- 0.0050 ℃ uniformity

    The non-heat centrifugal circulating pump is used to avoid its own heat generation affecting the temperature field, and the U-shaped return design realizes Temperature Uniformity +/- 0.0050 ℃, with low water level protection and Compressor multiple protection functions.

    $ 11564.00
    NELE GDH-1006 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution +/- 0.0050 ℃ uniformity
    NELE GDH-1006 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution +/- 0.0050 ℃ uniformity

    The non-heat centrifugal circulating pump is used to avoid its own heat generation affecting the temperature field, integrates PID automatic temperature control program, Temperature Uniformity +/- 0.0050 ℃, and has multiple safety functions such as low water level protection and temperature loss alarm.

    $ 1416.00
    NELE GDH-5030 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ Temperature resolution
    NELE GDH-5030 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ Temperature resolution

    The non-heat centrifugal circulating pump is used to avoid its own heat generation affecting the temperature field. Temperature Uniformity reaches +/- 0.0050 ° C. It has safety functions such as low water level protection and temperature runaway alarm to ensure the stability and reliability of the experimental process.

    $ 6070.00
    NELE GDH-4006 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution +/- 0.0050 ℃ uniformity
    NELE GDH-4006 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution +/- 0.0050 ℃ uniformity

    The non-heat centrifugal circulating pump is used to avoid its own heat generation affecting the temperature field, and the U-shaped return design realizes the high uniformity of the flow field temperature field, Temperature Uniformity +/- 0.0050 ℃, with multiple Safety protection functions.

    $ 2303.00

    Articles

    Application of High-Frequency Fatigue Testing Machine in Infinite Life Testing of Valve Springs
    This article discusses the application of high-frequency fatigue testing machines in the infinite life testing of valve springs. The test simulates the long-term working stress of the spring through high-frequency cyclic loading, with parameters such as preload, amplitude, and cycle count set according to international standards.
    Constant temperature bath selection: circulation method and temperature control range.
    This article on thermostatic bath selection primarily analyzes two core factors: circulation mode and temperature control range. The circulation mode is divided into natural convection and forced circulation, where the former is suitable for simple static experiments, while the latter offers higher precision and is better suited for multiple samples or integration with external devices.
    Rapid temperature change high and low temperature test chamber for thermal fatigue evaluation of PCB board solder joints.
    This paper discusses the application of rapid temperature change high and low temperature test chambers in evaluating the thermal fatigue of PCB board solder joints. Solder joint fatigue is primarily caused by differences in material thermal expansion, and the test chamber simulates thermal stress through temperature cycling to accelerate the fatigue process.
    Application of Three-Chamber High and Low Temperature Test Chambers in Rapid Temperature Cycling for Electronic Products
    The three-chamber high-low temperature test chamber is used for reliability testing of electronic products, enabling rapid temperature transitions through independent high temperature, low temperature, and test zones. Compared to traditional single-chamber equipment, it reduces temperature change time and enhances testing efficiency.
    Application of Transparent Constant Temperature Water Bath in Visualization of Material Thermal Deformation
    The constant temperature water bath provides a stable environment for observing the deformation of materials after heating by maintaining a constant and uniform temperature of the liquid medium.
    The impact of temperature uniformity in laboratory water baths on viscosity measurement
    This article discusses the importance of temperature uniformity in laboratory water baths for viscosity measurement. Viscosity is highly sensitive to temperature variations, and uneven temperature distribution within the water bath can lead to deviations in measurement results.
    The Impact of Cooling Circulating Water Chillers on the Temperature Stability of Digesters
    The cooling circulator helps maintain a stable temperature for the digester by circulating the cooling medium, thereby improving the repeatability of experiments. Its working principle involves using a refrigeration system to lower the water temperature, and then circulating the cooled water to the digester through a circulation pump to absorb excess heat.
    Effect of Rapid Temperature Change Aging Chamber on Thermal Cycling of Composite Materials
    This article primarily explores how rapid thermal cycling chambers affect the performance of composite materials during thermal cycling. It explains that thermal cycling can induce internal stresses in composite materials due to differences in the thermal expansion coefficients of their components, potentially leading to microcracks or performance degradation.
    Salt spray aging test chamber for cyclic corrosion evaluation of coating weatherability.
    This article introduces the method of using a salt spray aging test chamber to conduct cyclic corrosion tests for evaluating the weather resistance of coatings.
    Tensile testing machine measures the bending fatigue life of flexible OLED films.
    This article introduces a method for testing the bending fatigue life of flexible OLED films using a tensile testing machine. The test simulates repeated bending to evaluate the accumulation of damage in the film under cyclic stress, and monitors performance changes to determine the failure point.
    Fatigue testing machine evaluates the long-term durability of resin-based composite materials.
    The fatigue testing machine is a key piece of equipment for evaluating the long-term durability of resin-based composite materials. These materials are widely used in fields such as aerospace, but their performance gradually degrades under cyclic loading.
    The Taber Abraser evaluates the wear resistance of coatings.
    The Taber abrasion tester simulates surface wear of materials through rotational friction, used to evaluate the wear resistance of coatings. During testing, a grinding wheel is used to rub the specimen under a fixed load, and performance is quantified by measuring mass loss or thickness changes after a specified number of cycles.
    UV aging test machine evaluates the UV resistance of ink.
    This article introduces how to test the UV resistance of ink using a UV aging test chamber. The equipment accelerates aging by simulating ultraviolet light and controlling temperature and humidity, with key testing conditions including temperature, irradiance, and cycle time.
    Constant Temperature Water Bath Controls the Temperature Sensitivity of Resin Viscosity
    The constant temperature water bath can provide a stable temperature environment for studying the characteristics of resin viscosity as it changes with temperature.
    Application of Laboratory Coating Machines in the Preparation of Lithium Battery Electrodes
    As a key device for achieving uniform coating of active material slurries onto current collectors, the application of laboratory coating machines directly influences the areal density consistency, thickness uniformity, and microstructure formation of electrodes, thereby affecting the energy density, cycle life, and safety of batteries.