CATEGORIES

    Temperature Uniformity Bath

    Overview Products Knowledge Standards Terms
    The constant temperature bath maintains a constant temperature of the liquid inside the tank through heating or cooling systems, and is used for calibrating thermometers and stabilizing sample temperatures. In the laboratory, it provides a constant temperature environment for instruments such as viscometers and densitometers, ensuring stable detection data.
    Selection
    When selecting a constant temperature bath, consider the temperature range and fluctuation index to match common testing temperatures. The bath size should accommodate the specifications of the samples to be tested, paying attention to the diameter and depth of the bath opening. Focus on the influence of heating power and cooling methods on heating and cooling speeds. Review safety protections and the design of the operation interface.
    Temp Control Function
    Working Medium
    Product Style
    Min-TEMP
    Max-TEMP
    Temperature fluctuation
    Temp Stability
    Volume
    Circulation Mode
    Auxiliary Functions

    Terms

    Magnetic Stirring Constant Temperature Bath
    Refrigerated Stirring Thermostat Bath
    Constant temperature bath
    Heating and Cooling Thermostat Bath
    Dry Type Low Temperature Thermostat
    Refrigeration Thermostat
    Electric Thermostatic Bath
    Thermoelectric Refrigeration Constant Temperature Bath
    Laboratory Dry Block Heater
    Transparent Low Temperature Thermostat

    Standards

    Active GB/T 7921-2008
    Uniform color space and color difference formula
    Active GB/T 30789.3-2014
    Paints and varnishes—Evaluation of degradation of coatings—Designation of quantity and size of defects ,and of intensity of uniform changes in appearance—Part 3: Assessment of degree of rusting
    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
    Active GB/T 32710.3-2016
    Safety requirements for environmental testing and conditioning equipment—Part 3: Refrigerated baths
    Active GB/T 32710.5-2016
    Safety requirements for environmental testing and conditioning equipment—Part 5: Heating baths
    Active GB/T 30789.4-2015
    Paints and varnishes—Evaluation of degradation of coatings—Designation of quantity and size of defects ,and of intensity of uniform changes in appearance—Part 4: Assessment of degree of cracking
    Active GB/T 30789.5-2015
    Paints and varnishes—Evaluation of degradation of coatings—Designation of quantity and size of defects,and of intensity of uniform changes in appearance—Part 5: Assessment of degree of flaking
    Active GB/T 30789.1-2015
    Paints and varnishes—Evaluation of degradation of coatings—Designation of quantity and size of defects ,and of intensity of uniform changes in appearance—Part 1: General introduction and designation system
    Active GB/T 21881-2015
    Acid dyes—Determination of levelling properties
    Active GB/T 30789.8-2015
    Paints and varnishes—Evaluation of degradation of coatings—Designation of quantity and size of defects ,and of intensity of uniform changes in appearance—Part 8: Assessment of degree of delamination and corrosion around a scribe or other artificial defect
    Active GB/T 30789.7-2015
    Paints and varnishes—Evaluation of degradation of coatings—Designation of quantity and size of defects,and of intensity of uniform changes in appearance—Part 7: Assessment of degree of chalking by velvet method
    Active GB/T 30789.6-2015
    Paints and varnishes—Evaluation of degradation of coatings—Designation of quantity and size of defects,and of intensity of uniform changes in appearance—Part 6: Assessment of degree of chalking by tape method

    Instruments

    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
    NELE GDH-3010 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution +/- 0.0050 ℃ uniformity
    NELE GDH-3010 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution +/- 0.0050 ℃ uniformity

    The heat-free centrifugal circulation pump is used to avoid its own heat generation affecting the temperature field, and the U-shaped return design realizes turbulence and high uniformity, with Temperature Uniformity +/- 0.0050 ° C and resolution of 0.0001 ° C.

    $ 1685.00
    Shangtian Jingyi DC-4015 Low Temperature Circulating Bath Temperature range -40~ 100 ℃ Temperature Uniformity +/- 0.05 ℃
    Shangtian Jingyi DC-4015 Low Temperature Circulating Bath Temperature range -40~ 100 ℃ Temperature Uniformity +/- 0.05 ℃

    Temperature range -40~ 100 ℃, Temperature Uniformity +/- 0.05 ℃, using non-heat centrifugal circulation pump and U-shaped return circulation design, to ensure that the temperature field is highly uniform, support multi-stage program control.

    $ 3404.00
    NELE GDH-3030 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution +/- 0.0050 ℃ uniformity
    NELE GDH-3030 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution +/- 0.0050 ℃ uniformity

    The heat-free centrifugal circulation pump is used to avoid its own heat generation affecting the temperature field, and the U-shaped return design realizes turbulence and high uniformity, with Temperature Uniformity +/- 0.0050 ° C and resolution of 0.0001 ° C.

    $ 3541.00
    NELE GDH-1030 Ultra high accuracy Low Temperature Circulating Bath Temperature Uniformity +/- 0.0050 ℃
    NELE GDH-1030 Ultra high accuracy Low Temperature Circulating Bath Temperature Uniformity +/- 0.0050 ℃

    Temperature Uniformity of +/- 0.0050 ℃, resolution of 0.0001 ℃, U-shaped reflux cycle design to ensure uniform flow field, no heat centrifugal pump to avoid their own heat impact temperature field, with multiple Safety protection functions.

    $ 2420.00
    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-3020 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution +/- 0.0050 ℃ uniformity
    NELE GDH-3020 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution +/- 0.0050 ℃ uniformity

    Adopt PID automatic temperature control program, Temperature Uniformity +/- 0.0050 ℃, resolution up to 0.0001 ℃. No heat centrifugal circulation pump to avoid its own heat effect temperature field, equipped with multiple Safety protection devices.

    $ 2555.00
    NELE GDH-6010 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution +/- 0.0050 ℃ uniformity
    NELE GDH-6010 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. The U-shaped return design realizes a high degree of uniformity in the flow field and temperature field. Temperature resolution reaches 0.0001 ° C, uniformity +/- 0.0050 ° C, and has multiple Safety protection functions.

    $ 5307.00
    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
    Shangtian Jingyi DHC-1010 High and Low Temperature Circulating Bath Temperature range -10~ 160 ℃ Temperature Uniformity +/- 0.05 ℃
    Shangtian Jingyi DHC-1010 High and Low Temperature Circulating Bath Temperature range -10~ 160 ℃ Temperature Uniformity +/- 0.05 ℃

    Temperature range -10~ 160 ℃, Temperature Uniformity +/- 0.05 ℃, using non-heat centrifugal circulation pump and U-shaped return circulation design, to ensure that the temperature field is highly uniform, the shell anti-aging static spray, liner 304 stainless steel.

    $ 1468.00
    NELE GDH-5006 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution +/- 0.0050 ℃ uniformity
    NELE GDH-5006 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 highly uniform temperature distribution, Temperature Uniformity +/- 0.0050 ℃, with multiple Safety protection functions.

    $ 3657.00
    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-4020 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution +/- 0.0050 ℃ uniformity
    NELE GDH-4020 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 0.0001 ℃ high resolution display and multiple Safety protection functions.

    $ 4114.00
    NELE GDH-3015 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution +/- 0.0050 ℃ uniformity
    NELE GDH-3015 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 and multiple Safety protection functions.

    $ 2134.00
    NELE GDH-0550 Ultra high accuracy Low Temperature Circulating Bath 0.0001 ℃ resolution +/- 0.0050 ℃ uniformity
    NELE GDH-0550 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 and multiple Safety protection functions.

    $ 3030.00

    Articles

    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.
    Optimization of mixing efficiency of vortex mixer in liquid-liquid microextraction
    This paper explores how to enhance mixing efficiency in liquid-liquid microextraction by adjusting the operating parameters of a vortex mixer.
    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.
    Improving Efficiency with Vortex Mixers in Biological Sample Pre-treatment
    This article primarily discusses how vortex mixers enhance the efficiency of biological sample pretreatment. By generating a vortex motion through an electric motor, they enable rapid and uniform mixing of liquids, saving time and delivering better results compared to traditional manual methods.
    Rotation Speed of Sample Rack in Hot Air Aging Test Chamber on Color Fastness of Textiles
    This article explores the influence of the rotation speed of sample racks in a hot air aging test chamber on the color fastness testing of textiles. The rotation speed affects the flow of hot air and temperature uniformity inside the chamber, thereby altering the heating conditions of the samples and leading to variations in color fastness results.
    Temperature uniformity of high-temperature aging test chamber for UV resistance testing of inks
    This article discusses how the temperature uniformity of high-temperature aging test chambers affects the accuracy of ink UV resistance testing. Temperature uniformity refers to the deviation in temperature at various points inside the chamber, with smaller deviations leading to more reliable test results.
    Application of Automatic Coating Machines in the Preparation of Ceramic Coatings for Lithium-Ion Battery Separators
    This article discusses the application of automatic film coating machines in the preparation of ceramic coatings for lithium battery separators. Traditional manual coating methods often result in uneven coatings, which can adversely affect battery performance.
    Automatic coating machines are used for the uniform application of conductive silver paste onto ITO glass.
    This article explores the technique of uniformly coating conductive silver paste on ITO glass using an automatic coating machine. By controlling parameters such as coating speed and pressure, the automatic coating machine replaces traditional manual methods, thereby enhancing the consistency and repeatability of the coating process.
    Application of Automatic Film Coating Machine in Waterproof Coating Finishing of Textiles
    Automatic film coating machines are used for waterproof coating finishing on textiles, enabling precise control of coating thickness, improving uniformity and production efficiency.
    Study on the Dispersion Uniformity of Blade Coating Machines in High-Load Electrode Slurry Coating
    This article investigates how to optimize the dispersion uniformity of coatings by adjusting process parameters when using a blade coater to handle high-load electrode slurries.
    Test card paper for coatings is used for evaluating the appearance and film thickness consistency of coatings.
    Coating test card is an integrated testing tool used to evaluate the appearance and film thickness uniformity of coatings.
    Differential Scanning Calorimetry for Measuring the Melting Temperature of Thin Films
    Differential scanning calorimetry analyzes thermal transitions in materials by measuring the heat flow difference between the sample and a reference. When determining the melting temperature of thin films, the sample must be uniformly prepared, with a mass between 3 and 10 milligrams. Testing is typically conducted at heating rates ranging from 5 to 20°C/min under a nitrogen protective atmosphere.
    Mechanical thickness gauge for measuring film thickness uniformity.
    The mechanical thickness gauge assesses the uniformity of film thickness through contact measurement. During measurement, the probe contacts the sample under standard pressure, converting displacement into a thickness reading.
    Blade-coating preparation of hole transport layers for perovskite solar cells.
    This article introduces the method of preparing the hole transport layer for perovskite solar cells using the doctor-blade coating technique. The doctor-blade coating method involves spreading the solution evenly on the substrate with a blade to form a thin film, making it suitable for large-scale production.