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    Super Low Temperature Thermostatic Bath

    Overview Products Knowledge Standards Terms
    The ultra-low temperature thermostat uses compressor cooling and heater adjustment to control the liquid in the tank within the range of -80℃ to 100℃. It is used for low-temperature performance testing of materials, sample preservation, and reaction experiments, ensuring temperature stability in testing within the coatings and plastics industries.
    Selection
    When selecting, consider that the temperature range should cover experimental requirements, the tank capacity should match sample dimensions, temperature control precision should meet standards, and cooling power should ensure rapid temperature reduction. Pay attention to the corrosion resistance of the tank material, the simplicity of the operation interface, and whether the equipment dimensions are suitable for the laboratory space.
    Temp Control Function
    Working Medium
    Product Style
    Min-TEMP
    Max-TEMP
    Temperature fluctuation
    Temp Stability
    Volume
    Circulation Mode
    Auxiliary Functions

    Terms

    Dry Type Low Temperature Thermostat
    Low temperature constant temperature bath
    High and Low Temperature Stirring Thermostatic Bath
    Cooling Thermostatic Bath
    Transparent Low Temperature Thermostat

    Standards

    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 32710.3-2016
    Safety requirements for environmental testing and conditioning equipment—Part 3: Refrigerated baths

    Instruments

    RONGHUA INSTRUMENT SHA-CAB Digital Frozen Water Bath Shaker Low Temperature Circulating Bath Combination
    RONGHUA INSTRUMENT SHA-CAB Digital Frozen Water Bath Shaker Low Temperature Circulating Bath Combination

    With water Bath thermostatic oscillation and low temperature refrigeration dual functions, thermostatic range 0-100 ℃, temperature accuracy +/- 0.5 ℃, support reciprocating oscillation and digital constant speed operation, suitable for a variety of sample fostering needs.

    $ 1027.00
    CNSHP CH1515 Super Thermostatic Bath Microcomputer temperature control Temperature fluctuation +/- 0.05 ℃
    CNSHP CH1515 Super Thermostatic Bath Microcomputer temperature control Temperature fluctuation +/- 0.05 ℃

    Temperature Fluctuation +/- 0.05 ℃, Display resolution 0.1 ℃, Pump Flow rate 10L/min, with breaking protection and over-temperature alarm function, can establish a second thermostatic field, durable stainless steel material.

    $ 627.00
    CNSHP CH1506 Super Thermostatic Bath intelligent temperature control +/- 0.05 ℃ Fluctuation
    CNSHP CH1506 Super Thermostatic Bath intelligent temperature control +/- 0.05 ℃ Fluctuation

    Microcomputer Intelligent Control system and imported PT100 temperature sensor, Temperature Fluctuation +/- 0.05 ℃, Display resolution 0.1 ℃, Pump Flow rate 8L/min, can establish a second thermostatic field, corrosion resistance and application temperature up to 300 ℃.

    $ 590.00
    CNSHP CH2015 Super Thermostatic Bath Microcomputer temperature control Temperature fluctuation +/- 0.05 ℃
    CNSHP CH2015 Super Thermostatic Bath Microcomputer temperature control Temperature fluctuation +/- 0.05 ℃

    Temperature Fluctuation +/- 0.05 ℃, Display resolution 0.1 ℃, Pump Flow rate 10L/min, with breaking protection and over-temperature alarm function, can establish a second thermostatic field, durable stainless steel material.

    $ 724.00
    SDPTOP CH1015B Super Thermostatic Bath Temperature Fluctuation +/- 0.05 ℃ Pump Flow rate 8L/min
    SDPTOP CH1015B Super Thermostatic Bath Temperature Fluctuation +/- 0.05 ℃ Pump Flow rate 8L/min

    Microcomputer precision thermostatic Control system, Temperature Fluctuation +/- 0.05 ℃, Pump Flow rate 8L/min, with break-even protection and over-temperature alarm function, the inner Tank and the box are made of stainless steel.

    $ 624.00
    CNSHP CH2006 Super Thermostatic Bath intelligent temperature control +/- 0.05 ℃ Fluctuation
    CNSHP CH2006 Super Thermostatic Bath intelligent temperature control +/- 0.05 ℃ Fluctuation

    Microcomputer Intelligent Control system and imported PT100 temperature sensor, Temperature Fluctuation +/- 0.05 ℃, Display resolution 0.1 ℃, equipped with circulating pump can establish a second thermostatic field, Operating temperature up to 200 ℃.

    $ 675.00
    SDPTOP 501 Super Thermostatic Bath precision temperature control +/- 0.05 ℃
    SDPTOP 501 Super Thermostatic Bath precision temperature control +/- 0.05 ℃

    Temperature Fluctuation +/- 0.05 ℃, Display resolution 0.1 ℃, Pump Flow rate 8L/min, with off-couple protection and over-temperature alarm function, internal/external circulation mode, Tank volume 20L.

    $ 399.00
    SDPTOP CH1515 Super Thermostatic Bath precision temperature control +/- 0.05 ℃
    SDPTOP CH1515 Super Thermostatic Bath precision temperature control +/- 0.05 ℃

    Temperature Fluctuation +/- 0.05 ℃, Pump Flow rate 8L/min, with breaking protection and over-temperature alarm function, domestic circulation design to ensure uniform and stable temperature.

    $ 624.00
    CNSHP CH1015 Super Thermostatic Bath microcomputer temperature control +/- 0.05 ℃ accuracy 15L volume
    CNSHP CH1015 Super Thermostatic Bath microcomputer temperature control +/- 0.05 ℃ accuracy 15L volume

    Microcomputer temperature control and PID adjustment technology, Temperature Fluctuation only +/- 0.05 ℃, Display resolution 0.1 ℃, equipped with 10L/min circulating pump, support internal and external circulation function, establish a stable second thermostatic field.

    $ 456.00
    SDPTOP CH2015 Super Thermostatic Bath precision temperature control +/- 0.05 ℃
    SDPTOP CH2015 Super Thermostatic Bath precision temperature control +/- 0.05 ℃

    Temperature Fluctuation +/- 0.05 ℃, Pump Flow rate 8L/min, with break protection and over-temperature alarm function, using Pt100 temperature sensor to ensure High Accuracy measurement.

    $ 698.00
    SDPTOP CH1006 Super Thermostatic Bath precision temperature control +/- 0.05 ℃
    SDPTOP CH1006 Super Thermostatic Bath precision temperature control +/- 0.05 ℃

    Temperature Fluctuation +/- 0.05 ℃, Display resolution 0.1 ℃, Pump Flow rate 8L/min, with break protection and over-temperature alarm function, internal/external circulation mode, Tank volume 6L.

    $ 399.00
    SDPTOP CH1015 Super Thermostatic Bath precision thermostatic Control system Temperature fluctuation +/- 0.05 ℃
    SDPTOP CH1015 Super Thermostatic Bath precision thermostatic Control system Temperature fluctuation +/- 0.05 ℃

    Imported PT100 temperature sensor, Temperature Fluctuation +/- 0.05 ℃, Display resolution 0.1 ℃, with couple break protection and over-temperature alarm function, Pump Flow rate 8L/min supports internal and external circulation.

    $ 425.00
    SDPTOP CHY1015 Super Thermostatic Bath precision temperature control +/- 0.05 ℃
    SDPTOP CHY1015 Super Thermostatic Bath precision temperature control +/- 0.05 ℃

    Temperature Fluctuation +/- 0.05 ℃, Pump Flow rate 8L/min, with LCD display and programmable function, support internal and external circulation, Tank volume 15L, stainless steel material.

    $ 624.00
    HONGHUA HH-601S Super thermostatic oil Bath, precision temperature control experimental oil Bath
    HONGHUA HH-601S Super thermostatic oil Bath, precision temperature control experimental oil Bath

    Temperature control accuracy of +/- 1 ℃, Temperature Uniformity +/- 1 ℃, equipped with imported pumps to ensure uniform temperature, strong corrosion resistance, compact structure, long service life.

    $ 522.00
    CNSHP CH3006 Super Thermostatic Bath Intelligent temperature control Temperature fluctuation +/- 0.05 ℃
    CNSHP CH3006 Super Thermostatic Bath Intelligent temperature control Temperature fluctuation +/- 0.05 ℃

    Microcomputer Intelligent Control system and imported PT100 temperature sensor, Temperature Fluctuation +/- 0.05 ℃, Display resolution 0.1 ℃, Pump Flow rate 8L/min, with broken couple protection and over-temperature alarm function, the inner Tank and the box are made of stainless steel material, wear resistance and corrosion resistance, application temperature up to 300 ℃.

    $ 858.00

    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.
    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.
    High and low temperature alternating test chamber for measuring low-temperature embrittlement temperature of plastics
    This article introduces how to use a high-low temperature alternating test chamber to determine the low-temperature brittleness temperature of plastics.
    Thermal shock test chamber measures the thermal shock resistance of polymer films.
    This article introduces how to test the thermal shock resistance of polymer films using a thermal shock test chamber. The test involves rapidly switching the film between high and low temperatures to simulate the drastic temperature changes that may occur in actual use, thereby generating thermal stress within the material.
    Thermal Shock Test Chamber Measures Film's Temperature Change Resistance
    The thermal shock test chamber creates thermal stress inside the film by rapidly switching between high and low temperature environments, testing its resistance to temperature changes. During the test, key parameters such as temperature range and dwell time need to be set, and the film is observed for issues such as cracking or performance degradation.
    Flash point tester for determination of closed cup flash point of varnish
    This article introduces the method for determining the closed-cup flash point of varnish using a flash point tester. The flash point refers to the minimum temperature at which the vapor on the surface of the varnish ignites momentarily when exposed to a flame after heating. It is a crucial indicator for assessing the fire risk during its production, storage, and transportation.
    Thermal Shock Test Chamber Evaluates Coating Thermal Stability
    The thermal shock test chamber simulates sudden temperature changes by rapidly switching between high and low temperature environments, used to evaluate the thermal stability of coatings. In practical applications, coatings may develop internal stresses due to drastic temperature fluctuations, leading to issues such as cracking and peeling.
    The necessity of explosion-proof high and low temperature test chambers in lithium battery testing
    Lithium batteries pose a risk of thermal runaway or even explosion when tested under extreme temperatures. Explosion-proof high-low temperature test chambers, designed with pressure relief structures, explosion-proof electrical components, and intelligent monitoring systems, can safely release energy and ensure the safety of the testing process.
    Key Points for Selecting Low-Temperature Test Chambers in Rubber and Plastic Brittleness Temperature Testing
    In the testing of brittle temperature for rubber and plastics, the selection of a low-temperature test chamber must ensure testing accuracy. When choosing the equipment, it is essential to consider various parameters comprehensively based on the requirements of the testing standards.
    The flash point tester measures the safety baseline value of the solvent.
    The flash point refers to the minimum temperature at which the vapor of a flammable liquid can be ignited. It is not a fixed value but depends on the testing method and instrument. Data measured by flash point testers serve as a critical basis for evaluating the fire risk of solvents and establishing standards for safe storage and operation.
    Safety Regulations for Closed Cup and Open Cup Methods for Testing the Flash Point of Coatings.
    This article introduces two main testing methods for the flash point of coatings: the closed-cup method and the open-cup method. The flash point refers to the lowest temperature at which the vapor of a coating momentarily ignites upon encountering an open flame, serving as a critical indicator for assessing the risk of fire and explosion.
    Tensile Testing Machine Evaluates High and Low Temperature Tensile Properties of Hot Melt Adhesive
    This article introduces how to use a tensile testing machine to test the tensile properties of hot-melt adhesives at different temperatures. The performance of hot-melt adhesives varies with temperature: they may soften at high temperatures and become brittle at low temperatures.
    The essential difference between thermal shock test chambers and high-low temperature alternating test chambers.
    Both thermal shock test chambers and temperature cycling test chambers are used to test the temperature resistance of products, but their core differences lie in the method and purpose of temperature change.