CATEGORIES

    Compact Low-Temperature Drying Oven

    Overview Products Knowledge Standards Terms
    The small low-temperature drying oven generates and maintains a temperature of 40-100℃ through heating elements and a temperature control system, combined with a fan to circulate air inside the chamber, accelerating the evaporation of moisture or solvents from samples. It is used in laboratories for gentle drying of heat-sensitive materials, chemicals, electronic components, and other items to avoid damaging the properties of the samples due to high temperatures.
    Selection
    When selecting, consider matching the sample's temperature resistance range with the temperature uniformity of the chamber. Determine the internal chamber size based on the sample volume. Choose stainless steel or galvanized steel material according to the material's corrosion resistance. Pay attention to temperature fluctuation and deviation parameters, and reserve 20% of the capacity to accommodate the placement of different containers.
    Style
    Product Type
    Principle
    Airflow Direction
    Temp Range
    temperature resolution
    volume
    Heater Type
    Chamber Material
    Temp Fluctuation
    Temp Uniformity
    Safety Protection

    Terms

    Electrically Heated Vacuum Drying Oven

    Standards

    Incoming GB/T 46513-2025
    Electrochemical performance test of lithium ion battery cathode materials—Test method for low temperature performance
    Active GB/T 20154-2024
    Low Temperature Storage Box
    Active GB/T 228.3-2019
    Metallic materials—Tensile testing—Part 3: Method of test at low temperature
    Active GB/T 38534-2020
    Test method for tensile properties of oriented fibre reinforced polymer matrix composite materials at ultra-low temperature
    Active GB/T 38924.2-2020
    Environmental test methods for civil small and light unmanned aircraft system—Part 2: Low-temperature test
    Active GB/T 12085.23-2022
    Optics and photonics—Environmental test methods—Part 23:Low pressure combined with cold,ambient temperature and dry or damp heat
    Active GB/T 12085.22-2022
    Optics and photonics—Environmental test methods—Part 22:Combined cold,dry heat or temperature change with bump or random vibration
    Active GB/T 12085.2-2022
    Optics and photonics— Environmental test methods—Part 2: Cold, heat and humidity
    Active GB/T 2423.102-2008
    Environmental testing for electric and electronic products - Part 2: Test methods - Test: combined temperature(cold and heat)/low air pressure/vibration(sinusoidal)
    Active GB/T 2423.59-2008
    Environmental testing - Part 2: Test methods - Test Z/ABMFh: Combined temperature(cold and heat)/low air pressure/vibration(random)
    Active GB/T 32065.2-2015
    Test Methods of Oceanographic Instruments—Environmental Test Part 2: Low Temperature Test
    Active GB/T 39933-2021
    Rotational moulding—Test method for low temperature impact
    Active GB/T 28958-2012
    Test methods of low temperature performance for passenger car
    Active GB/T 33622-2017
    Flexible cellular polymeric materials—Low-temperature flex test
    Active GB/T 23711.2-2019
    Test method for pressure vessels lined with plastics—Part 2:Low-temperature testing

    Instruments

    BOZHEN 766-2AS Linear dispersion temperature control Far infrared Drying Oven Automatic thermostatic fast drying
    BOZHEN 766-2AS Linear dispersion temperature control Far infrared Drying Oven Automatic thermostatic fast drying

    Far infrared radiation heating technology, Temperature range RT +~ 300 ℃, Temperature Fluctuation +/- 2 ℃, equipped with thermistor control thermoMeter, automatic thermostatic control, fast drying and low energy consumption.

    $ 883.00
    BOZHEN 766-3A Far infrared fast Drying Oven Automatic thermostatic Drying Oven
    BOZHEN 766-3A Far infrared fast Drying Oven Automatic thermostatic Drying Oven

    Far infrared radiation heating technology, temperature control accuracy +/- 2 ℃, equipped with thermistor control thermoMeter, rapid low consumption drying, Inner Chamber dimensions 320 * 380 * 320mm.

    $ 391.00
    BOZHEN 766-2A Far infrared fast Drying Oven Automatic thermostatic Drying Oven
    BOZHEN 766-2A Far infrared fast Drying Oven Automatic thermostatic Drying Oven

    Far infrared radiation heating technology, Temperature range RT +~ 300 ℃, temperature fluctuation +/- 2 ℃, equipped with thermistor control thermoMeter, with fast, low consumption, easy adjustment and other advantages, suitable for drying a variety of samples.

    $ 465.00
    BOZHEN 766-0AS Linear dispersion temperature control Far infrared Drying Oven Stainless steel studio rapid drying
    BOZHEN 766-0AS Linear dispersion temperature control Far infrared Drying Oven Stainless steel studio rapid drying

    Far infrared radiation heating technology, Temperature range RT +~ 300 ℃, Temperature Fluctuation +/- 2 ℃, equipped with thermistor control thermoMeter, rapid low consumption drying, suitable for a variety of Sample Handling.

    $ 1009.00
    BOZHEN 766-0A Far infrared fast Drying Oven Automatic thermostatic Drying Oven
    BOZHEN 766-0A Far infrared fast Drying Oven Automatic thermostatic Drying Oven

    Far infrared radiation heating technology, equipped with thermistor control thermoMeter, Temperature range RT +~ 300 ℃, Temperature Fluctuation +/- 2 ℃, with fast drying and low energy consumption characteristics, suitable for a variety of Sample Handling.

    $ 586.00
    SANFA DHG-9101-1A electrothermal thermostatic blast Drying Oven 70L stainless steel liner microcomputer temperature control
    SANFA DHG-9101-1A electrothermal thermostatic blast Drying Oven 70L stainless steel liner microcomputer temperature control

    Temperature control accuracy of +/- 1 ℃, Temperature Uniformity +/- 2 ℃, with overheating alarm and timing function, low noise hot air circulation system to ensure uniform drying, optional RS-485 interface connection recorder.

    $ 449.00
    BOZHEN 766-0AS Digital display stainless steel liner Far infrared Drying Oven Fast and low consumption Automatic thermostatic
    BOZHEN 766-0AS Digital display stainless steel liner Far infrared Drying Oven Fast and low consumption Automatic thermostatic

    Far infrared radiation heating technology, temperature control accuracy +/- 2 ℃, fast and low consumption, equipped with thermistor temperature control, the studio is made of 304 stainless steel, size 750 * 600 * 600mm, easy to adjust, suitable for drying treatment of various samples.

    $ 840.00
    Rgd-03/300Pro oven Roll-to-Roll Automatic Film Applicator 300mm application width 3 meters oven
    Rgd-03/300Pro oven Roll-to-Roll Automatic Film Applicator 300mm application width 3 meters oven

    Application width 300mm, Spreader accuracy +/- 0.005mm, Drawdown blade can be quickly disassembled and cleaned, three independent temperature control oven to ensure uniform drying, suitable for a variety of substrates and Stock processing.

    $ 24279.00
    SANFA DHG-9101-0A electrothermal thermostatic blast Drying Oven 43L stainless steel liner microcomputer temperature control
    SANFA DHG-9101-0A electrothermal thermostatic blast Drying Oven 43L stainless steel liner microcomputer temperature control

    Temperature control accuracy of +/- 1 ℃ and uniformity of +/- 2 ℃, using low noise hot air circulation system directly drying objects, with over-temperature alarm and 1-9999 minutes timing function, support RS-485 communication interface to record data.

    $ 415.00
    HENGLI KZ-23 Vacuum Oven heat sensitive substance drying temperature uniform
    HENGLI KZ-23 Vacuum Oven heat sensitive substance drying temperature uniform

    The cavity preheating technology implementation uniform temperature distribution, equipped with forced convection system to shorten the temperature recovery time, temperature control accuracy +/- 0.5 ℃, volume 23L, suitable for powder or particle sample drying, low energy consumption and convenient maintenance.

    $ 1048.00
    Shanghai DHG-9075A Benchtop Drying Oven mirror stainless steel liner PID temperature control
    Shanghai DHG-9075A Benchtop Drying Oven mirror stainless steel liner PID temperature control

    Temperature uniformity is improved by air circulation system, temperature control accuracy is +/- 0.5 ℃, Temperature resolution is 0.1 ℃, mirror stainless steel liner ensures durability and easy cleaning, suitable for a variety of drying applications.

    $ 435.00
    BOZHEN 766-1AS Digital display stainless steel liner Far infrared Drying Oven 304 stainless steel liner RT +~ 300 ℃
    BOZHEN 766-1AS Digital display stainless steel liner Far infrared Drying Oven 304 stainless steel liner RT +~ 300 ℃

    Far infrared radiation heating technology, Temperature range RT +~ 300 ℃, Temperature Fluctuation +/- 2 ℃, equipped with thermistor temperature control, fast low consumption, suitable for a variety of sample drying.

    $ 756.00
    BOZHEN 766-3AS digital display stainless steel liner Far infrared Drying Oven 304 stainless steel liner RT +~ 300 ℃ temperature control
    BOZHEN 766-3AS digital display stainless steel liner Far infrared Drying Oven 304 stainless steel liner RT +~ 300 ℃ temperature control

    Far infrared radiation heating technology, Temperature range RT +~ 300 ℃, Temperature Fluctuation +/- 2 ℃, equipped with thermistor control thermoMeter, with fast drying, low energy consumption and easy adjustment, suitable for a variety of Sample Handling.

    $ 581.00
    SANFA HP-240A Drying Oven Incubator mirror stainless steel liner intelligent microcomputer temperature control
    SANFA HP-240A Drying Oven Incubator mirror stainless steel liner intelligent microcomputer temperature control

    Temperature range foster RT + 5~ 80 ℃, drying 80~ 250 ℃, Temperature Fluctuation +/- 0.5 ℃, with forced warm air circulation to ensure uniform temperature, optional RS-485 interface to record temperature changes.

    $ 971.00
    YIHENG BPG-9106A Drying Oven precision blast Drying Oven large screen LCD display
    YIHENG BPG-9106A Drying Oven precision blast Drying Oven large screen LCD display

    Large LCD screen, Menu Operating interface, Temperature Fluctuation +/- 1 ℃, Mirror stainless steel liner for easy cleaning, Thickened box design low surface temperature, Thermal Power reduced by more than 25%.

    $ 803.00

    Articles

    Laboratory Drying Oven Model Selection - Difference Between Forced Air Convection and Non-Forced Air Convection
    This article on the selection of laboratory drying ovens primarily introduces the differences between forced convection (air-blowing) and natural convection (non-air-blowing) drying ovens.
    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.
    Safety Considerations for Selecting Explosion-Proof vs. Ordinary Drying Ovens in Paint Laboratories
    When selecting a drying oven in a paint laboratory, the type should be determined based on the safety risks of the samples and the environment.
    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.
    Determination of dry matter content in pulp using an electric thermostatic drying oven.
    This article introduces the method for determining the dry matter content of pulp using an electric thermostatic drying oven. Dry matter content is a key indicator for evaluating pulp quality. The principle of determination involves evaporating the moisture in the pulp through heating and calculating the content based on the mass difference before and after drying.
    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.