CATEGORIES

    Laboratory High Temperature Chamber

    Overview Products Knowledge Standards Terms
    The laboratory high-temperature oven heats the air through electric heating elements and uses a circulation fan to maintain uniform temperature inside the chamber, simulating high-temperature environments. It is used to test the heat resistance, aging performance, and stability of materials at set temperatures, and is suitable for experiments such as paint curing and plastic thermal deformation.
    Selection
    When selecting, consider that the temperature range should cover the experimental requirements, the chamber volume should match the sample size, the heating rate affects testing efficiency, and temperature uniformity ensures data reliability. Pay attention to temperature control accuracy and material corrosion resistance, and choose between benchtop or vertical structures based on actual space constraints.
    Style
    Product Type
    Principle
    Airflow Direction
    Temp Range
    temperature resolution
    volume
    Heater Type
    Chamber Material
    Temp Fluctuation
    Temp Uniformity
    Safety Protection

    Terms

    PCT test chamber
    High and Low Temperature Test Chamber
    High and low temperature test chamber
    PCT High Pressure Aging Test Chamber
    Thermal Aging Test Chamber
    Heating muffle furnace
    PCT High-Pressure Accelerated Aging Test Chamber
    Hot Air Aging Test Chamber
    Box-type resistance furnace
    Three-chamber High and Low Temperature Test Chamber

    Standards

    Active GB/T 10591-2006
    Specifications for high temperature/low air pressure testing chambers
    Active GB/T 2424.7-2024
    Environmental testing—Part 3: Supporting documentation and guidance—Measurements in temperature chambers for tests A (Cold) and B (Dry heat) (with load)

    Instruments

    AISRY ASR-GW225L high temperature test chamber digital with timing hot air circulation system
    AISRY ASR-GW225L high temperature test chamber digital with timing hot air circulation system

    The digital display temperature control is accurate and reliable, the hot air circulation system is composed of a high temperature fan and a suitable air duct to improve the Temperature uniformity in the working room, and the heating wire is installed at the bottom to heat up quickly.

    $ 2171.00
    BOZHEN GDW4050 low/high temperature test Chamber temperature range -40~ 130 ℃ Temperature Uniformity ≤ + 2 ℃
    BOZHEN GDW4050 low/high temperature test Chamber temperature range -40~ 130 ℃ Temperature Uniformity ≤ + 2 ℃

    Adopt unique equilibrate temperature control method to achieve high precision temperature control, temperature range -40~ 130 ℃, Temperature Uniformity ≤ + 2 ℃, the studio is made of 304 stainless steel.

    $ 6563.00
    KESIONOTS KS-OTS-HD1000LC low/high temperature test Chamber environmental test Chamber temperature control -40~ 150 ℃
    KESIONOTS KS-OTS-HD1000LC low/high temperature test Chamber environmental test Chamber temperature control -40~ 150 ℃

    Temperature range -40~ 150 ℃, Temperature Uniformity +/- 1.0 ℃, support high temperature and low temperature alternating cycle test, suitable for pRoduct design improvement and identification inspection.

    $ 8497.00
    BOZHEN GDW2050 low/high temperature test Chamber Temperature Uniformity ≤ + 2 ℃ Inner Chamber dimensions 800*700*900mm
    BOZHEN GDW2050 low/high temperature test Chamber Temperature Uniformity ≤ + 2 ℃ Inner Chamber dimensions 800*700*900mm

    Temperature range -20~ 130 ℃, Temperature Uniformity ≤ + 2 ℃, using a unique equilibrate temperature control method to achieve high-precision stable control, the studio is made of 304 stainless steel.

    $ 6421.00
    BOZHEN GDW6005 low/high temperature test Chamber precision temperature control -60~ 130 ℃
    BOZHEN GDW6005 low/high temperature test Chamber precision temperature control -60~ 130 ℃

    Adopt unique equilibrate temperature control method to achieve high precision temperature control, temperature range -60~ 130 ℃, Temperature Uniformity ≤ + 2 ℃, 304 stainless steel studio to ensure long-term stable operation.

    $ 5132.00
    BOZHEN GDW8010 low/high temperature test Chamber temperature range -80~ 130 ℃
    BOZHEN GDW8010 low/high temperature test Chamber temperature range -80~ 130 ℃

    Temperature range -80~ 130 ℃, Temperature Fluctuation ≤ +/- 0.5 ℃, using a unique equilibrate temperature control method to achieve high-precision temperature control, the studio is made of 304 stainless steel.

    $ 6575.00
    KESIONOTS KS-OTS-HD225LB low/high temperature test Chamber environmental test Chamber temperature control -60~ 150 ℃
    KESIONOTS KS-OTS-HD225LB low/high temperature test Chamber environmental test Chamber temperature control -60~ 150 ℃

    Temperature range -60~ 150 ℃, Temperature Uniformity +/- 1.0 ℃, suitable for high temperature and low temperature Reliability test, support aging test, in line with a number of national standards.

    $ 6254.00
    BOZHEN GDW81 low/high temperature test Chamber temperature range -80~ 130 ℃ Temperature Uniformity ≤ + 2 ℃
    BOZHEN GDW81 low/high temperature test Chamber temperature range -80~ 130 ℃ Temperature Uniformity ≤ + 2 ℃

    Temperature range -80~ 130 ℃, Temperature Uniformity ≤ + 2 ℃, using a unique equilibrating temperature control method to achieve high-precision stable temperature control to meet a variety of testing needs.

    $ 14183.00
    BOZHEN GDW4005 low/high temperature test Chamber temperature range -40~ 130 ℃ Temperature Uniformity ≤ + 2 ℃
    BOZHEN GDW4005 low/high temperature test Chamber temperature range -40~ 130 ℃ Temperature Uniformity ≤ + 2 ℃

    Temperature range -40~ 130 ℃, Temperature Uniformity ≤ + 2 ℃, using equilibrate temperature control to achieve high-precision stable temperature control, to meet a variety of standard test requirements.

    $ 3338.00
    BOZHEN GDW4015 low/high temperature test Chamber temperature range -40~ 130 ℃ Temperature Uniformity ≤ + 2 ℃
    BOZHEN GDW4015 low/high temperature test Chamber temperature range -40~ 130 ℃ Temperature Uniformity ≤ + 2 ℃

    Temperature range -40~ 130 ℃, Temperature Uniformity ≤ + 2 ℃, using equilibrate temperature control to achieve high-precision temperature control, to meet a variety of industrial standard testing needs.

    $ 4924.00
    KESIONOTS KS-OTS-HD408LC low/high temperature test Chamber environmental test Chamber Temperature range -40~ 150 ℃
    KESIONOTS KS-OTS-HD408LC low/high temperature test Chamber environmental test Chamber Temperature range -40~ 150 ℃

    Temperature range -40~ 150 ℃, Temperature Uniformity +/- 1.0 ℃, support high and low temperature cycle change test, suitable for material performance inspection and aging test, equipped with multiple safety protection devices.

    $ 6431.00
    BOZHEN GDW21 low/high temperature test Chamber precision temperature control reliability test equipment
    BOZHEN GDW21 low/high temperature test Chamber precision temperature control reliability test equipment

    Temperature range -20~ 130 ℃, Temperature Fluctuation ≤ +/- 0.5 ℃, using a unique equilibrate temperature control method to achieve high-precision stable temperature control, to meet a variety of standard test requirements.

    $ 9405.00
    BOZHEN GDW4010 low/high temperature test Chamber temperature range -40~ 130 ℃ Temperature Uniformity ≤ + 2 ℃
    BOZHEN GDW4010 low/high temperature test Chamber temperature range -40~ 130 ℃ Temperature Uniformity ≤ + 2 ℃

    Temperature range -40~ 130 ℃, Temperature Uniformity ≤ + 2 ℃, using a unique equilibrating temperature control method to achieve high-precision stable control, the main components imported to ensure reliability.

    $ 3943.00
    KESIONOTS KS-OTS-HD408LB low/high temperature test Chamber environmental test Chamber Industrial Reliability test
    KESIONOTS KS-OTS-HD408LB low/high temperature test Chamber environmental test Chamber Industrial Reliability test

    Temperature range -60~ 150 ℃, Temperature Uniformity +/- 1.0 ℃, support high temperature and low temperature alternating cycle test, suitable for pRoduct design improvement and aging test, in line with a number of national standards.

    $ 6770.00
    BOZHEN GDW2015 low/high temperature test Chamber temperature range -20~ 130 ℃ Temperature Uniformity ≤ + 2 ℃
    BOZHEN GDW2015 low/high temperature test Chamber temperature range -20~ 130 ℃ Temperature Uniformity ≤ + 2 ℃

    Temperature range -20~ 130 ℃, Temperature Uniformity ≤ + 2 ℃, using equilibrate temperature control to achieve high-precision stable control, the main components are imported parts, good reliability.

    $ 4813.00

    Articles

    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.
    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.
    High-temperature aging test chamber accelerates life testing of electronic components.
    The high-temperature aging test chamber accelerates the physical and chemical changes within electronic components by simulating high-temperature environments, thereby predicting their long-term performance and failure modes.
    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.
    Hot air aging oven measures the long-term thermal-oxygen life of engineering plastics.
    This article introduces how to use a hot air aging oven to test the long-term thermal-oxidative lifespan of engineering plastics. The test is based on the Arrhenius equation, which accelerates material aging at high temperatures to simulate performance changes under actual usage conditions.
    High-temperature aging chamber for testing thermal-oxidative aging of plastic films.
    This article introduces the method of testing the thermo-oxidative aging of plastic films using a high-temperature aging chamber. Thermo-oxidative aging refers to the chemical changes that occur in plastics under high temperature and oxygen exposure, leading to a decline in performance.
    Humidity and heat test chamber tests the moisture absorption rate of resin under high temperature and high humidity conditions.
    This article introduces the method of using a hygrothermal test chamber to measure the moisture absorption rate of resin under high temperature and high humidity conditions.
    Humidity and Heat Test Chamber for Evaluating Coating Performance under High Temperature and High Humidity Conditions
    This article introduces how a humidity and heat test chamber is used to evaluate the performance of coatings in high-temperature and high-humidity environments. Coatings are widely used in industries such as automotive and electronics, but they are prone to issues like reduced adhesion and blistering under actual high-temperature and high-humidity conditions.
    Evaluation of thermal aging life of hot melt adhesives using high-temperature oven method
    This article introduces a method for evaluating the thermal aging life of hot melt adhesives using a high-temperature oven. The principle is based on the Arrhenius equation, where aging is accelerated by increasing the temperature to simulate performance changes under long-term use.
    The impact of temperature, humidity, and vibration coupling in a three-environmental test chamber on the structural fatigue of products.
    This article explores the impact of the coupled effects of temperature, humidity, and vibration in a three-comprehensive test chamber on the structural fatigue of products. It explains how such a coupled environment accelerates the degradation of material performance, such as high temperature and humidity reducing the material's fatigue limit, while vibration promotes crack propagation.
    Temperature gradient control in high-temperature ovens during thermal resistance testing.
    The heat resistance test simulates the performance of materials under high temperatures using a high-temperature oven, and the accuracy of its results is highly dependent on the uniformity of temperature inside the oven. If the temperature gradient is poorly controlled, it can lead to uneven heating of samples from the same batch, compromising the validity of the test.
    Application of Constant Temperature and Humidity Chambers in the Electronics Industry
    A constant temperature and humidity chamber is a device capable of precisely controlling temperature and humidity, used to simulate various environmental conditions that electronic products may encounter. In the electronics industry, it is primarily employed to test the reliability of components, finished products, and processes, such as evaluating material aging or performance changes through high-temperature and high-humidity tests.