CATEGORIES

    Metal High and Low Temperature Test Chamber

    Overview Products Knowledge Standards Terms
    The metal high and low temperature test chamber controls the internal temperature through refrigeration and heating systems, simulating the performance changes of metal materials under extreme temperature conditions. It is used to detect characteristics such as deformation, embrittlement, and expansion of metals under high or low temperatures, and is commonly employed in weathering tests for automotive components, electronic parts, and aerospace materials.
    Selection
    When selecting, focus on the temperature range to cover testing needs, as uniformity affects data accuracy, and ensure heating and cooling rates match experimental standards. The chamber material should be corrosion-resistant, the control system should be user-friendly, and safety protection devices must be comprehensive. Consider site dimensions and power compatibility, maintenance convenience, and brand after-sales support.
    Test Type
    Min-TEMP
    Max-TEMP
    working volume
    Temp Fluctuation
    Temp Uniformity
    Temp Deviation
    Temp Change Rate
    Cooling Method

    Terms

    Graphite Atomic Absorption Spectrophotometer
    Dry Type Low Temperature Thermostat
    Rebound Hammer
    Inverted Metallurgical Microscope
    Double Pendulum Hardness Tester
    Wire Wound Coating Rod
    Flame Atomic Absorption Spectrophotometer
    Water Copper Content Detector
    Film Cupping Tester
    Baker's film applicator

    Standards

    Incoming GB/T 46747-2025
    Rapid Determination of Heavy Metal Elements in Furniture Coatings by X-ray Fluorescence Spectrometry
    Incoming GB/T 47091-2026
    Determination of electrical conductivity for metal powders
    Incoming GB 46997-2025
    Limits of certain heavy metal in printing ink
    Active GB/T 12599-2002
    Metallic coatings--Electroplated coatings of tin--Specification and test methods
    Active GB/T 24298-2009
    Standard test method for cross curvature of thermostat metals
    Active GB/T 231.1-2018
    Metallic materials — Brinell hardness test — Part 1: Test method
    Active GB/T 230.1-2018
    Metallic materials—Rockwell hardness test—Part 1:Test method
    Active GB/T 37783-2019
    Metallic materials—High strain rate tensile test method at elevated temperature
    Active GB/T 228.3-2019
    Metallic materials—Tensile testing—Part 3: Method of test at low temperature
    Active GB/T 13912-2020
    Metallic coatings—Hot dip galvanized coatings on fabricated iron and steel articles—Specifications and test methods
    Active GB/T 244-2020
    Metallic material—Tube—Bend test method
    Active GB/T 24523-2020
    Metallic materials—Test method for rapid indentation (Brinell type) hardness testing
    Active GB/T 2976-2020
    Metallic materials—Wire—Wrapping test
    Active GB/T 40393-2021
    Corrosion of metals and alloys—Accelerated corrosion test for intergranular corrosion susceptibility of austenitic stainless steels
    Active GB/T 228.1-2021
    Metallic materials—Tensile testing—Part 1: Method of test at room temperature

    Instruments

    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
    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
    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
    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
    KESIONOTS KS-OTS-HD150LB low/high temperature test Chamber environmental test Chamber -60~ 150 ℃ 150L
    KESIONOTS KS-OTS-HD150LB low/high temperature test Chamber environmental test Chamber -60~ 150 ℃ 150L

    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.

    $ 5947.00
    KESIONOTS KS-OTS-HD1000LB low/high temperature test Chamber environmental test Chamber -60~ 150 ℃ 1000L
    KESIONOTS KS-OTS-HD1000LB low/high temperature test Chamber environmental test Chamber -60~ 150 ℃ 1000L

    Temperature range -60~ 150 ℃, studio volume 1000L, stainless steel studio and high temperature insulation material, support high and low temperature cycle change test, in line with a number of national standards.

    $ 9352.00
    KESIONOTS KS-OTS-HD150LC low/high temperature test Chamber environmental test Chamber -40~ 150 ℃ 150L
    KESIONOTS KS-OTS-HD150LC low/high temperature test Chamber environmental test Chamber -40~ 150 ℃ 150L

    Temperature range -40~ 150 ℃, studio volume 150L, suitable for high temperature and low temperature Reliability test, in line with a number of national standards, aging test and constant temperature test.

    $ 5431.00
    KESIONOTS KS-OTS-HD80LA low/high temperature test Chamber environmental test Chamber -70~ 150 ℃ 80L
    KESIONOTS KS-OTS-HD80LA low/high temperature test Chamber environmental test Chamber -70~ 150 ℃ 80L

    Temperature range -70~ 150 ℃, studio volume 80L, Temperature Uniformity +/- 1.0 ℃, suitable for high temperature and low temperature cycle change test, support aging test and a variety of standard requirements.

    $ 5560.00
    KESIONOTS KS-OTS-HD800LD low/high temperature test Chamber environmental test Chamber Temperature range -20~ 150 ℃
    KESIONOTS KS-OTS-HD800LD low/high temperature test Chamber environmental test Chamber Temperature range -20~ 150 ℃

    Temperature range -20~ 150 ℃, Temperature Uniformity +/- 1.0 ℃, support high temperature and low temperature cycle change test, suitable for aging test and material performance inspection.

    $ 7109.00
    KESIONOTS KS-OTS-HD150LD low/high temperature test Chamber environmental test Chamber temperature control -20~ 150 ℃
    KESIONOTS KS-OTS-HD150LD low/high temperature test Chamber environmental test Chamber temperature control -20~ 150 ℃

    Temperature range -20~ 150 ℃, Temperature Uniformity +/- 1.0 ℃, support high temperature, low temperature and constant temperature test, suitable for Reliability test, equipped with multiple protection devices and safety system.

    $ 4818.00
    KESIONOTS KS-OTS-HD80LB low/high temperature test Chamber environmental test Chamber -60~ 150 ℃ 80L
    KESIONOTS KS-OTS-HD80LB low/high temperature test Chamber environmental test Chamber -60~ 150 ℃ 80L

    Temperature control range -60~ 150 ° C, studio volume 80L, suitable for high temperature and low temperature cycle change testing, in line with a number of national standards, equipped with perfect protection devices and imported refrigeration system.

    $ 5043.00
    KESIONOTS KS-OTS-HD225LD low/high temperature test Chamber environmental test Chamber Temperature range -20~ 150 ℃
    KESIONOTS KS-OTS-HD225LD low/high temperature test Chamber environmental test Chamber Temperature range -20~ 150 ℃

    Temperature range -20~ 150 ℃, volume 225L, stainless steel studio and high-efficiency insulation material, support high and low temperature cycle test, suitable for aging test and pRoduct performance inspection.

    $ 5399.00
    KESIONOTS KS-OTS-HD408LD low/high temperature test Chamber environmental test Chamber 408L studio
    KESIONOTS KS-OTS-HD408LD low/high temperature test Chamber environmental test Chamber 408L studio

    Temperature range -20~ 150 ℃, studio volume 408L, suitable for high temperature and low temperature Reliability test, support constant temperature test, in line with a number of national standards.

    $ 6076.00
    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
    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

    Articles

    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.
    Difference between Black Panel Temperature and Black Standard Temperature in Light Aging Test Chambers
    In the light aging test chamber, black panel temperature and black standard temperature are two distinct temperature indicators. The black panel temperature is measured using a black metal panel sensor, reflecting the immediate heating effect on the material surface under light exposure and is significantly influenced by air convection.
    Cup Test Instrument for Coating Tests the Impact and Deformation Resistance of Coatings on Metal Substrates.
    This article introduces how the coating cupping tester measures the resistance to stamping deformation of coatings on metal substrates.
    T-bend tester for coatings is used to determine the T-bend grade of metal sheet coatings.
    This article introduces how the T-bend tester for paint films is used to evaluate the flexibility and adhesion of coatings on metal sheet surfaces.
    Brinell hardness tester is used for hardness testing of plastics and soft metal coatings.
    This article introduces how a Brinell hardness tester is used to measure the hardness of plastics and soft metal coatings.
    Atomic Absorption Spectrometer for Measuring Heavy Metal Content in Rubber
    This article introduces a method for determining the heavy metal content in rubber using atomic absorption spectrometry. It first explains that rubber may contain harmful elements such as lead and cadmium, which require accurate measurement.
    Controllable Coating of Composite Separator Coatings for Lithium Metal Batteries
    This article primarily explores the controllable coating technology for composite separator coatings in lithium metal batteries.
    Preparation of metal thin films by the coating method for mechanical property studies.
    This paper discusses the key process parameters in the preparation of metal thin films using a film coater and their effects on mechanical properties. The film coater forms metal thin films on a substrate through solution deposition, with its uniformity and repeatability directly influencing film quality.
    Application of Coating Thickness Gauges in Electroplating Thickness Detection
    Coating thickness gauges are used to measure the thickness of electroplated layers, primarily employing the electromagnetic induction method for measuring non-magnetic coatings on magnetic substrates, or the eddy current method for measuring insulating coatings on non-magnetic metal substrates.
    Eddy current thickness gauge measures metal coatings on non-conductive substrates.
    The eddy current thickness gauge utilizes the principle of electromagnetic induction, generating an alternating magnetic field through the probe coil to induce eddy currents in the metal coating, thereby measuring thickness based on changes in coil impedance.
    Use of Muffle Furnace for Ash Determination in Pulp Inorganic Matter Testing
    This article introduces the application of the ash determination muffle furnace in the detection of inorganic substances in pulp. The muffle furnace removes organic matter in the sample through high-temperature combustion, and the remaining inorganic residue, known as ash, is used to analyze the content of fillers and metal ions in the pulp.
    Coulometric Method Coating Thickness Gauge for Non-Destructive Measurement of Precious Metal Coatings
    The coulometric coating thickness gauge measures the thickness by calculating the amount of electricity required to dissolve the precious metal coating through the principle of electrolytic dissolution. This method is non-destructive to the overall sample, only forming tiny electrolytic spots.
    Comparison of Dual-Principle Instruments: Magnetic Induction vs. Eddy Current for Coating Thickness Measurement
    This article compares the principles of two coating thickness gauges. The choice of method depends on the substrate material: magnetic induction is used for magnetic metals, while eddy current is applied for non-magnetic metals.
    Eddy current thickness gauge detects coatings on non-ferrous metals.
    The eddy current thickness gauge operates on the principle of electromagnetic induction, generating an alternating magnetic field through the probe coil, which induces eddy currents on the surface of non-ferrous metal substrates.