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    High and Low Temperature Universal Material Testing Machine

    Overview Products Knowledge Standards Terms
    The high-low temperature universal material testing machine simulates the mechanical property testing of materials in specific temperature environments through a temperature control chamber and uses sensors to measure force data such as tension and compression. It is used to detect parameters such as strength and elasticity of materials like plastics and coatings under high or low-temperature conditions, ensuring the reliability of products in actual temperature environments.
    Selection
    When selecting a high-low temperature universal material testing machine, it is necessary to consider that the temperature range should cover the application requirements, such as -70℃ to 350℃; the load capacity should match the material strength; the precision of the control system affects data accuracy; the type of fixtures should accommodate the shape of the samples; safety protection functions should prevent operational risks; and the brand's after-sales service should ensure maintenance efficiency.
    Test Type
    Min-TEMP
    Max-TEMP
    working volume
    Temp Fluctuation
    Temp Uniformity
    Temp Deviation
    Temp Change Rate
    Cooling Method

    Terms

    Heavy Hammer Impact Tester
    Tearing Tester
    Blender
    Haze meter
    Taber Abrasion Tester
    Hand-pushed pencil hardness tester
    Tubular Vacuum Atmosphere Furnace
    UV Curing Machine
    Adhesive Strength Testing Machine
    Reversible temperature indicating paper

    Standards

    Active GB/T 30836-2014
    Lithium titanium oxide and its carbon composite anode materials for lithium ion battery
    Active GB/T 30835-2014
    Lithium iron phosphate-carbon composite cathode materials for lithium ion battery
    Active GB/T 24533-2019
    Graphite negative electrode materials for lithium ion battery
    Active GB/T 41704-2022
    Test methods of cathode materials for lithium ion battery—Determination of magnetic impurities content and residual alkali content
    Active GB/T 43092-2023
    Electrochemical performance test of lithium ion battery cathode materials—Test method for high temperature performance
    Active GB/T 44330-2024
    Lithium-ion battery cathode materials—Determination of powder compaction density
    Active GB/T 45324-2025
    Determination of powder resistivity for cathode materials of lithium ion battery
    Incoming GB/T 46514-2025
    Test method for cathode materials of lithium ion battery—Determination of crystal structure—X-ray diffraction method
    Incoming GB/T 46513-2025
    Electrochemical performance test of lithium ion battery cathode materials—Test method for low temperature performance
    Incoming GB/T 21650.1-2026
    Determination of pore size distribution and porosity of solid materials by mercury porosimetry and gas adsorption—Part 1: Mercury porosimetry
    Incoming GB 8624-2025
    Classification for burning behavior of building materials and products
    Active GB/T 42942-2023
    Textile trim materials in the interior of automobiles-Test method for Schopper abrasion
    Active GB/T 6843-1986
    Method for determining the coating melting point of photographic materials
    Active GB/T 45125-2025
    Determining of the softening point of phenolic resin for digita printing material—Microscopic meltingpoint melthod
    Active GB/T 10653-2001
    Polymeric materials,cellular flexible--Determination of compression set

    Instruments

    Lugong STX200 Digital Single Arm Universal Testing Machine Microcontrol Electronic Universal Material Tester
    Lugong STX200 Digital Single Arm Universal Testing Machine Microcontrol Electronic Universal Material Tester

    High Accuracy stepper motor drive and precision ball screw drive ensure smooth transmission without clearance. Maximum test force 200N, test speed range 0.1-500 mm/min stepless adjustable, with High Accuracy load and displacement measurement system, good coaxiality, firm clamping.

    $ 1122.00
    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
    HUXI HF-1L Variable Frequency Speed Regulation Glass Reaction Kettle High Borosilicate Glass High corrosion resistance High and low temperature resistance
    HUXI HF-1L Variable Frequency Speed Regulation Glass Reaction Kettle High Borosilicate Glass High corrosion resistance High and low temperature resistance

    High borosilicate Glass material, corrosion resistance and high and low temperature resistance, strong ability to withstand thermal Impact; vacuum negative pressure can reach 0.095MPa, support material reaction under negative pressure; Overhead Stirrer Rotation speed 50-500rpm, torque 70N.cm, suitable for a variety of viscosity materials.

    $ 2465.00
    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-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-HD225LA low/high temperature test Chamber environmental test Chamber -70~ 150 ℃ 225L
    KESIONOTS KS-OTS-HD225LA low/high temperature test Chamber environmental test Chamber -70~ 150 ℃ 225L

    Temperature control range -70~ 150 ° C, studio volume 225L, stainless steel material and high-efficiency thermal insulation material, support high temperature, low temperature and constant temperature test, in line with a number of national standards.

    $ 6770.00
    QIWEI QW-JB-250S Stirrer Laboratory Stirrer High torque Low Rotation speed
    QIWEI QW-JB-250S Stirrer Laboratory Stirrer High torque Low Rotation speed

    High torque design, Speed range 10~ 500rpm, low noise operation, suitable for high viscosity material mixing, Electric lift Travel 245mm, Stainless steel Impeller to ensure efficient mixing.

    $ 496.00
    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-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
    FARUI FR-103G high and low temperature UTM servo material testing machine
    FARUI FR-103G high and low temperature UTM servo material testing machine

    Test speed of 0.001~ 500mm/min wide range, support tensile, compression, bending and other test modes, using imported photoelectric encoder to ensure displacement Measurement accuracy, embedded controller integrated measurement calculation storage function.

    $ 10207.00
    KESIONOTS KS-OTS-HD408LA low/high temperature test Chamber environmental test Chamber -70~ 150 ℃ 408L
    KESIONOTS KS-OTS-HD408LA low/high temperature test Chamber environmental test Chamber -70~ 150 ℃ 408L

    Temperature range -70~ 150 ℃, studio volume 408L, stainless steel studio and high temperature insulation material, support high temperature and low temperature Reliability test and aging test, Temperature Uniformity +/- 1.0 ℃.

    $ 7109.00
    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
    AISRY NBC-150B Thermal Shock Test Chamber Extremely High Temperature and Low Temperature Test PID Control
    AISRY NBC-150B Thermal Shock Test Chamber Extremely High Temperature and Low Temperature Test PID Control

    Temperature range -40 ℃ to + 150 ℃, the temperature conversion time is only 10 seconds, using PID full digital automatic Control system, can quickly detect the material in the extremely high temperature and low temperature continuous environment resistance and thermal expansion and contraction changes.

    $ 17303.00
    HUXI HLM-8005 Magnetic stirring low temperature reaction Tank -80 ℃ low temperature thermostatic
    HUXI HLM-8005 Magnetic stirring low temperature reaction Tank -80 ℃ low temperature thermostatic

    Can achieve -80 ℃ low temperature control, built-in two-stage magnetic stirring system, Speed range 100-1200RPM, equipped with high temperature and over-temperature protection functions, environmentally friendly refrigerant to ensure safe operation.

    $ 4222.00
    KESIONOTS KS-OTS-HD1000LD low/high temperature test Chamber environmental test Chamber -20~ 150 ℃ 1000L
    KESIONOTS KS-OTS-HD1000LD low/high temperature test Chamber environmental test Chamber -20~ 150 ℃ 1000L

    Temperature range -20~ 150 ℃, studio volume 1000L, Temperature Uniformity +/- 1.0 ℃, using wind, water-cooled dual-stage Compressor and high temperature insulation material, support high temperature and low temperature Reliability test.

    $ 7803.00

    Articles

    Application of Drop Hammer Impact Testing Machine in Evaluating Impact Resistance of Composite Materials
    This article introduces how the drop-weight impact testing machine evaluates the impact resistance of composite materials. The test releases a weight to strike the specimen, measuring parameters such as energy absorption, peak load, and damage area, simulating low-velocity impacts like tool drops.
    Impact of the Fixture Design of a Drop Hammer Impact Tester on the Plastic Impact Strength Results
    This article primarily discusses the impact of the fixture design of a drop-weight impact testing machine on the results of plastic impact strength tests. The geometric parameters of the fixture, clamping method, and contact surface material can alter the stress state and energy transfer of the specimen, thereby affecting the accuracy of the test data.
    Application of High-Temperature Universal Testing Machine in the Study of Hot Modulus of Rupture of Refractory Materials
    This article introduces the application of a high-temperature universal testing machine in measuring the hot modulus of rupture of refractory materials. It explains the working principle, testing procedure, and key parameters of the testing machine, such as the effects of heating rate, holding time, and loading rate.
    Shore Durometer Selection: Matching Principles of Hardness Models and Measurement Ranges
    This article introduces the selection method for Shore durometers, with the core focus on ensuring that the hardness type matches the material's hardness range and rebound characteristics. When selecting, the principle that the measured value falls within 20% to 80% of the full scale should be followed to avoid data distortion.
    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.
    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.
    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.
    Effect of Rapid Temperature Change Aging Chamber on Thermal Cycling of Composite Materials
    This article primarily explores how rapid thermal cycling chambers affect the performance of composite materials during thermal cycling. It explains that thermal cycling can induce internal stresses in composite materials due to differences in the thermal expansion coefficients of their components, potentially leading to microcracks or performance degradation.
    Selection of abrasion testing machine is based on the wear form, choosing between linear or rotational types.
    When selecting a wear testing machine, the first step is to determine based on the primary wear forms the material actually encounters.
    Friction and wear testing machine evaluates the wear resistance of self-lubricating polymer materials.
    This article introduces how to use a friction and wear testing machine to evaluate the wear resistance of self-lubricating polymer materials. It explains the working principles of the testing machine, including the basic formulas for measuring the friction coefficient and wear rate.
    Melt flow index instrument controls the flowability and stability of polypropylene injection molding process.
    This article explores how to assess and regulate the stability of polypropylene's flowability in injection molding processes by measuring its melt flow rate. It explains the principles behind characterizing flowability and analyzes the impact of factors such as material batch variations and process parameters on stability.
    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.
    Thermogravimetric Analyzer for Measuring Moisture and Volatiles in Polymer Materials
    Thermogravimetric analyzers determine the moisture and volatile content in polymer materials by measuring the mass changes during the heating process.
    Differential Scanning Calorimetry measures the phase transition temperature of liquid crystal polymers.
    This article introduces the method of determining the phase transition temperature of liquid crystal polymers using a differential scanning calorimeter. The differential scanning calorimeter analyzes the phase transition behavior of materials by comparing the heat difference between the sample and a reference material, recording the heat flow curve during temperature changes.