CATEGORIES

    Far-infrared high-temperature Thermometer

    Overview Products Knowledge Standards Terms
    The far-infrared high-temperature thermometer receives the infrared energy radiated from the surface of an object, converts it into an electrical signal, and calculates the temperature value. It is used for non-contact measurement of the surface temperature of high-temperature equipment such as furnaces and ovens, as well as for monitoring thermal conditions in processes such as plastic heating and paint drying.
    Selection
    When selecting, consider that the temperature measurement range covers actual needs, the response speed matches the frequency of changes in the measured object, the optical resolution is suitable for the target size, pay attention to the matching of emissivity settings with the material, and ensure that appropriate protection levels are equipped for environmental factors such as dust and moisture.
    type
    How it works
    upper limit of temperature measurement
    lower limit of temperature measurement
    DS object distance ratio
    precision

    Terms

    High and Low Temperature Test Chamber
    Industrial Infrared Thermometer
    Laboratory Sealed Electric Furnace
    Tubular Vacuum Atmosphere Furnace
    Laboratory resistance furnace
    High Temperature, High Humidity, High Pressure Test Chamber
    Thermal Shock Test Chamber
    Atmosphere Muffle Furnace
    Optical thermometer
    Steam Aging Test Chamber

    Standards

    Active GB/T 43092-2023
    Electrochemical performance test of lithium ion battery cathode materials—Test method for high temperature performance
    Active GB/T 3780.30-2023
    Carbon black—Part 30:Determination of high temperature volatile matter—Thermogravimetry method
    Active GB/T 36264-2018
    Test method for tensile strength of fiber composites under ultrahigh temperature and oxidizing environment
    Active GB/T 37783-2019
    Metallic materials—High strain rate tensile test method at elevated temperature
    Active GB/T 38515-2020
    The method for high temperature mechanical properties of quartz fabric-reinforced resin matrix composite materials
    Active GB/T 5137.3-2020
    Test methods of safety glazing materials used on road vehicles—Part 3:Radiation,high temperature,humidity,fire and simulated weathering resistance tests
    Active GB/T 38924.3-2020
    Environmental test methods for civil small and light unmanned aircraft system—Part 3: High-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 42900-2023
    Metallic materials—High strain rate compression test method at elevated temperature
    Active GB/T 4937.23-2023
    Semiconductor devices—Mechanical and climatic test methods—Part 23:High temperature operating life
    Active GB/T 25929-2010
    Specification of infrared gas analyzers
    Active GB/T 34220-2017
    Refractory Products—Determination of tensile strength at elevated temperature
    Active GB/T 34218-2025
    Refractory products—Determination of compressive strength at elevated temperatures

    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 766-0A 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
    BOZHEN 766-1A Far infrared fast Drying Oven Automatic thermostatic Drying Oven
    BOZHEN 766-1A 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, fast low consumption adjustment is convenient.

    $ 507.00
    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 766-3A 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 766-3AS 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
    BOZHEN 766-3AS Linear dispersion temperature control Far infrared Drying Oven Fast and low consumption Automatic thermostatic
    BOZHEN 766-3AS Linear dispersion temperature control Far infrared Drying Oven Fast and low consumption Automatic thermostatic

    Far infrared radiation heating technology, Temperature range RT +~ 300 ℃, Temperature Fluctuation +/- 2 ℃, equipped with thermistor temperature control system, the studio is made of 304 stainless steel for fast and uniform heating.

    $ 775.00
    BOZHEN 766-1AS Linear dispersion temperature control Far infrared Drying Oven Automatic thermostatic fast drying
    BOZHEN 766-1AS 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 temperature control system to achieve automatic thermostatic operation, the studio is made of 304 stainless steel, size 600 * 600 * 500mm.

    $ 932.00
    BOZHEN 766-2AS digital display stainless steel liner Far infrared Drying Oven 304 stainless steel liner
    BOZHEN 766-2AS digital display stainless steel liner Far infrared Drying Oven 304 stainless steel liner

    Far infrared radiation heating technology, Temperature range RT +~ 300 ℃, Temperature Fluctuation +/- 2 ℃, equipped with stainless steel liner, rapid and uniform heating, suitable for drying a variety of samples.

    $ 690.00
    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 766-0AS 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
    SMART SENSOR AS872D Infrared ThermoMeter High Accuracy ThermoMeter
    SMART SENSOR AS872D Infrared ThermoMeter High Accuracy ThermoMeter

    Using infrared Light spectrum measurement technology, the temperature measurement range covers -18 to 1150 ° C, the accuracy is +/- 2%, with 20:1 object distance ratio and 500ms fast Response, support Data storage and USB connection function.

    $ 153.00
    SMART SENSOR AS892 Infrared ThermoMeter Laser Positioning High and Low Temperature Alarm 200~ 2200 ℃
    SMART SENSOR AS892 Infrared ThermoMeter Laser Positioning High and Low Temperature Alarm 200~ 2200 ℃

    Using shortwave infrared technology, temperature range 200~ 2200 ℃, accuracy +/- 2%, with laser positioning, data retention and emissivity adjustable functions, Response Time 500ms, object distance ratio 80:1.

    $ 307.00
    Kenton CS-6010 thermostatic circulating sink High Accuracy Digital Temperature Control +/- 0.1% Fluctuation
    Kenton CS-6010 thermostatic circulating sink High Accuracy Digital Temperature Control +/- 0.1% Fluctuation

    Temperature range RT +~ 100 ℃, Temperature Fluctuation +/- 0.1%, using Far infrared heating and magnetic Stir technology, thermal equilibrating time is short and temperature uniformity is good, LED display is accurate and intuitive.

    $ 522.00

    Articles

    Application of High-Temperature Viscometer in Testing the Melt Viscosity Characteristics of Hot Melt Ink
    This article introduces a method for testing the melt viscosity of hot-melt ink using a high-temperature viscometer. The test employs a rotational viscometer to measure the viscosity of three ink samples at different temperatures.
    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.
    How is a high-temperature muffle furnace applied in ash determination?
    This article introduces the application of high-temperature muffle furnaces in ash determination. The principle of ash determination involves completely burning the sample at high temperatures, leaving behind inorganic mineral residues. The muffle furnace provides a stable and controllable thermal environment, ensuring accurate results.
    Ultrasonic Thickness Gauge Selection: Technical Considerations for Probe Configuration and Measurement Modes
    This article primarily introduces the technical factors to consider when selecting an ultrasonic thickness gauge. In terms of probe configuration, the frequency affects both resolution and penetration depth, while crystal size determines adaptability to curvature and surface conditions. Dual-element probes offer a smaller dead zone compared to single-element probes, and delay-line probes are suitable for thin-wall and high-temperature applications.
    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-temperature viscometer evaluates the flow characteristics of ceramic coatings before sintering.
    This article introduces how to use a high-temperature viscometer to evaluate the flow characteristics of ceramic coatings before sintering. During measurement, the instrument detects changes in the viscosity of the coating sample under simulated sintering temperature conditions using rotational or oscillatory principles.
    High-temperature viscometer measures the flow behavior of powder coatings in the molten state.
    This article introduces the use of a high-temperature viscometer to measure the flow behavior of powder coatings in their molten state. Powder coatings need to melt and flow before curing, a process that directly affects the smoothness and performance of the coating.
    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.
    Melt flow index tester measures the processing fluidity of high-temperature engineering plastics.
    This article introduces how a melt flow indexer measures the processing fluidity of high-temperature engineering plastics. It first explains the working principle of the instrument, which involves measuring the rate at which molten plastic passes through a standard die under specific temperature and pressure conditions to obtain the melt flow rate value.
    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.