Xenon Arc Light Fastness Tester
Xenon Arc Light Fastness Tester
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    Xenon Arc Light Fastness Tester
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    Xenon Arc Light Fastness Tester

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    Xenon Arc Light Fastness Tester

    Xenon Arc Light Fastness Tester

    Xenon Arc Light Fastness Tester

     

    Xenon Arc Light Fastness Tester is a laboratory instrument used to evaluate the color fastness of textiles and materials when exposed to sunlight or artificial light. It simulates full-spectrum sunlight using a xenon arc lamp, making it ideal for assessing how materials resist fading over time.

     

    Purpose of Xenon Arc Light Fastness Tester:

    To determine how well a fabric or material maintains its color and integrity under prolonged light exposure, especially for outdoor or light-sensitive applications.

     

    Working Principle of Xenon Arc Light Fastness Tester :

    A xenon arc lamp emits light similar to natural sunlight. Fabric samples are exposed under controlled temperature, humidity, and light intensity. The degree of fading is compared to standard blue wool scales to assign a light fastness rating.

     

    Main Components Xenon Arc Light Fastness Tester :

    – Xenon Arc Lamp: Simulates sunlight (UV, visible, and infrared).

    – Sample Holder: Rotates samples for uniform exposure.

    – Environmental Controls: Maintains specific temperature and humidity.

    – Control Panel/Software: Sets test parameters (light, time, humidity, etc.).

    – Filters: Control the light spectrum (e.g., daylight, window glass).

     

    Applications:

    – Textiles

    – Automotive interiors

    – Plastics, paints, and coatings

    – Outdoor fabrics and furnishings

     

    Benefits of Xenon Arc Light Fastness Tester:

    1. Realistic Sunlight Simulation – Accurately mimics full-spectrum natural sunlight, including UV, for reliable light fastness testing.
    2. Standard Compliance – Meets international standards like ISO 105-B02, AATCC TM16, and ASTM G155, ensuring globally accepted results.
    3. Improves Product Durability – Helps manufacturers assess and improve resistance to color fading, cracking, or degradation from light exposure.

     

    1. Versatile Applications – Suitable for testing textiles, plastics, paints, leather, and coatings.
    2. Controlled Test Conditions – Offers precise control over temperature, humidity, and light intensity, improving test consistency and repeatability.
    3. Supports Quality Assurance – Detects early failures in colorfastness, enabling better product design and material selection.

     

    1. Automated Operation – Programmable tests and automatic monitoring reduce operator involvement and errors.
    2. Accelerated Testing – Speeds up evaluation by simulating months or years of sun exposure in a few days or weeks.

     

    Features of Xenon Arc Light Fastness Tester:

    1. Xenon Arc Lamp – Provides full-spectrum light (UV, visible, IR) to simulate natural sunlight accurately.
    2. Programmable Control System – Digital or touchscreen interface for setting test parameters like exposure time, temperature, humidity, and irradiance.

     

    1. Humidity and Temperature Control – Maintains precise environmental conditions inside the test chamber.
    2. Rotating Sample Carousel – Ensures uniform light exposure on all test specimens.
    3. Light Spectrum Filters- Adjustable filters simulate different light conditions (e.g., daylight, window glass, outdoor).

     

    1. Standards Compliance- Meets ISO, AATCC, ASTM, and other global test methods for light fastness.
    2. Automatic Irradiance Control – Maintains constant light intensity throughout testing, improving accuracy.
    3. Safety Features – Includes overheating protection, door interlock, and lamp monitoring system.

     

    1. Data Logging and Export – Some models offer USB or software integration for saving and analyzing test data.
    2. Durable and Insulated Chamber – Built with high-quality materials for stable testing and long-term use.

     

    How to Use Xenon Arc Light Fastness Tester:

    1. Prepare the Samples

    – Cut fabric or material into standard-size specimens.

    – Label and condition samples (usually 24 hrs at 21°C, 65% RH).

    1. Mount the Samples – Attach samples onto holders or clips, placing them evenly on the rotating drum or carousel.

     

    1. Insert Blue Wool Standards- Include standard blue wool reference fabrics to compare light fastness.
    2. Set Test Parameters

    – Use the control panel to set:

    – Irradiance (e.g., 0.35 W/m² at 420 nm)

    – Temperature and humidity

    – Test duration (e.g., 24–72 hrs or more)

    1. Start the Test – Close the chamber door and begin the exposure cycle.
    2. Monitor Progress- System auto-adjusts irradiance and logs test conditions. Periodically check if needed.

     

    1. End and Remove Samples – After completion, stop the test and remove the samples and blue wool references.
    2. Evaluate Results – Compare the sample fading to the blue wool scale to assign a light fastness rating (1–8 scale).

     

     

    Xenon Arc Light Fastness Tester

    [Scope of application]

    It is used for the light fastness and weather fastness test in the color fastness test. It
    can also be used for the light fastness test and light fastness test of paints,
    pigments, coatings, rubber, plastics, wood floors, paper and other materials. Aging
    test.
    Related Standards of Xenon Arc Light Fastness Tester

    GB/T8427 (China National Standard Drafting Unit)
    GB/T15102-2006 GB/T14576 GB/T15104-2006 GB/T8430 AATCC TM16 ISO105-B04
    ISO105-B02 etc.

    Instrument characteristics of Xenon Arc Light Fastness Tester

    1. Digital setting of light intensity, real-time monitoring, and automatic adjustment
    to meet the stability requirements of different standards for test light sources
    (420nm can be switched; 300-800nm or 300-400nm band monitoring);
    2. Standard Blackboard Thermometer (BST) and Blackboard Thermometer (BPT)
    can be selected for use, and are tested at the same station (equal distance) as the
    sample, which truly reflects the tested condition of the sample;

    3. The measured data is processed by the CPU and displayed on the color screen in
    the form of numbers, graphs, curves, etc., without stopping for observation;
    4. Microchip’s 32-bit intelligent CPU, high-efficiency real-time control, to ensure
    accurate reproduction of the same test environment;

    5. 7-inch color screen display and control, multiple test monitoring modes
    (animation, numbers, charts), convenient control, intuitive and clear;
    6. All sample holders can be timed separately, and different samples can be tested
    on the same machine, which is convenient for test monitoring and reduces
    operating costs;
    7. Rated 1500W long arc xenon lamp technology, high efficiency and energy saving,
    real simulation of sunlight spectrum;
    8. Industrial temperature control (refrigeration) system, rapid and stable
    temperature adjustment in the test chamber;

    9. Built-in self-circulation system and air filtration system, greatly reducing
    environmental requirements;
    10. European traceable spectrum analyzer, multi-measurement calibration;
    11. Built-in network communication module, can customize the remote monitoring
    function of mobile phone APP;
    12. The instrument can be optionally equipped with thermal printout or data
    export of test environment parameters;
    13. The quality assurance that one test can run continuously for 1000 hours

    [Technical Parameters]1. Temperature control range of test chamber: (20~50)℃; accuracy: ±2℃
    2. Test chamber humidity control range: (15~95)%RH, accuracy: ±5%RH
    3. Test time control range: 0~9999:59 (h:min); accuracy: ±1min

    4. Irradiance control range:
    (0.80~1.60)W/m2/420nm Accuracy: ±0.02W/m2/420nm
    (25-60)W/m2/300-400nm Accuracy: ±2W/m2/420nm
    (300-650)W/m2/300-800nm Accuracy: ±10W/m2/420nm
    Digital setting, automatic compensation
    Xenon light source:
    a. Rated power of xenon arc lamp: 1.5kW;
    b. Color temperature: 5500K~6500K;

    6. Sample:
    a. Rotation speed of sample holder: 5rpm
    b. Diameter of sample holder distribution: 286mm
    c. The size and number of sample holders that can be installed:
    GB standards AATCC(Optional)
    Specimen clamp size

    203mm×
    48mm
    220mm×92mm
    Maximum sample size
    135mm×
    45mm
    150mm×90mm
    Maximum exposure area
    118mm×
    33mm
    130mm×50mm
    Maximum number of
    pieces
    13
    6
    d. Timing of each sample holder separately: range: 0~9999:59 (h: min); accuracy: ±
    1min
    e. Sample thickness: ≤3mm

    7. Standard Blackboard Thermometer (BST) range:
    (20~75)℃; Resolution: 0.1℃, Accuracy: ±2℃
    Or optional blackboard temperature (BPT) range:
    (25~80)℃, resolution: 0.1℃, accuracy: ±2℃
    8.7 inch touch screen operation
    9. Stand-alone with thermal printer (optional)

    10. Power supply: AC220V±10% 50Hz 3.5kW
    11. Dimensions: 1130mm×760mm×1895mm
    12.Weight: about 380kg
    (Note: The equipment test conforms to the standard based on the above basic
    configuration and parameters. If it involves other standards and the test exceeds
    the above technical content, please contact our company for special
    customization)

     

    (Note: The equipment test conforms to the standard based on the above basic
    configuration and parameters. If it involves other standards and the test exceeds
    the above technical content, please contact our company for special
    customization)

     

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      Stretch Recovery Tester

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      6. The tension is released, and the sample is allowed to recover.
      7. The recovered length is measured after a set time.
      Main Components: - Fixed clamps to hold the sample. - Movable clamps for stretching. - Precision scale or ruler for measuring elongation and recovery. - Timing device (manual or digital) to control stretching and recovery periods. - To assess elastic recovery and dimensional stability after stretching. Applications: - Used in testing knitwear, sportswear, elastic fabrics, and compression garments. - Helps in product development and quality assurance. Stretch Recovery Tester Static Method is designed to determine the stretch recovery property of elastic material by static method. 2.0mm thickness stainless steel frame and base board, makes the tester firm and stable. Sample holder can be slid along the guide rail smoothly and can be fixed at any position of the rail. Test Scopeelastomeric material Testing StandardsASTM D2594、ASTM D3107, etc. key features of a Stretch Recovery Tester Static Method: Adjustable clamps and measurement scale. - Timer for accurate stretch/recovery periods. - Simple mechanical design for ease of use. ✅ 1. Manual or Semi-Automatic Operation - Allows controlled stretching and recovery measurements. - Simple setup for routine quality control. ✅ 2. Adjustable Clamp System - Securely holds samples of various sizes and thicknesses. - Ensures consistent test conditions. ✅ 3. Precision Measurement Scale - Provides accurate readings of elongation and recovery length. - Often graduated in millimeters or inches. ✅ 4. Sturdy Frame - Made of corrosion-resistant metal or coated steel. - Ensures durability and stability during testing. ✅ 5. Time Control Support - Timer to monitor stretch and recovery durations. - Helps standardize test procedures. ✅ 6. Compact Design - Space-saving for lab environments. - Easy to move and operate. ✅ 7. Compliance with Standards - Often designed to meet standards like ASTM D3107 or BS 4294. Would you like a comparison with the dynamic method or specifications for a particular model? key benefits of using a Stretch Recovery Tester Static Method: ✅ 1. Accurate Fabric Performance Analysis- Provides reliable data on stretch and recovery, critical for assessing elasticity and fit. ✅ 2. Easy to Operate- Simple, manual setup makes it ideal for routine testing and quality control. ✅ 3. Cost-Effective- More affordable than dynamic testers, making it suitable for smaller labs or production units. ✅ 4. Standardized Testing- Supports industry-standard methods (e.g., ASTM D3107), ensuring consistency across tests. ✅ 5. Versatile Applications- Suitable for testing knit fabrics, elastic bands, spandex materials, and other stretchable textiles. ✅ 6. Durable and Low Maintenance- Mechanically straightforward with minimal upkeep required. ✅ 7. Enhances Product Development- Helps designers and manufacturers optimize materials for comfort, performance, and durability. Applications: - Textile R&D - Production quality control
      Stretch Recovery Tester (Static Method)

      Stretch Recovery Tester

      - Evaluating materials for comfort, durability, and fit Stretch Recovery Tester Diller In Bangladesh, Stretch Recovery Tester Importer In Bangladesh, Stretch Recovery Tester in Bangladesh, Stretch Recovery Tester in Bd, Stretch Recovery Tester In Uttara, Stretch Recovery Tester Price in Bangladesh, Stretch Recovery Tester Supplier in Bangladesh  
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      Fabric Stiffness Tester
      Fabric Stiffness Tester

      Fabric Stiffness Tester

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      Fabric Stiffness Tester

      Fabric Stiffness Tester

      Fabric Stiffness Tester

        Fabric Stiffness Tester is a lab instrument used to measure the stiffness or flexural rigidity of fabric materials. It evaluates how resistant a fabric is to bending, which influences its drape, comfort, and handling characteristics. Purpose of Fabric Stiffness Tester: To determine the stiffness of textiles by measuring the bending length and calculating flexural rigidity, often using methods like the Cantilever Test (as per ASTM D1388 or ISO 9073-7).   Working Principle of Fabric Stiffness Tester: A fabric strip is slid over a horizontal platform until its free end bends under its own weight to a specific angle (usually 41.5°). The length at which this occurs is used to calculate bending length and stiffness.   Main Components of Fabric Stiffness Tester: - Test Platform: Flat surface for sample movement. - Graduated Scale: Measures the overhanging length of fabric. - Angle Indicator: Guides the measurement based on standard deflection angle. - Fabric Clamp or Guide: Helps place and move the sample smoothly.   Applications of Fabric Stiffness Tester: - Apparel fabrics (e.g., for comfort and drape analysis) - Technical textiles (e.g., automotive, medical fabrics) - Paper, nonwovens, and films Benefits of Fabric Stiffness Tester:
      1. Accurate Measurement of Flexibility - Provides reliable data on fabric stiffness, essential for quality control and product development.
      2. Improves Product Comfort - Helps assess how soft or rigid a fabric will feel in clothing or furnishings.
      3. Supports Material Selection - Aids designers and engineers in choosing the right fabric for specific applications based on stiffness.
       
      1. Quality Assurance - Detects fabric inconsistencies or defects that affect handling or drape.
      2. Standards Compliance - Enables testing as per international standards like ASTM D1388 and ISO 9073-7 for global product approval.
      3. Quick and Simple Operation - Delivers fast results with minimal operator training or preparation.
       
      1. Applicable to Multiple Materials - Suitable for woven, nonwoven, knitted fabrics, paper, and films.
      2. Enhances R&D Accuracy - Supports consistent material testing during product innovation and textile finishing.
        Features of Fabric Stiffness Tester:
      1. Graduated Measurement Scale - Precise scale to measure overhang length for accurate stiffness calculation.
      2. Flat Test Platform - Smooth, level surface ensures consistent and reliable fabric movement.
      3. Standard Deflection Angle Guide - Built-in 41.5° angle reference for consistent stiffness testing (per ASTM/ISO).
      4. Manual or Motorized Models - Available in both types for simple or automated operation depending on lab needs.
      5. Compact Design - Space-saving unit ideal for textile labs and quality control rooms.
       
      1. Sample Holder or Clamp - Ensures correct alignment and smooth feeding of fabric strips during testing.
      2. Durable Construction - Made of corrosion-resistant materials like stainless steel or aluminum for long-term use.
      3. Compliance with Standards - Supports methods like ASTM D1388, ISO 9073-7 for stiffness testing of fabrics.
       
      1. Lightweight and Portable - Easy to move and use in various lab settings.
      2. Low Maintenance - Simple mechanical parts require minimal servicing.
        How to Use Fabric Stiffness Tester (Cantilever Method):
      1. Prepare the Sample - Cut the fabric into a rectangular strip (e.g., 25 mm × 200 mm), as per standard.
      2. Place the Sample - Lay the fabric strip flat on the test platform with one end aligned at the zero mark.
      3. Slide the Fabric - Gently push the fabric forward so it slowly overhangs the platform.
       
      1. Watch for Deflection - Stop sliding when the free end of the fabric bends down to the reference angle (typically 41.5°).
      2. Read the Bending Length - Measure the overhang distance from the scale. This is the bending length (C).
      3. Calculate Flexural Rigidity
      - Use the formula: G = W × C³ Where: - G = Flexural rigidity (mg·cm) - W = Fabric weight per unit area (mg/cm²) - C = Bending length (cm)  
      1. Repeat for Accuracy - Test both warp and weft directions and average the results for better accuracy.
      Tip: Always perform the test in a controlled environment (standard temperature and humidity) for reliable results.         Fabric Stiffness Tester Scope of application It is used to measure the stiffness of cotton, wool, silk, linen, chemical fibers and other woven fabrics, knitted fabrics, general nonwovens, coated fabrics, etc. It is also suitable for measuring the stiffness of paper, leather, film and other flexible materials. Relevant Standards GB/T 18318, ASTM D 1388, IS09073-7, BS EN22313 etc. [Instrument Characteristics] 1. Infrared photoelectric invisible inclined plane detection system replaces the traditional tangible inclined plane, realizes non-contact detection, and overcomes the problem that the measurement accuracy is affected by the sample torsion lifted by the inclined plane. 2. The inclination adjustable mechanism of instrument measurement to meet different test requirements. 3. Stepping motor drive, accurate measurement, smooth operation; 4. The color touch screen display can show the extended length, bending length, bending stiffness of the sample, the warp average, the weft average and the total average of the above values respectively. 5. Printing of Chinese report forms for thermal printers. Technical parameters 1. Test methods: The two method (A method: Weft test, B method: Forward and backward test) 2. Measurement angle:41.5 degree, 43 degree and 45 degree adjustable 3. Extend the length range:5-220 mm (special requirements can be made at the time of ordering) 4. Length resolution:0.01mm 5. Measurement accuracy:±0.1mm 6. Specimen specifications:250×25mm 7. Work platform specifications:250×50mm 8. Specification of sample pressing plate:250×25mm 9. Pushing speed of press plate:3 mm/s; 4 mm/s; 5 mm/s 10. Display output: Touch screen display 11. Print Output: Chinese Report 12. Data Processing Volume: A total of 15 groups, each group less than 20 trials 13. Printer: Thermal printer 14, power supply:AC220V 50Hz 15. Host volume:570mm×360mm×490mm 16. Host weight:20kg
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      Digital Temperature Humidity Meter

      Digital Temperature Humidity Meter

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      Digital Temperature Humidity Meter

      Digital Temperature Humidity Meter

        A Digital Temperature Humidity Meter, also known as a digital hygrometer, is an electronic device used to measure and display the relative humidity (RH) of the air, often along with temperature. It's commonly used in laboratories, industrial settings, storage areas, and homes to monitor moisture levels.   Key Features of Digital Temperature Humidity Meter: - Digital Display: Shows humidity (in % RH) and often temperature (in °C/°F). - Sensor-Based Measurement: Uses capacitive or resistive sensors for accurate readings. - Compact & Portable: Available in handheld or wall-mountable forms. - Data Logging (in some models): Records humidity levels over time for analysis. - Min/Max Readings: Displays historical high and low humidity values.   Common Applications of Digital Temperature Humidity Meter: - Laboratories: Maintaining stable humidity for experiments or sample storage. - Warehouses: Monitoring conditions for sensitive goods (e.g., electronics, paper, pharmaceuticals). - HVAC Systems: Ensuring proper climate control. - Homes: Preventing mold growth or overly dry conditions.   Benefits of Digital Temperature Humidity Meter: - Accurate and quick readings - Easy to use and read - Helps in maintaining comfort, safety, and product integrity Would you like recommendations for models or guidance on calibration? Benefits of Digital Humidity meter Here are the key benefits of using a Digital Humidity Meter:   ✅ 1. Accurate Humidity Monitoring - Provides precise relative humidity (%RH) readings, essential for sensitive environments. ✅ 2. Fast and Real-Time Results - Displays immediate data, allowing for quick adjustments to environmental conditions. ✅ 3. Dual Measurement - Many models also measure temperature, offering a more complete picture of ambient conditions.   ✅ 4. Easy to Use - Simple digital interface with clear display, suitable for both professionals and non-technical users. ✅ 5. Compact and Portable - Lightweight design makes it ideal for field use, indoor monitoring, or mounting on walls. ✅ 6. Prevents Damage - Helps avoid moisture-related issues like mold, corrosion, static buildup, and product degradation.   ✅ 7. Supports Quality Control - Essential for labs, warehouses, and manufacturing environments to maintain product integrity. ✅ 8. Data Logging (Optional) How to use Digital Humidity meter Here are the key features of a Digital Humidity Meter: 1. Digital Display - Shows real-time humidity (%) and often temperature (°C/°F). - Some include backlit screens for easy viewing.   2. High Accuracy Sensors - Uses capacitive or resistive sensors for accurate and stable humidity readings. 3. Min/Max & Hold Functions - Displays minimum, maximum, and current readings. - "Hold" function freezes the current reading for review.   4. Data Logging (in advanced models) - Records humidity data over time for monitoring trends. 5. Portable or Wall-Mountable - Available as handheld, desktop, or wall-mounted units for different environments.   6. Battery or USB Powered - Operates on standard batteries or via USB power for flexibility. 7. Optional External Probes - Some models support external humidity/temperature sensors for remote monitoring. 8. Calibration Option - Allows manual or automatic calibration to maintain accuracy.   Here’s a quick step-by-step guide on how to use a Digital Temperature Humidity Meter: ✅ 1. Power On the Device - Insert batteries (if portable) or plug it in (if wall-mounted). - Press the power button to turn it on. ✅ 2. Place It Properly - Set the meter in an open, well-ventilated area. - Avoid placing near windows, vents, or direct heat sources for accurate readings.   ✅ 3. Wait for Stabilization - Allow the device a few seconds to stabilize and show accurate humidity and temperature readings. ✅ 4. Read the Display - Humidity will be shown as % RH (Relative Humidity). - Most models also display temperature in °C or °F.   ✅ 5. Use Additional Features (if available) - Press buttons to view Min/Max, Data Log, or switch units. - Some advanced models may have Bluetooth or USB for data transfer. ✅ 6. Maintain the Device - Clean sensor area gently if dusty. - Calibrate periodically if required (check manual).  
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      Fabric Flame Retardant Tester

      Fabric flame retardant tester

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      Fabric Flame Retardant Tester
      Fabric Flame Retardant Tester

      Fabric Flame Retardant Tester

        A Fabric Flame Retardant Tester is a specialized laboratory instrument designed to evaluate the flammability characteristics of textiles. It assesses how fabrics react to direct flame exposure, measuring parameters such as ignition time, flame spread rate, after-flame duration, and afterglow time. This testing is crucial for ensuring that textiles meet safety standards for various applications, including apparel, home furnishings, and industrial uses.   Purpose and Applications The primary purpose of a Fabric Flame Retardant Tester is to determine the flame resistance of textile materials. This is essential for:- Apparel Safety: Ensuring garments, especially children's sleepwear and industrial work wear, meet flammability standards. - Home Textiles: Testing curtains, drapes, upholstery, and bedding for fire safety compliance. - Technical Textiles: Evaluating materials used in tents, protective clothing, and automotive interiors.   ⚙️ Key Features Modern Fabric Flame Retardant Testers incorporate several features to ensure accurate and reliable testing:- Adjustable Burner Angles: Allowing tests at various orientations (e.g., 0°, 45°, 90°) to simulate different real-world scenarios. Automated Ignition Systems: Providing consistent flame application and reducing operator variability. - Digital Timing Mechanisms: Accurately recording ignition time, flame spread, after-flame, and afterglow durations.   - Transparent Observation Windows: Enabling safe monitoring of the test without exposure to hazards. - Compliance with International Standards: Meeting protocols such as ASTM D6413, ISO 6941, and EN ISO 15025 for standardized testing procedures.   Testing Standards Fabric Flame Retardant Testers are designed to comply with various international standards, including: - ASTM D6413: Standard Test Method for Flame Resistance of Textiles (Vertical Test). - ISO 6941: Textiles — burning behavior — Measurement of flame spread properties of vertically oriented specimens. - EN ISO 15025: Protective clothing — Protection against heat and flame — Method of test for limited flame spread.   ️ How It Works
      1. Sample Preparation: A fabric specimen is cut to specified dimensions and conditioned as per standard requirements.
      2. Mounting: The sample is mounted vertically or at a specified angle in the testing chamber.
      3. Ignition: A controlled flame is applied to the fabric for a predetermined time.
      4. Observation: The tester records ignition time, flame spread, after-flame time, and afterglow time.
      5. Evaluation: Results are compared against standard criteria to determine compliance.
          ✅ Benefits - Safety Assurance: Ensures textiles meet fire safety regulations, reducing risk in end-use applications. - Quality Control: Identifies flammability issues during the manufacturing process. - Regulatory Compliance: Helps manufacturers meet legal requirements for flammability. - Product Development: Assists in developing flame-retardant materials for specialized applications.   For more detailed information on specific models and their features, you can refer to manufacturers like SDL Atlas's Auto Flam Flammability Tester [1], TESTEX's Vertical Flammability Chamber TF312   How to Use a Fabric Flame Retardant Tester (Vertical Flammability Test Method):
      1. Prepare the Sample
      - Cut the fabric to standard dimensions (usually 300 × 75 mm). - Condition the fabric for 24 hours at 21°C and 65% relative humidity.  
      1. Mount the Sample
      - Place the fabric vertically in the frame inside the test chamber. - Ensure it's held securely with no folds or slack.  
      1. Set Up the Burner Position the burner at the required angle (usually 90° for vertical tests).
      - Adjust flame size according to the standard (about 38 mm for ASTM D6413).
      1. Ignite the Flame - Apply the flame to the bottom edge of the fabric for 12 seconds.
       
      1. Observe and Measure - Start timing when flame is applied.
      - Measure: - After-flame time (how long it burns after flame removal) - After-glow time (how long it glows after burning stops) - Char length (distance burned vertically)  
      1. Record the Results
      - Repeat the test on multiple samples (usually 5) and calculate averages.  
      1. Compare with Standards
      - Evaluate whether the results meet the required flame resistance limits.     fabric flame retardant tester IV type (small 450 method) Scope of application It is used for testing the intensity and speed of burning of flammable textile materials after ignition. (specific ignition nozzles and sample holders can be customized to meet multiple criteria). Related standards GB/T14644 ASTM D1230 CFR1610 etc. Technical parameters 1. The spread of time:0 ~ 999.9S resolution 0.1S 2. The temperature inside the box shows:Room temperature -99 degrees C resolution 1 c 3. Igniting time:1S 4. Type of igniter:4 1/2 syringe 5. Sample clip size:Outer frame:204mm * 78mm inner frame:152mm×38mm 6. Distance from the top of the igniter to the sample surface:8mm 7. Studio size and outline size Studio size:370mm×220mm×350mm Outline size:375mm×245mm×478mm 8. Power supply:AC220V 50Hz 20W 9. Weight:18Kg  
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