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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      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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      Tensile Strength Tester
      Tensile Strength Tester

      Tensile Strength tester

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      Tensile Strength Tester A Tensile Strength Tester is a laboratory instrument used to measure the strength and elongation of materials
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      GSM Cutter with Balance
      GSM Cutter with Balance

      GSM Cutter with Balance

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      GSM Cutter with Balance
      GSM Cutter with Balance

      GSM Cutter with Balance

        A GSM Cutter with Balance is a lab toolset used to determine the GSM (Grams per Square Meter) of fabrics, which indicates the fabric's weight and density. The kit includes a GSM round cutter and a precision weighing balance.   Purpose GSM Cutter with Balance: To accurately measure the weight per unit area of textile, paper, or nonwoven samples for quality control and product classification.   How It Works: GSM Cutter: - A circular blade cuts a fixed area (usually 100 cm²) from the fabric. Weighing Balance: - The cut piece is weighed, and the result is multiplied by 100 to get GSM. GSM = Weight (in grams) × 100   Applications of GSM Cutter with Balance: Textile and garment industry Nonwovens and paper manufacturing QC labs and R&D   Benefits of GSM Cutter with Balance: Accurate GSM Measurement - Ensures precise fabric weight analysis for quality control. Quick and Simple Operation - Allows fast sampling and GSM calculation in minutes. No Need for Area Calculation - Cutter gives a fixed area (usually 100 cm²), simplifying the formula. Improves Product Consistency - Helps maintain uniform fabric weight across batches.   Portable and User-Friendly - Compact design makes it ideal for labs and production floors. Cost-Effective Tool - Offers high accuracy without the need for expensive equipment. Versatile Use - Suitable for fabrics, paper, leather, films, and more.   Features of GSM Cutter with Balance: Rotary Blade Cutter - Stainless steel blades for clean and accurate circular cuts. Fixed Sample Area - Typically 100 cm², eliminating the need for area measurement. Precision Digital Balance   - Measures in grams with high resolution (0.01 g or better).   Rubber Cutting Pad - Protects blade and provides a smooth surface for cutting. Safety Lock - Prevents accidental blade exposure. Compact & Durable Design- Long-lasting, lab-friendly construction.   How to Use GSM Cutter with Balance: Prepare the Fabric Sample- Place the fabric on the rubber cutting pad. Cut the Sample - Hold the GSM cutter firmly and rotate it to cut a 100 cm² circular sample. Turn on the Balance - Power up the digital weighing scale and tare it to zero.   Weigh the Sample - Place the cut fabric piece on the balance and note the weight in grams. Calculate GSM - Multiply the weight by 100 to get GSM.  - GSM = Sample weight (g) × 100 Record the Result- Log the GSM value for quality control or analysis. Clean and Store - Wipe the cutter and balance, and store them safely after use.   GSM Calculation Formula: GSM (g/m²) = (Weight of Sample in grams) × 100 When using a GSM cutter (100 cm²): The cutter gives a fixed area of 100 cm², which is 1/100th of a square meter. So, multiplying the sample's weight by 100 gives the GSM directly. Example: If the sample weighs 1.75 g, then: GSM = 1.75 × 100 = 175 g/m²   Balance Calibration Guide (Manual Calibration): Warm-Up   - Turn on the balance and let it warm up for 10–15 minutes if required. Level the Balance   - Use the built-in bubble level and adjust leveling feet until the bubble is centered. Tare the Balance   - Press the “TARE” or “ZERO” button to reset the display to 0.000 g.   Enter Calibration Mode   - Press the “CAL” or “MODE” button (depends on the model). - Some balances may require holding the button for a few seconds. Use Standard Weight   - When prompted, place a certified calibration weight (e.g., 100g, 200g) on the pan.   - Wait for the display to stabilize.   Confirm Calibration   - The balance will beep or show “PASS” once successful.   - Remove the weight when done. Recheck Zero  - Ensure the display returns to 0.000 g after removing the weight.   Tips: Use certified weights for accuracy (Class F1 or E2). Calibrate in a draft-free, vibration-free environment. Calibrate daily or before critical measurements.     GSM Cutter  & Balance GSM Cutter Brand: Schroder Origin: Germany Capacity: 100 Sq.cm Supplied with 1 pcs cutting Pad and 04 pcs cutting blade. Digital Electronics balance Precision GSM Weight Balance 0.01g to 200g Model: GSM200 Brand: Schroder Origin: Germany
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      Fabric Moisture Permeability Tester
      Fabric Moisture Permeability Tester

      fabric moisture permeability tester

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      Fabric Moisture Permeability Tester
      Fabric Moisture Permeability Tester

      Fabric Moisture Permeability Tester

        A Fabric Moisture Permeability Tester, also known as a Water Vapor Permeability Tester, is a laboratory instrument designed to measure the rate at which water vapor passes through textile materials. This measurement is crucial for assessing the breathability and comfort of fabrics, especially those used in active wear, outdoor gear, medical textiles, and protective clothing.   Purpose of Fabric Moisture Permeability Tester The primary function of this tester is to evaluate a fabric's ability to allow moisture vapor to pass through it, which directly impacts the wearer's comfort by facilitating sweat evaporation and thermal regulation. High moisture permeability indicates better breathability, making the fabric suitable for applications where moisture management is essential.   Working Principle of Fabric Moisture Permeability Tester The tester operates by placing a fabric specimen over a container filled with water. Under controlled temperature and humidity conditions, water vapor passes through the fabric over a specified period. The amount of water vapor transmitted is determined by measuring the weight loss of the container, allowing for the calculation of the Water Vapor Transmission Rate (WVTR).   Common Testing Methods
      1. Upright Cup Method: The fabric covers a cup containing water, and the assembly is placed upright in a controlled environment. After a set duration, the weight loss is measured to determine the WVTR.
      2. Inverted Cup Method: The fabric is sealed over a cup, which is then inverted and exposed to a controlled environment. The amount of water vapor absorbed by the fabric is measured over time.
       
      1. Sweating Hot Plate Test: Simulates human perspiration by measuring the energy required to maintain a constant temperature on a heated plate covered with the fabric, providing insights into the fabric's breathability.
        Key Specifications of Fabric Moisture Permeability Tester - Test Cups: Typically 6 to 8 cups, each with a diameter of approximately 83 mm and a depth of 18.5 mm.- Turntable Speed: Approximately 2 revolutions per minute (RPM) to ensure uniform exposure. - Environmental Conditions: Tests are conducted under controlled temperature (e.g., 23 ± 2°C) and humidity (e.g., 50 ± 5% RH) settings. - Standards Compliance: Conforms to international standards such as ASTM E96, ISO 15496, BS 7209, and JIS L1099.     ✅ Benefits of Fabric Moisture Permeability Tester - Enhanced Product Development: Provides critical data for designing breathable and comfortable textiles- Quality Assurance: Ensures consistency in fabric performance across different production batches- Regulatory Compliance: Helps manufacturers meet industry standards and certifications.   - Consumer Satisfaction: Contributes to the development of garments that offer better moisture management, leading to increased wearer comfort.   Applications of Fabric Moisture Permeability Tester - Active wear and Sportswear: Assessing fabrics for athletic performance and comfort. - Outdoor and Protective Clothing: Ensuring materials provide adequate breathability while offering protection. Medical Textiles: Evaluating materials used in healthcare settings for moisture management. - Technical and Industrial Textiles: Testing specialized fabrics used in various industrial applications.   Features of fabric moisture permeability tester
      1. Multi-Cup Design - Typically includes 6 or more test cups for simultaneous testing of multiple samples.
      2. Rotating Turntable - Ensures uniform air exposure and consistent vapor transmission across all samples.
      3. Precision Weighing System- Accurate measurement of weight loss to calculate water vapor transmission rate (WVTR).
       
      1. Temperature & Humidity Control - Maintains stable environmental conditions (e.g., 23°C, 50% RH) for reliable results.
      2. Digital Display or Software Interface - Displays real-time data and test status; advanced models offer data logging and export.
      3. Compliance with Standards - Supports ASTM E96, ISO 15496, BS 7209, JIS L1099 testing methods.
       
      1. Sealed Test Chambers- Prevents external air interference, improving accuracy.
      2. Corrosion-Resistant Construction - Durable materials suitable for long-term use in lab environments.
      3. Easy Sample Mounting - Quick and secure fabric placement on test cups with sealing rings.
      4. Low Maintenance Design- Simplified components for easy cleaning and upkeep.
        How to Use Fabric Moisture Permeability Tester (Cup Method):  
      1. Prepare the Test Solution - Fill each test cup with a set amount of water (e.g., 50 ml), or a desiccant if using inverted method.
      2. Mount the Fabric - Cut the fabric into circular pieces matching the cup size.
      - Securely seal each fabric over the cup opening with a gasket and ring to prevent leakage.
      1. Weigh the Cups - Record the initial weight of each cup with the fabric mounted.
       
      1. Place on Turntable - Position all cups on the rotating tray inside the controlled chamber.
      2. Set Conditions - Close the chamber and maintain temperature (e.g., 23°C) and relative humidity (e.g., 50%) as per test standard.
      3. Start the Test - Begin rotation (usually ~2 RPM) and let it run for the specified time (often 24 hours).
      4. Weigh the Cups Again- After the test duration, reweigh the cups to determine weight loss due to moisture vapor passing through the fabric.
       
      1. Calculate WVTR - Use the formula: WVTR = (Weight Loss in grams × 24) / (Test Area in m² × Time in hours) Expressed in g/m²/24h.
      2. Clean and Store - Clean cups and components for future use.
          fabric moisture permeability tester Scope of application It is used to determine the moisture permeability of various fabrics (including moisture permeable coated fabrics) and nonwovens such as batting cotton and space cotton. [Related standards] GB/T12704 ASTM E90 JIS L1099A BS 7209 JIS L1099B (custom) etc.   Instrument characteristics 1. Integrated structure of baking oven and constant temperature and humidity box. 2. Microcomputer control, color touch screen Chinese menu operation. 3. Circulating air velocity 0.2-3m/s digital setting. 4. Imported high-precision temperature and humidity sensor, imported motor drive, ceramic heating tube heating.   Technical parameters 1.Work mode: Microcomputer control, color touch screen Chinese menu operation, test environment monitoring. 2. Sample box control temperature:15 ~ 40 C, accuracy 0.1 + C, resolution 0.01 C 3. Heat dissipation mode:Air cooling 4. Sample box control humidity:30 ~ 95%, precision + 2%, resolution 0.01% 5. Test chamber humidification:≥300ml/h 6. Accompany oven control temperature: Room temperature to 200 c 7. Test time:1min~999h59min 8. The rate of circulating steam flow:0. 2-3m/s digital setting resolution 0.01m/s 9. Moisture permeability area:2827㎜2(∮60㎜GB) Optional 3848, 2 (70 70 ASTM) 10. The number of moisture permeable cups.6 (GB) can be replaced by 6 (US standard). 11. Internal dimensions of drying oven:490×400×215mm 12. Power supply:Ac220V 50Hz 6kw 13. Size:930×820×1700mm 14. Weight:350kg
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