ICI Pilling & Snagging Test Machine
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    ICI Pilling & Snagging Test Machine

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    ICI Pilling & Snagging Test Machine

    ICI Pilling & Snagging Test Machine

    ICI Pilling & Snagging Test Machine

     

    An ICI Pilling & Snagging Test Machine is a specialized laboratory instrument designed to evaluate the resistance of textile fabrics to pilling and snagging, which are common surface defects caused by wear and friction. This tester is widely used in quality control and research and development within the textile industry to ensure fabric durability and appearance retention.

     

    The ICI Pilling & Snagging Test Machine simulates the mechanical action that fabrics undergo during actual wear. Test specimens are mounted on polyurethane tubes and placed inside cork-lined boxes. These boxes rotate at a specified speed, causing the specimens to tumble and rub against the cork lining and themselves, thereby replicating the conditions that lead to pilling and snagging

    Digital Control Panel: Equipped with a user-friendly interface, often featuring a touchscreen display for setting test parameters and monitoring progress.

     

    – Detachable Cork Liners: Cork liners inside the boxes are removable, facilitating easy replacement and maintenance. – Compliance with International Standards: Designed to meet various testing standards, including ISO 12945-1, BS 5811, JIS L1076, and IWS TM152, ensuring reliable and comparable results.

     

    ✅ Benefits of ICI Pilling & Snagging Test Machine:

    – Accurate Simulation of Wear Conditions: Replicates the mechanical stresses that fabrics experience during actual use, providing realistic assessments of pilling and snagging tendencies.

    – Enhanced Quality Control: Enables manufacturers to identify and address potential issues in fabric durability before products reach the market.

    – Versatility: Suitable for testing a wide range of fabrics, including woven and knitted materials, under various conditions.

    – Efficient Testing Process: Multiple specimens can be tested simultaneously, increasing throughput and productivity in laboratory settings.

     

    Typical Applications

    – Textile Manufacturing: Assessing the durability of fabrics during the development of new materials or quality assurance of existing products. Research and Development: Studying the effects of different yarns, weaves, and finishes on fabric performance. – Quality Assurance: Ensuring that fabrics meet specified standards for pilling and snagging resistance before mass production.

     

    In summary, the ICI Pilling & Snagging Tester is an essential tool in the textile industry for evaluating the surface durability of fabrics. Its ability to simulate real-life wear conditions and provide standardized assessments helps manufacturers and researchers ensure the quality and longevity of textile products.

     

    Features of ICI Pilling & Snagging Test Machine:

    1. Multiple Test Stations – Typically available in 2, 4, 6 & more -box configurations for simultaneous testing of multiple samples.
    2. Rotating Pilling Boxes – Cork-lined boxes rotate at a fixed speed (usually 60 ± 2 rpm) to simulate wear and friction.

     

    1. Adjustable Timer – Digital timer allows precise control over test duration (usually up to 9999 cycles).
    2. Detachable Cork Liners – Easily replaceable liners to maintain consistent friction surfaces and accurate results.
    3. Standard Tubes & Sample Holders- Polyurethane or foam-covered tubes hold fabric samples in a consistent shape during testing.

     

    1. Digital Display or Touch Panel – User-friendly interface for setting speed, cycle count, and monitoring progress.
    2. Compact and Sturdy Design – Built to withstand long testing cycles and minimize vibration.
    3. Compliance with International Standards – Supports ISO 12945-1, BS 5811, JIS L1076, IWS TM152, etc.
    4. Low Noise Operation – Engineered for quiet performance in lab environments.
    5. Safety Features – Includes secure locking system on doors and overload protection.

     

    How to Use ICI Pilling & Snagging Test Machine:

    1. Prepare Samples – Cut fabric specimens to standard size (typically 125 mm × 125 mm).

    – Mount each sample around a polyurethane tube and secure it with elastic bands or ties.

    1. Load into Pilling Boxes – Place each prepared tube into the cork-lined rotating boxes of the machine.
    2. Set Test Parameters – Use the digital control panel to set the number of revolutions (e.g., 7200 for ISO 12945-1) and speed (usually 60 ± 2 rpm).

     

    1. Start the Test- Close the box lids securely and press “Start.” The boxes will rotate, tumbling the samples inside.
    2. Monitor Progress – The timer counts down the set cycles. No need for manual supervision during the run.
    3. End of Test – Machine stops automatically when the cycle count is reached. Open the boxes and remove the tubes.

     

    1. Evaluate Results – Remove the fabric from the tubes and visually assess pilling or snagging using standard photographic rating scales (e.g., ASTM D3512, ISO 12945)
    2. Clean the Machine – Remove lint and debris from cork liners and clean tubes if needed.

     

    Tip: Always ensure samples are mounted uniformly to avoid inconsistent results.

     

     

    Use ICI Pilling & Snagging Test Machine

    Rolling Pilling Tester

    series rolling Pilling Resistance tester

    type rolling Pilling Resistance instrument

     

    [Scope of application] It is used for testing the pilling degree of fabrics (especially wool knitted fabrics) under no pressure.
    [Related standards]:GB/T4802.3 ISO12945.1 JIS L1076 IWS TM152 BS5811 etc.
    [Instrument characteristics]
    1. color touch screen menu operation in Chinese.
    2. AC servo motor quiet driving, adjustable speed.
    3. Inner village rubber cork adopts detachable design.
    4. Contactless photoelectric counting, liquid crystal display.

     

    Technical parameters of  ICI Pilling & Snagging Test Machine:

    Model: Number of pilling boxes
    2     4       6      9

    Inter Size: 225×225×225mm
    Rotating speed of box: 60±2r/min
    Counting range: The 1~99999 time

     

    [Sample carrying tube]:
    1: The shape is 31.5 x 140 mm weight 52.25g.
    2: 4 root / box
    Power Supply: Ac 220V±10% 50Hz 120W
    Outline size (mm): 930×500×580, 930×500×950, 930×500×1410, 1260×560×1470
    Weight (Kg): 60 65 125 165

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      Fabric air permeability tester

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      Digital Elmendorf Tearing Tester

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      Fabric Moisture Permeability Tester
      Fabric Moisture Permeability Tester

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      Fabric Moisture Permeability Tester
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        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
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      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.
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      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.
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      Fiber Oil Fast Extractor
      Fiber Oil Fast Extractor

      Fiber Oil Fast Extractor

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      Fiber Oil Fast Extractor

      Fiber Oil Fast Extractor

      Fiber Oil Fast Extractor

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      2. Solvent Addition: Place the sample into a metal tube and add an appropriate solvent (e.g., petroleum ether, ethyl ether).
       
      1. Extraction: Apply weight to the sample to facilitate the dissolution of oils into the solvent.
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      1. Accurate Oil Content Measurement- Precisely determines oil or finish content in fibers, crucial for quality control.
      2. Rapid Extraction Process - Delivers fast results, improving lab efficiency and productivity.
      3. Simultaneous Multi-Sample Testing - Multiple workstations (e.g., 4 at once) reduce testing time for bulk samples.
       
      1. Improved Product Quality - Helps maintain consistent oil levels, which affect dyeing, processing, and fabric performance.
      2. Automatic Operation - Automated pressing and heating reduce manual effort and operator error.
      3. Digital Monitoring - Built-in timer, temperature control, and oil calculator enhance accuracy and usability.
       
      1. Compliance with Standards - Supports industry methods like GB/T 6504-2017, ensuring reliable and standard-compliant results.
      2. Safe Solvent Handling - Enclosed design minimizes solvent exposure and evaporation loss.
        Features of Fiber Oil Fast Extractor:
      1. Multiple Test Stations - Usually equipped with 2 to 4 independent work units for parallel testing.
      2. Automatic Weight Pressing System - Applies consistent pressure on samples for uniform solvent extraction.
      3. Microcomputer Temperature Control - Maintains precise heating (typically 90–120°C) with ±1°C accuracy.
       
      1. Built-in Timer and Calculator - Allows setting extraction time and calculates oil content directly.
      2. Solvent Evaporation Plate- Heats and evaporates solvent quickly, leaving only the oil residue.
      3. Digital Display - Shows time, temperature, and process status for user-friendly operation.
      4. Compact and Durable Design - Made with corrosion-resistant materials suited for chemical handling.
       
      1. Safety Features - Includes overheat protection and enclosed solvent chamber to reduce exposure risk.
      2. Standard Compliant - Designed to meet GB/T 6504-2017 and similar industry testing standards.
        How to Use Fiber Oil Fast Extractor:
      1. Prepare the Sample - Cut 5–10 g of fiber or yarn into small pieces and place in the sample tube.
      2. Add Solvent - Pour a suitable solvent (e.g., petroleum ether) into the tube to cover the sample.
      3. Apply Weight - Place the extractor's weight or press system onto the sample to aid extraction.
       
      1. Start Extraction - Activate the machine. The solvent dissolves the oils and flows to the heating plate.
      2. Heat for Evaporation - Set the temperature (typically 90–120°C). The solvent evaporates, leaving oil on the plate.
      3. Measure Oil Content- After drying, weigh the remaining oil. Use the built-in calculator or formula:
      Oil % = (Oil weight / Original sample weight) × 100
      1. Clean the Unit - After cooling, clean all parts to prepare for the next test.
        Fiber Oil Fast Extractor

        Fiber Oil Fast Extractor

       
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      Xenon Arc Light Fastness Tester
      Xenon Arc Light Fastness Tester

      Xenon Arc Light Fastness Tester

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      Xenon Arc Light Fastness Tester Xenon Arc Light Fastness Tester is a laboratory instrument used to evaluate the color fastness
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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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