Fabric Stiffness Tester
Fabric Stiffness Tester
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    Fabric Stiffness Tester
    Fabric Stiffness Tester
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    ICI Pilling & Snagging Test Machine
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    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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      1. Compressed Air System - Ensures continuous fabric movement and realistic simulation of wear.
      2. Digital Timer- Allows precise setting of test duration with easy-to-read display.
      3. Viewing Windows- Transparent chamber doors for monitoring fabric movement during testing.
      4. Standard Compliant Design- Meets ASTM D3512, ISO 12945-3, GB/T 4802.4 and other major standards.
       
      1. Robust Construction- Durable materials and components designed for long-term laboratory use.
      2. Easy Sample Handling - Quick-open chamber lids and simple sample placement process.
      3. Compact Footprint- Saves space in laboratory environments.
        How to Use Random Tumble Pilling Tester:
      1. Prepare Samples- Cut fabric into standard-sized specimens (usually circular or rectangular per ASTM/ISO specs)- Condition samples as per the standard (usually 24 hrs at 21°C, 65% RH).
      2. Load the Chambers - Place each sample into a cork-lined test chamber. - Add a small piece of gray cotton backing fabric if required by the method.
       
      1. Set Parameters - Adjust compressed air pressure (typically 14–21 kPa or 2–3 psi).
      - Set the test time (e.g., 30–60 minutes) using the digital timer.
      1. Start the Test- Close the chamber doors and press start. - Impellers rotate, tumbling the samples randomly with air flow.
       
      1. Stop and Unload - Once the timer ends, remove the samples carefully.
      2. Evaluate Pilling - Compare the tested samples to standard pilling rating photographs or scales.
      - Assign a rating from 1 (severe pilling) to 5 (no pilling).
      1. Record Results - Document the pilling grades and any observations.
          Random Tumble Pilling Tester [Scope of application]: It is used to test the fuzzing and pilling performance of the fabric under the condition of free rolling and friction in the drum. [Related standards]: GB/T4802.4 (Standard Drafting Unit) ISO12945.3, ASTM D3512, ASTM D1375, DIN 53867, ISO 12945-3, JIS L1076, etc. [Technical parameter]: 1. Number of boxes: 4 2. Roller specifications: diameter (146±1.0) mm, depth (152.4±1.0) mm; 3. Lining material: polychloroprene lining thickness (3.2±0.4) mm. , Hardness (60~70) IRHD; 4. Impeller specifications: φ12.7 mm×120.6 mm; 5. Plastic blade specifications: 10 mm×65 mm; 6. Rotation speed: 1~2400 rpm can be set freely 7. Working pressure: 14kPa~21kPa; 8. Time counting: (1~999) min. 9. Power supply: AC220V±10% 50Hz 80W 10. Appearance: (480×400×680)mm 11. Weight: 40kg [Standard accessories] Items and specifications Qty. Note Fuse 2 3A Main machine 1 Power cable 1 Air tube 1 Φ8mm Grey cotton sliver 4 Cork lining 4 Rating sample photo 1 White glue 1    
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      Hydraulic GSM Cutter
      Hydraulic GSM Cutter

      Hydraulic GSM Cutter

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      Hydraulic GSM Cutter

      Hydraulic GSM Cutter

      Hydraulic GSM Cutter

        A Hydraulic GSM Cutter is a precision instrument used to cut circular fabric samples for GSM (Grams per Square Meter) testing. It uses hydraulic pressure to ensure clean, uniform cuts through multiple fabric layers, making it ideal for high-throughput or thicker materials.   Purpose of Hydraulic GSM Cutter: - To prepare accurate circular samples (usually 100 cm² area) for determining fabric weight in GSM. - Used widely in textile testing labs for quality control and consistency.   Working Principle of Hydraulic GSM Cutter: - Fabric is placed on a cutting pad. - The cutter, equipped with a sharp circular blade, is hydraulically pressed down on the fabric. - The cut sample is then weighed to calculate GSM using a formula or GSM scale.   Applications of Hydraulic GSM Cutter: - Suitable for woven, knitted, and nonwoven fabrics. - Used in textile mills, labs, and R&D centers.   Benefits of Hydraulic GSM Cutter:
      1. High Cutting Precision - Ensures consistent and accurate fabric sample size for reliable GSM results.
      2. Effortless Operation- Hydraulic action reduces manual effort and operator fatigue.
      3. Ideal for Thick or Multi-Layer Fabrics - Cuts through dense or multiple fabric layers cleanly.
       
      1. Time-Saving - Speeds up the sample preparation process, especially for high-volume testing.
      2. Improves Test Accuracy - Uniform samples help eliminate errors in GSM calculation.
      3. Durable and Long-Lasting - Robust construction ensures stability and extended service life.
       
      1. Safety Enhancement - Reduces risk of injury compared to manual rotary cutters.
      2. Consistent Pressure Application - Hydraulic mechanism maintains steady force for each cut.
        Features of Hydraulic GSM Cutter:
      1. Hydraulic Press Mechanism - Applies consistent and strong pressure for clean, even cuts.
      2. Standard Cutting Die (100 cm²) - Produces fabric samples suitable for GSM testing with standard area.
      3. Heavy-Duty Construction - Built with robust metal frame for long-term lab or industrial use.
       
      1. Sharp Stainless Steel Blades - Durable and replaceable blades ensure smooth, precise cuts.
      2. Cutting Pad Included - Comes with a rubber or nylon base to protect blades and ensure clean edges.
      3. Simple Lever or Button Operation - Easy to use with minimal training required.
      4. Non-slip Base - Provides stability during operation for safe, accurate cutting.
      5. Supports Various Fabric Types
      - Suitable for woven, knitted, nonwoven, technical textiles, and coated fabrics.   How to Use Hydraulic GSM Cutter:
      1. Place the Cutting Pad - Lay the rubber or nylon cutting pad on a flat surface.
      2. Position the Fabric - Place the fabric sample flat and smooth on the cutting pad.
      3. Align the Cutter - Position the GSM cutter die over the desired area of the fabric.
      4. Activate Hydraulic Press - Pull the lever or press the button to apply hydraulic pressure and cut the sample.
       
      1. Remove the Sample - Lift the cutter and carefully take out the circular fabric piece (usually 100 cm²).
      2. Weigh the Sample - Place the cut sample on a precision balance or GSM scale to determine weight.
      3. Calculate GSM - Multiply the sample weight (in grams) by 100 to get GSM.
        GSM Formula (Grams per Square Meter): GSM is used to measure the weight of fabric and indicates its thickness and quality. Formula: GSM = (Sample Weight in grams × 10000) / Sample Area in cm² For standard cutters that cut 100 cm² samples: GSM = Sample Weight (in grams) × 100   Example: - If a 100 cm² fabric sample weighs 1.5 grams: GSM = 1.5 × 100 = 150 GSM
      Hydraulic GSM Cutter

      Hydraulic GSM Cutter

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      Digital Elmendorf Tearing Tester

      Digital Elmendorf tearing tester

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      Digital Elmendorf Tearing Tester
      Digital Elmendorf Tearing Tester

      Digital Elmendorf Tearing Tester

        Digital Elmendorf Tearing Tester is a precision instrument used to measure the tear strength of materials like woven fabrics, paper, plastic films, and nonwovens. It determines how much force is required to continue tearing a pre-slit sample. Key Functions of Digital Elmendorf Tearing Tester: - Measures propagation tear resistance, not initial tear. - Uses a pendulum to apply force; the energy lost during tearing is calculated to determine tear strength. - Equipped with a digital display for direct reading of results in grams or millinewtons. Core Components: - Pendulum Arm: Applies tearing force. - Clamps: Secure the sample before and after the tear. - Cutting Blade: Creates a precise slit at the start of the test. - Digital Display Unit: Shows the tearing force result clearly and instantly. - Counterweights: Optional weights for increasing test range (for stronger materials).   Applications of Digital Elmendorf Tearing Tester: - Testing tear resistance of: - Textile fabrics (especially woven) - Paper and cardboard - Plastic films - Nonwovens - Packaging materials Benefits of Digital Elmendorf Tearing Tester:
      1. Accurate Tear Strength Measurement - Provides precise data on tear resistance, critical for quality control and product performance.
      2. Digital Readout - Easy-to-read display gives instant, reliable results without manual calculations.
      3. High Reproducibility - Ensures consistent test outcomes due to controlled tearing angle and speed.
       
      1. Fast Testing Process - Simple loading and quick test cycle increase lab efficiency.
      2. Suitable for Various Materials - Tests a wide range of flexible materials like textiles, paper, plastic, and packaging.
      3. Customizable Range - Use of optional weights extends the test range for low to high tear strength materials.
      4. Low Sample Waste - Requires small fabric or material samples, reducing waste during testing.
      5. Standards Compliance - Meets international testing standards (e.g., ASTM D1424, ISO 13937) for credibility and uniformity.
      Features of Digital Elmendorf Tearing Tester: Digital Display - Provides accurate and direct reading of tear strength in grams, mN, or cN. Pendulum Mechanism - Uses a swinging pendulum to simulate tear propagation with consistent force. Adjustable Test Range - Includes interchangeable pendulum weights to test various material strengths.
      1. Precision Sample Clamp - Securely holds samples in place to ensure accurate tear initiation.
      2. Pre-Cutting Blade - Integrated knife creates a precise initial slit in the sample before tearing.
      3. User-Friendly Interface - Simple buttons and screen navigation for ease of operation.
      4. Standard Test Compliance - Compatible with ASTM D1424, ISO 1974, ISO 13937, and other tear strength standards.
      1. Sturdy Construction - Made with durable materials for long-lasting performance and stable operation.
      2. Compact Design - Space-efficient footprint ideal for laboratory environments.
      3. Data Output Options- Some models offer USB or printer connectivity for result documentation.
      How to Use a Digital Elmendorf Tearing Tester:
      1. Prepare the Sample - Cut the material (fabric, paper, film, etc.) to standard size (typically 100 × 63 mm for textiles) and slit it with the pre-cutter as required.
      2. Select Pendulum Weight - Choose the appropriate pendulum or add counterweights based on expected tear strength.
      1. Calibrate the Machine - Set the pendulum to its starting position and zero the display.
      2. Clamp the Sample - Fix one half of the sample in the stationary clamp and the other in the moving clamp.
      3. Cut the Initial Slit - Use the integrated blade to make a precise cut at the marked slit area (usually 20 mm).
      1. Release the Pendulum - Trigger the pendulum to swing and tear the sample through the pre-slit.
      2. Read the Result - The digital display will show the tearing force automatically (in g, mN, or cN).
      3. Record or Export Data - Save or print the result if your model supports USB or printer connection.
      4. Reset for Next Test - Reposition the pendulum and prepare a new sample for the next cycle.
      Safety Tip: - Always ensure your hands are clear before releasing the pendulum.   Digital Elmendorf tearing tester Scope of application It is used for the determination of the tear resistance of various woven fabrics (Elmendorf method), and it can also be used for the determination of the tear resistance of thick paper, plastic sheeting, electrical tape, etc. Related standards GB/T 3917.1 FZ/T60006 FZ/T75001 ISO1974/9290 ASTM D1424/5734 etc. Instrument characteristics 1. Maximum 300N test range 2. Microcomputer control, digital decoding, support online communication 3. Color touch screen control, Chinese and English menu operation interface 4. Pneumatic clamping, automatic cutting 5. A variety of measurement units (cN, gf) selection 6. Fully automatic operation with safe operation protection. 7. Automatically increase potential energy [Technical parameter]: 1. Test range: first gear: (0~16)N second gear: (0~32)N third gear: (0~ 64)N fourth gear: (0~128)N fifth gear: (0~300)N 2. Test accuracy: ≤±0.2%F·S 3. Tearing length: 43mm (non-standard 30-60mm can be set) 4. Automatic incision length: (20±0.2)mm 5. Sample size: (100×63)mm 6. Specimen clamping: pneumatic way 7. Sample test: Up to 10 sets per group on the device side, and 30 sets of data can be selected to be saved 8. Power supply: AC220V±10% 50Hz 100W 9. Dimensions: (650×660×680)mm 10. Weight: 50kg [Sample of control interface]:(English version is also available.)
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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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