Pneumatic bursting tester
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    Bursting strength tester

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    Bursting strength tester

    Pneumatic bursting strength tester

    true burst

    Pneumatic bursting tester
    China national patent:ZL201210486480.8 ZL201220628425.3

    Pneumatic bursting strength tester
    China national patent:ZL201210486480.8 ZL201220628425.3
    [Scope of application]:
    It is used to measure the burst strength and burst expansion degree of various fabrics,
    including knitted fabrics, woven fabrics, non-woven fabrics, laminated fabrics and other
    fabrics made by other processes, under standard conditions or wet conditions.

    This method is employed to assess the burst strength and degree of burst expansion of various types of fabrics, such as knitted, woven, non-woven, laminated, and others produced through different processes, under both standard and wet conditions.

    This technique is utilized to evaluate the burst strength and extent of burst expansion in various fabric types, including knitted, woven, non-woven, laminated, and others produced through diverse manufacturing processes, under both standard and wet conditions.

    Benefits of Bursting strength tester:

    Fast testing cycle for fast feedback to the production • Auto-start, a photocell detects the presence of a sample and automatically initiates a measurement sequence, thus allowing hands-free operation • Auto-cycling function permits the continuous cycling of the upper pressure foot to facilitate representative and continuous measurements

    • Available with automatic test strip feeder Measurements are simple to make with the Mullen type Bursting Strength Tester. Fast automatic measurements Measurement starts automatically once a test piece has been placed in the measuring gap. The clamping foot descends, and a bursting strength measurement is made.

    The sample is then quickly released and is ready for the next measurement at a new position. To maximize the sample measurement rate, the tester uses a minimum of time between the bursts, so that a series of 10 measurements can be done in less than 45 seconds. The actual measuring time depends of course on the type of paper or paper board being tested. Three

    Different test results can be reported after a single measurement; bursting strength standard, bursting strength compensated, and bursting energy absorption (BEA).Bursting strength tester can be compensated for the stiffness of the diaphragm For low bursting strength levels, the stiffness of the diaphragm can account for a large portion of the bursting strength value. If desired, the device can also measure, calculate, and report effective bursting strength compensated from the effects of the diaphragm.

    Measurement of Bursting Energy Absorption (BEA) is used to determine the energy absorption capability of a material. Strong, flexible paper has higher energy absorption values, while brittle, stiff paper has lower values. Bursting Strength Tester calculates and reports BEA according to the SCAN P 24 standard

    Related standards of Bursting strength tester:

    GB/T7742.2 (the first drafting unit of national standards) ISO13938-2, etc.
    [Instrument characteristics]:
    1. Microcomputer control, automatic burst test, automatic correction, automatic data
    processing, and output results in the form of experimental report.
    2. Aerodynamics, high cleanliness.
    3. Color touch screen interface, Chinese and English menu operation, support online
    communication.

    1. Bursting pressure can reach up to 1.2MPa
      5. The maximum burst and expansion degree can reach 70mm.
      6. Strengthen the lighting system on the test surface.
      7. The main aerodynamic force helps to clamp the sample system.
      8. A variety of test areas are available, and the switching is easy.
    2. A variety of unit conversions between Chinese and English.
      10. Reliable anti-pinch safety protection design.
      [Technical parameter]:
      1. Test range: (0~1)Mpa (the range above 1Mpa needs to be customized)
      2. The minimum graduation value: 0.0001Mpa
      3. Pressurization mode: direct pressurization, timing pressurization, and expansion degree
      pressurization.

    4. Test accuracy: ≤±0.2%F·S
    5. Thickness of elastic diaphragm: ≤2mm
    6. Testing area: cm²) 100 50 10 7.3 Dia.φ(mm) φ112.8 φ79.8 φ35.7 φ30.5
    7. Air pressure rate: non-linear segmented pressurization (0.1~0.5) L/min
    8. Safety cover: high-transparent plexiglass
    9. Power supply: AC220V±10% 50Hz 800W
    10. Dimensions: (470×490×780)mm (host L×W×H)

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    1. Watch for Deflection - Stop sliding when the free end of the fabric bends down to the reference angle (typically 41.5°).
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    - 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.
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    HTHP Glycerin bath dyeing machine

    HTHP dyeing machine

      The HTHP Glycerin Bath Dyeing Machine (High Temperature High Pressure) is a laboratory or small-scale dyeing machine designed to dye textile samples, especially synthetic fibers like polyester, under high temperature and pressure using glycerin as a heating medium instead of water. Key Features:
    1. High Temperature Capability - Operates up to 140°C or more, ideal for disperse dyeing of polyester which requires elevated temperatures.
    2. Glycerin as Heat Transfer Medium - Glycerin allows for precise and uniform heating beyond the boiling point of water, without pressure buildup as in steam-based systems.
    1. Small Sample Dyeing - Used for lab-scale dyeing of fabric or yarn samples (commonly 5–10 g per tube), useful in R&D or color matching.
    2. Multiple Sample Capacity - Usually has multiple dyeing tubes/chambers for simultaneous dyeing of several samples under identical conditions.
    1. Accurate Temperature and Time Control - Digital or microprocessor-based controllers regulate temperature, heating rate, and timing precisely.
    2. Uniform Dyeing - Ensures even dye penetration due to consistent heat distribution and controlled rotation or agitation.
    1. Energy Efficient Glycerin’s heat retention reduces energy consumption compared to steam systems.
    2. Compact and Durable Design - Bench-top design, made from stainless steel and heat-resistant components for long life and lab use.
    Applications: - Disperse dyeing of polyester. - Color matching and development. - Small-batch dye recipe trials before production. Benefits of HTHP Glycerin Bath Dyeing Machine: High-Temperature Dyeing - Enables dyeing of synthetic fibers like polyester at temperatures above 100°C without requiring high-pressure steam systems.
    1. Uniform Heating with Glycerin - Glycerin provides consistent heat transfer, ensuring even dye uptake and minimizing shade variation.
    1. Energy Efficient- Glycerin retains heat longer, reducing energy consumption compared to traditional steam-based dyeing.
    2. Accurate Process Control - Precise temperature and time control enhance reproducibility and dyeing consistency.
    1. Ideal for Lab and Sample Work - Perfect for R&D, shade matching, and recipe development with small fabric or yarn samples.
    2. Multi-Sample Dyeing - Allows multiple samples to be dyed simultaneously under identical conditions, saving time and effort.
    3. Compact and Safe - Bench-top design fits in laboratories and is safer than high-pressure steam systems.
    1. Low Maintenance - Simplified operation and fewer mechanical parts compared to steam-based systems lower upkeep needs.
    2. Faster Dyeing Cycles- Glycerin heats and cools quickly, reducing overall dyeing time.
    Features of HTHP Glycerin Bath Dyeing Machine:
    1. High-Temperature Operation - Capable of dyeing up to 140–150°C, suitable for synthetic fibers like polyester.
    2. Glycerin as Heat Medium - Uses glycerin for uniform, efficient heat transfer without generating high steam pressure.
    1. Multiple Dyeing Chambers - Usually equipped with 6–24 tubes for simultaneous multi-sample dyeing under identical conditions.
    2. Digital Temperature Controller- Offers precise control of temperature, time, and heating rate with programmable settings.
    1. Compact and Lab-Friendly Design - Bench-top model, easy to operate in laboratory environments with limited space.
    2. Stainless Steel Construction - Corrosion-resistant and durable for long-term, high-temperature operation.
    3. Safety Features - Includes over-temperature protection and thermal insulation to prevent heat loss and ensure operator safety.
    1. Agitation or Sample Rotation- Some models offer rotation or agitation for uniform dye penetration.
    2. Energy Efficient Heating - Glycerin’s heat retention improves energy efficiency over water- or steam-based systems.
    3. Low Maintenance - Simplified mechanical system reduces the need for frequent servicing.
    HTHP Glycerin Bath Dyeing Machine dealer In Bangladesh, Glycerin Bath Dyeing Machine Importer in Bangladesh, HTHP  Dyeing Machine in Bangladesh, HTHP Bath Dyeing Machine in Bd, HTHP Dyeing Machine In Uttara, Glycerin Bath Dyeing Machine Price in Bangladesh, HTHP Dyeing Machine Supplier in Bangladesh, Glycerin Bath Dyeing Machine in Bangladesh,   High temperature glycerin Bath Dyeing machine. Brad: DUNLIN Origin: China Application scope of high temperature glycerin machine: it is suitable for high temperature sample dyeing and washing fastness test of needle woven fabric, woven fabric, yarn, cotton, loose fiber and zipper. It is a high temperature dyeing sample machine specially designed for dyeing industry, chemical industry, raw material and cloth industry. It can accurately simulate the actual production conditions and achieve the required process effect. Parameter specification: Model: H-24P Number of test cups: 24*450ml Maximum dyeing temperature: 235 ℃ Bath ratio: 1:10~1:60 Heating power: 10800w Heating medium: Glycerin Motor power: 0.75w Rotor speed: 42 r/min
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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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    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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