Spray Rating Tester
Spray Rating Tester
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    Spray Rating Tester
    Spray Rating Tester
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    Spray Rating Tester

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    Spray Rating Tester

    Spray Rating Tester

    Spray Rating Tester

     

    The Spray Rating Tester is a textile testing instrument used to evaluate the water resistance or water repellency of fabric surfaces. It measures how well a fabric can resist wetting when exposed to a controlled spray of water, helping assess its performance in rain or damp conditions.

     

    Purpose of Spray Rating Tester

    – To assess surface wetting resistance of textiles.

    – Commonly used for outdoor clothing, rainwear, tents, and performance fabrics.

     

    Working Principle of Spray Rating Tester

    – A fabric specimen is mounted at a 45° angle.

    – Water is sprayed from a standard nozzle for a specific time.

    – After spraying, the fabric is visually rated based on the appearance of water drops and wetting.

     

    Key Components of Spray Rating Tester

    – Spray Nozzle: Delivers a consistent, standard water spray.

    – Funnel & Reservoir: Controls the flow and volume of water.

    – Specimen Holder: Positions the fabric at a 45° angle.

    – Spray Stand: Ensures accurate nozzle height and positioning.

     

    Standards Used of Spray Rating Tester

    – AATCC 22

    – ISO 4920

    – BS EN 24920

     

    Applications of Spray Rating Tester

    – Rainwear and water-resistant textiles.

    – Quality control in fabric finishing.

    – R&D for performance apparel.

     

    Benefits of Spray Rating Tester:

    1. Quick and Simple Evaluation – Offers a fast way to assess fabric water repellency without complex setup.
    2. Standardized Testing- Complies with AATCC 22 and ISO 4920, ensuring globally accepted results.
    3. Cost-Effective- Low maintenance and no power requirement make it economical for routine lab use.

     

    1. Improves Fabric Performance – Helps manufacturers develop or improve water-resistant textiles.
    2. Non-Destructive Test – Does not damage the fabric, allowing for additional tests on the same sample.
    3. Visual Grading- Easy to interpret using a standard spray rating chart (0 to 100 scale).
    4. Supports Quality Control – Detects finish degradation or variation in water-repellent treatments.
    5. Portable and Compact- Lightweight design allows easy use in various lab or field settings.

     

    Features of Spray Rating Tester:

    1. Standardized Spray Nozzle – Delivers consistent water spray per AATCC and ISO specifications.
    2. 45° Specimen Mounting Angle – Ensures uniform test setup for accurate and repeatable results.
    3. Stainless Steel or Aluminum Frame – Corrosion-resistant and durable for long-term use with water exposure.

     

    1. Water Reservoir and Funnel System – Provides precise water volume (usually 250 ml) for each test.
    2. Graduated Spray Stand- Fixed height (150 mm above specimen) for controlled spray impact.
    3. Detachable Specimen Holder- Easy loading and removal of fabric samples.
    4. Compact and Lightweight Design – Portable and convenient for both lab and field testing.
    5. No Electricity Required – Fully manual operation increases reliability and reduces operating costs.

     

    How to Use Spray Rating Tester:

    1. Prepare the Sample – Cut fabric to standard size (usually 180 × 180 mm). – Condition the sample if required (21°C, 65% RH for 24 hours).
    2. Mount the Fabric – Place the fabric on the specimen holder at a 45° angle.
    3. Fill the Reservoir – Pour 250 ml of distilled water into the upper funnel.

     

    1. Start the Test – Release the water through the nozzle; it sprays over the fabric for about 25–30 seconds.
    2. Inspect the Fabric – After spraying, visually assess the water beading or penetration on the surface.
    3. Rate the Sample – Compare the fabric’s wetting pattern with the standard spray rating chart: – 100 = No sticking/wetting – 90–50 = Partial wetting – 0 = Complete wetting
    4. Record the Rating – Document the spray rating for quality control or reporting.

     

    Spray Rating Tester,
    Water Repellency Tester
    Spray Reting Tester

    [Scope of application]:
    Used for the determination of moisture resistance (wetting grade) of various fabrics
    which have been or have not been treated with water resistance or water repellency.
    [related standards]:
    GB/T4745 ISO4920 AATCC22 JISL1092 etc.
    [technical parameters]:
    1. Glass funnel:150 x 150 (capacity 500ml)
    2. Specimen placement angle:The level is 45 degrees.
    3. Distance from nozzle to sample center:150mm
    4. Specimen diameter:Ф150mm
    5. Size of water receiving pan:500×400×30mm
    6. Matching measuring cups:500ml
    7, size 500 x 400 x 500mm
    8. Instrument weight:5Kg

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    Description

    Spray Rating Tester

    Spray Rating Tester

    Spray Rating Tester

     

    The Spray Rating Tester is a textile testing instrument used to evaluate the water resistance or water repellency of fabric surfaces. It measures how well a fabric can resist wetting when exposed to a controlled spray of water, helping assess its performance in rain or damp conditions.

     

    Purpose of Spray Rating Tester

    – To assess surface wetting resistance of textiles.

    – Commonly used for outdoor clothing, rainwear, tents, and performance fabrics.

     

    Working Principle of Spray Rating Tester

    – A fabric specimen is mounted at a 45° angle.

    – Water is sprayed from a standard nozzle for a specific time.

    – After spraying, the fabric is visually rated based on the appearance of water drops and wetting.

     

    Key Components of Spray Rating Tester

    – Spray Nozzle: Delivers a consistent, standard water spray.

    – Funnel & Reservoir: Controls the flow and volume of water.

    – Specimen Holder: Positions the fabric at a 45° angle.

    – Spray Stand: Ensures accurate nozzle height and positioning.

     

    Standards Used of Spray Rating Tester

    – AATCC 22

    – ISO 4920

    – BS EN 24920

     

    Applications of Spray Rating Tester

    – Rainwear and water-resistant textiles.

    – Quality control in fabric finishing.

    – R&D for performance apparel.

     

    Benefits of Spray Rating Tester:

    1. Quick and Simple Evaluation – Offers a fast way to assess fabric water repellency without complex setup.
    2. Standardized Testing- Complies with AATCC 22 and ISO 4920, ensuring globally accepted results.
    3. Cost-Effective- Low maintenance and no power requirement make it economical for routine lab use.

     

    1. Improves Fabric Performance – Helps manufacturers develop or improve water-resistant textiles.
    2. Non-Destructive Test – Does not damage the fabric, allowing for additional tests on the same sample.
    3. Visual Grading- Easy to interpret using a standard spray rating chart (0 to 100 scale).
    4. Supports Quality Control – Detects finish degradation or variation in water-repellent treatments.
    5. Portable and Compact- Lightweight design allows easy use in various lab or field settings.

     

    Features of Spray Rating Tester:

    1. Standardized Spray Nozzle – Delivers consistent water spray per AATCC and ISO specifications.
    2. 45° Specimen Mounting Angle – Ensures uniform test setup for accurate and repeatable results.
    3. Stainless Steel or Aluminum Frame – Corrosion-resistant and durable for long-term use with water exposure.

     

    1. Water Reservoir and Funnel System – Provides precise water volume (usually 250 ml) for each test.
    2. Graduated Spray Stand- Fixed height (150 mm above specimen) for controlled spray impact.
    3. Detachable Specimen Holder- Easy loading and removal of fabric samples.
    4. Compact and Lightweight Design – Portable and convenient for both lab and field testing.
    5. No Electricity Required – Fully manual operation increases reliability and reduces operating costs.

     

    How to Use Spray Rating Tester:

    1. Prepare the Sample – Cut fabric to standard size (usually 180 × 180 mm). – Condition the sample if required (21°C, 65% RH for 24 hours).
    2. Mount the Fabric – Place the fabric on the specimen holder at a 45° angle.
    3. Fill the Reservoir – Pour 250 ml of distilled water into the upper funnel.

     

    1. Start the Test – Release the water through the nozzle; it sprays over the fabric for about 25–30 seconds.
    2. Inspect the Fabric – After spraying, visually assess the water beading or penetration on the surface.
    3. Rate the Sample – Compare the fabric’s wetting pattern with the standard spray rating chart: – 100 = No sticking/wetting – 90–50 = Partial wetting – 0 = Complete wetting
    4. Record the Rating – Document the spray rating for quality control or reporting.

     

    Spray Rating Tester,
    Water Repellency Tester
    Spray Reting Tester

    [Scope of application]:
    Used for the determination of moisture resistance (wetting grade) of various fabrics
    which have been or have not been treated with water resistance or water repellency.
    [related standards]:
    GB/T4745 ISO4920 AATCC22 JISL1092 etc.
    [technical parameters]:
    1. Glass funnel:150 x 150 (capacity 500ml)
    2. Specimen placement angle:The level is 45 degrees.
    3. Distance from nozzle to sample center:150mm
    4. Specimen diameter:Ф150mm
    5. Size of water receiving pan:500×400×30mm
    6. Matching measuring cups:500ml
    7, size 500 x 400 x 500mm
    8. Instrument weight:5Kg

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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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      Stretch Recovery Tester (Static Method)

      Stretch Recovery Tester Static Method

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      Stretch Recovery Tester Static Method 

      Stretch Recovery Tester (Static Method)

      Stretch Recovery Tester

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

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      Random Tumble Pilling Tester

      Random Tumble Pilling Tester

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      Random Tumble Pilling Tester

      Random Tumble Pilling Tester

      Random Tumble Pilling Tester

        The Random Tumble Pilling Tester is a specialized instrument designed to assess the pilling resistance of textile fabrics. Pilling refers to the formation of small, fuzzy balls (pills) on the fabric surface due to wear and friction. This tester simulates the wear conditions that fabrics experience during actual use, providing valuable data on their durability and appearance retention.   Purpose of Random Tumble Pilling Tester The primary function of the Random Tumble Pilling Tester is to evaluate how fabrics resist pilling, fuzzing, and matting. This assessment is crucial for manufacturers aiming to ensure the longevity and aesthetic quality of their textile products.   Working Principle of Random Tumble Pilling Tester The tester operates by placing fabric specimens into cylindrical test chambers lined with cork. Inside each chamber, a stainless steel impeller rotates at a high speed (typically around 1200 revolutions per minute), causing the fabric samples to tumble randomly. Compressed air is injected to enhance the tumbling action. This process simulates the friction and wear that fabrics undergo during regular use. After a predetermined duration, the samples are removed and visually assessed for pilling using standardized rating scales.   Key Specifications of Random Tumble Pilling Tester Test Chambers: Available in configurations of 2 or 4 chambers to accommodate multiple samples simultaneously. - Rotation Speed: Approximately 1200 revolutions per minute. - Chamber Dimensions: Typically around 146 mm in diameter and 152 mm in length. - Impeller Size: Standard impellers measuring about 121 mm. - Compressed Air Pressure: Adjustable, commonly between 14–21 kPa (2–3 psi). - Timer: Digital timer allowing precise control over test duration. - Power Supply: Generally operates on 220V, 50Hz power sources.   Applicable Standards of Random Tumble Pilling Tester The Random Tumble Pilling Tester complies with several international testing standards, ensuring its suitability for global applications:- ASTM D3512- ISO 12945-3- DIN 53867- JIS L 1076- GB/T 4802.4   Benefits of Random Tumble Pilling Tester - Realistic Simulation: Accurately replicates the wear and friction conditions fabrics face during actual use.- Standardized Testing: Adheres to international standards, facilitating consistent and comparable results.- Efficient Evaluation: Allows simultaneous testing of multiple samples, increasing laboratory throughput.- Quality Assurance: Provides manufacturers with critical data to improve fabric formulations and production processes. User-Friendly Operation: Features intuitive controls and clear viewing windows for easy monitoring.   Applications of Random Tumble Pilling Tester The Random Tumble Pilling Tester is widely used in various sectors of the textile industry: - Apparel Manufacturing: Assessing the durability of clothing fabrics. - Home Textiles: Evaluating materials used in upholstery, curtains, and bedding. - Quality Control Laboratories: Routine testing to ensure product consistency and compliance with standards.- Research and Development: Developing new fabrics with enhanced resistance to pilling.     Features of Random Tumble Pilling Tester:
      1. Multiple Test Chambers - Typically comes with 2 or 4 cork-lined chambers for simultaneous testing of multiple fabric samples.
      2. High-Speed Rotating Impellers - Impellers rotate at around 1200 rpm to create intense, random tumbling motion.
       
      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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      Fabric Drape Tester
      Fabric Drape Tester

      Fabric drape tester

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      Fabric Drape Tester
      Fabric Drape Tester

      Fabric Drape Tester

        Fabric Drape Tester is a lab device used to measure the drape ability of fabric—how it hangs under its own weight. It assesses how fabric conforms in folds or waves, which affects garment appearance and comfort.   Purpose of Fabric Drape Tester: To evaluate the aesthetic and functional behavior of a fabric when suspended, especially important in apparel and home textiles.   Working Principle: A circular fabric specimen is placed over a smaller disc. The unsupported edges drape downward. A light source casts a shadow of the draped shape onto a recording surface or scanner. The area of the shadow is measured to calculate the drape coefficient.   Main Components of Fabric Drape Tester: - Rotating Support Disc: Holds the fabric. - Light Source: Projects the drape shadow. - Paper or Digital Scanner: Captures the drape outline. - Template: For cutting fabric to standard test size. - Software or Plan meter: Calculates the drape coefficient.   Applications of Fabric Drape Tester: - Fashion and apparel design - Fabric development - Quality control in woven, knitted, or nonwoven fabrics   Benefits of Fabric Drape Tester:
      1. Quantifies Fabric Flow - Measures drape behavior accurately, crucial for garments and furnishings.
      2. Supports Design Decisions - Helps designers select fabrics that match the intended look and movement of a product.
      3. Improves Garment Fit and Comfort - Ensures fabrics behave naturally on the body, enhancing wear ability.
       
      1. Enhances Product Aesthetics - Prevents stiff or limp fabric choices in fashion, interior, or technical textiles.
      2. Standardized Evaluation - Enables comparison across fabrics using drape coefficient, based on standards (e.g., BS 5058).
      3. Supports R&D - Useful in developing new fabrics or finishes to improve drape quality.
       
      1. Non-Destructive Testing - Tests fabric without damaging it, allowing for further analysis.
      2. Boosts Quality Control - Identifies batch inconsistencies or performance issues early in production.
        Features of Fabric Drape Tester:
      1. Rotating Support Disc - Holds the fabric sample over a smaller disc to create natural drape.
      2. Standard Sample Size Support - Designed for circular fabric samples, usually 30 cm in diameter.
      3. Light Projection System - Projects the draped fabric’s shadow onto a screen or recording surface.
       
      1. Drape Coefficient Calculation - Measures the shadow area to compute the drape coefficient (percentage of unsupported area covered by the shadow).
      2. Digital or Manual Options - Available in models with digital image processing or manual plan meter tracing.
      3. Stable Base and Structure - Ensures consistent and vibration-free testing conditions.
       
      1. Sample Templates Provided - For cutting precise, standard-sized fabric specimens.
      2. User-Friendly Interface - Simple controls for rotation and light alignment.
      3. Compact and Lab-Ready Design - Fits easily on lab benches and in testing environments.
      4. Compliance with Testing Standards - Supports BS 5058 and other relevant drape measurement methods.
        How to Use Fabric Drape Tester:
      1. Prepare the Fabric Sample - Cut a circular fabric sample, typically 30 cm in diameter, using the provided template.
      2. Place the Fabric - Center the fabric sample over the smaller support disc (usually 18 cm diameter) on the tester.
      3. Turn on the Light Source - Illuminate the fabric from above so it casts a shadow onto the recording surface or paper below.
       
      1. Capture the Shadow Outline - Trace the shadow manually on paper or capture it digitally, depending on the model.
      2. Measure the Shadow Area - Use a plan meter (manual) or software (digital) to determine the shadow’s area.
      3. Calculate Drape Coefficient (DC) - Use the formula:
      DC (%) = (Shadow Area - Support Disc Area) / (Full Fabric Area - Support Disc Area) × 100  
      1. Record the Result - Log the drape coefficient to evaluate how stiff or flexible the fabric is.
      2. Repeat for Accuracy - Test multiple samples and average the results for consistency.
          fabric drape tester Scope of application It is used for testing dynamic and static drape properties (drape coefficient, shape change rate, surface ripple and drape uniformity, etc.) of various fabrics. Related standards GB/T23329 FZ/01045 BS5058 etc. Instrument characteristics 1. CCD imaging, dynamic and static image processing. 2. A variety of charts and data statistics, analysis, storage, output 3. No need to replace background color, can test all kinds of color samples. 4. Work mode:Microcomputer control, CCD imaging, automatic processing of images and data automatically. Technical parameters 1. Communication interface: RS232, USB 2. Image sensor: CCD sensor. 3. Static (dynamic) state draping coefficient: 0 ~ 100% + 2 4. Drapability uniformity: 0 ~ 100% + 2 5. The rate of morphological change is 0 to 100% + 2. 6. Surface waviness error: + 1
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      Gray Scale
      Gray Scale

      Gray scale

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      Gray Scale
      Gray Scale

      Gray Scale

        The Gray Scale is a visual tool used in the textile and dyeing industry to evaluate and grade the color change or staining of a fabric after testing (e.g., washing, rubbing, and light exposure). It helps assess how much a fabric's color has altered or transferred during durability or fastness tests. Types of Gray Scale:
      1. Gray Scale for Color Change - Compares the original and tested sample to measure color fading or alteration.
      2. Gray Scale for Staining - Compares a white adjacent fabric (before and after testing) to assess color transfer or staining.
      Rating System : - Uses a 1 to 5 scale: - Grade 5: No change or staining (excellent) - Grade 1: Severe change or heavy staining (poor) Intermediate grades (like 4–5, 3–4, etc.) are also used for finer evaluation.   Construction :- Each scale includes pairs of gray chips with varying contrast levels to visually match the test results. Usage Areas:- Textile testing labs- Dyeing and finishing quality control- Standards like ISO, AATCC, and BIS tests   Benefits :
      1. Standardized Evaluation - Provides a consistent and objective way to assess color change or staining.
      2. Simple and Quick to Use - Enables rapid visual comparison during fabric testing.
      3. Widely Accepted - Complies with international standards (ISO, AATCC) for color fastness grading.
      4. Cost-Effective Tool - Inexpensive yet essential for reliable quality control in textiles.
       
      1. Enhances Quality Assurance - Helps detect dyeing or printing issues before bulk production.
      2. Supports Multiple Tests - Used for evaluating wash fastness, rubbing fastness, perspiration, light exposure, and more.
      3. Portable and Durable - Easy to carry and long-lasting with proper care.
      Features :
      1. Dual Type Availability - Comes in two types: for Color Change and for Staining.
      2. 5-Point Grading System - Grades from 1 (poor) to 5 (excellent), with half-step intervals like 4–5, 3–4.
      3. Standardized Grey Chips - Includes contrasting grey color pairs to match fabric changes accurately.
      4. Compact Design - Small, portable card or booklet format for easy lab and field use.
       
      1. Durable Material - Made from stable, fade-resistant plastic or cardboard for long-term use.
      2. Compliance with Standards - Follows ISO 105-A02 (Color Change) and ISO 105-A03 (Staining) norms.
      3. Easy Visual Comparison - Designed for quick side-by-side assessment of fabric before and after testing.
        How to Use : Select the Right Gray Scale - Use Color Change scale to check fading, or staining scale to check color transfer.
      1. Place the Samples - Lay the untested (original) and tested fabric side by side (for color change)
      - Or place the adjacent white fabric next to the gray scale (for staining).
      1. Match Against Gray Scale Chips - Visually compare the difference between the samples and find the closest matching gray pair on the scale.
       
      1. Assign a Grade
      - Grade from 1 to 5, where: - Grade 5 = no change/staining - Grade 1 = severe change/staining - Use half-grades like 4–5 if needed.
      1. Record the Result - Note the grade in your test report as per the test method (e.g., ISO 105).
      2. Store Properly - Keep the gray scale away from light and moisture to avoid fading.
      3. Features :
        1. Dual Type Availability - Comes in two types: for Color Change and for Staining.
        2. 5-Point Grading System - Grades from 1 (poor) to 5 (excellent), with half-step intervals like 4–5, 3–4.
        3. Standardized Grey Chips - Includes contrasting grey color pairs to match fabric changes accurately.
        4. Compact Design - Small, portable card or booklet format for easy lab and field use.
        Categories:
      1. Gray Scale for Color Change - Used to evaluate the degree of color fading or change in a fabric after testing (e.g., washing, light exposure). - Assesses how much the original color has altered.
      2. Gray Scale for Staining - Used to assess the degree of color transfer from a dyed fabric to an adjacent white fabric during testing (e.g., rubbing, washing).
      - Evaluates staining on undyed fabrics.   These two types are essential tools in color fastness testing across textile labs. Want to know which standard tests use each type?
      Gray Scale

      Gray Scale

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      Martindale abrasion tester updated
      Martindale abrasion tester updated

      Martindale abrasion tester Updated

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      Martindale abrasion tester updated

      Martindale abrasion tester updated

      Latest Update 1 A+

      Martindale Wear-Resistant Instrument Martindale Wear-Resistant Instrument Martindale abrasion tester updated purposefully designed to enhance the ease of use and reliability of results Strong and solid base feet to increase instrument stability Sliding pad design reduces noise of motion plate. Martindale abrasion tester updated Accessible Motion plate storage rack incorporated into the side of the instrument to conserve lab space and allowing full access to all abrasion stations Enhanced sample holders allowing for quicker sample loading Quick-lock couplers facilitate easy access for service and calibration Martindale abrasion tester updated is a versatile instrument capable of multiple abrasion and pilling tests. It uses precision components to deliver the exact abrasion or pilling movement required by all international and retailer standards. Martindale abrasion tester updated Full Color Touch Screen Controls Most common functions accessible in one or two touches Displays individual station counters Test materials ordering information accessible directly on the instrument display Multi-lingual interface with display options in English, Chinese. Martindale abrasion tester updated Designed for Adaptability the Martindale Line can perform a variety of abrasion and pilling tests. The user-friendly design allows operators to easily change over testing station configurations with specialized enhancement kits. Martindale abrasion tester updated can be used for: Fabric Abrasion, Fabric Pilling, Sock, Abrasion, Leather Abrasion, Edge Abrasion, Testing Floor Coverings, Toothbrush Testing's, Other Specialized Testing's, Martindale abrasion tester updated Convenient The compact base is designed to conserve valuable lab space while providing maximum testing capacity. Two sizes available: Larger base can have 4, 6, or 9 test positions Instrument Comes Standard with: Sample Holders 9 kPa and 12 kPa Weights for standard abrasion testing Standard Mounting Device Martindale abrasion tester updated have Accessory Holder Available separately to conveniently hold martindale accessories while not in use Made from high quality acrylic and designed to be both practical and attractive Quality Test Materials supplies a wide variety of consumables design specifically for testing on the Martindale Abrasion and Pilling Tester. These high quality consumables will ensure that each test performed is accurate and reliable. Martindale abrasion tester updated Scope of application Its is used for testing the wear resistance, abrasion and appearance change (pilling) of textiles and membrane materials (Martindale method). Martindale abrasion tester updated Related standard GB/T 21196 (International Standard Drafting Unit), FZ/T 20020, GB/T 4802.2, GB/T 13775, ASTM D4966, ASTM D4970, ASTM D3886, ISO 12945.2, ISO 12947, JIS L1096, IWSTM 196/TM112 M&S, etc. [Instrumentation characteristics] 1. Three test modes, adding and subtracting two counting modes. 2. No turning guide plate design, no need to move the sample. 3. PLC modular control, seven inch color touch screen, Chinese and English double-choice menu operation. [Technical parameters] 1. Workplace:9 place 666665555 2. Counting range:0-999999 times 3. Maximum travel:60.5±0.5mm 24±0.5mm 4. Pressure mass:
      1. Clothing sample weight hammer:397±2g Furniture decoration sample weight hammer:597±2g C. Stainless steel discs:260±1g
      2. Effective friction diameter of grinding block: Type A 198g(3kpa) friction head 28.8-0.084mm Type B 155g(1.52N) friction head 90-0.10mm 6. Relative velocity of gripper and grinding table:50 + 2R / MI (20-70r / min adjustable) 7. Sampling hammer quality:2385±10g 8. Shape size:870×580×300mm 9. power supply:AC220V 50Hz 500W 10.Weight:73KG.
      3. [Standard accessories] Items and specifications Qty Notes Main machine 1Power cable 1A type 198g Friction head 9 B type 155g(1.52N) Friction head 9 597g Hammer 9 397g Hammer 9, 666666666 260g Stainless steel disc 9, 2385g Holding hammer 1,B Friction head felt 18 ¢90mm Steel ball 6, Rubber ring 18, Inner Hexagonal Wrench 1
      4. Sampler 1, Fuse 2 3A, Standard felt 18, Weight:750±50g/m2, Thickness:2.5±0.5mm, Standard foam lining 40, Density:0.03g/cm3,Thickness:3mm,Standard abrasive 9 Circular shear template Each φ140mm、φ38mm,Small screw knife 1, Bottom foot 4
         
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      Digital Bench top PH Meter
      Digital Bench top PH Meter

      Digital Bench top PH Meter

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      Digital Bench top PH Meter

      Digital Bench top PH Meter

      Digital Bench top PH Meter

      Brand: Hanna Model: HI2002 Country of Manufacture: Romania Origin: USA

      Digital Bench top PH Meter

      Single parameter of Digital Bench top PH Meter features user-friendly tablet design with bench, portable or wall mount options for ultimate flexibility. Switch from portable to bench in the same procedure or clear the surface for easier working and hang on the wall. Digital Bench top PH Meter Range -2.00 to 16.00pH; pH  Digital smart electrode compatible  Accuracy: ±0.01 pH edge® pH is dedicated to testing pH. Using Hanna's latest innovation in technology and design, edge® can be adapted to suit your working method. Select from hand held, wall mount or bench top - or switch between them all. edge® is happy any which way. Simply plug in the electrode, then play. Measurement is simpler, quicker and more accurate than ever. Results are fast and reliable. Combining high precision technology with the user-friendly dimensions and format of a small digital tablet, edge® is breaking new ground in electrochemistry. This is a must-have meter for your laboratory.
      pH Range basic mode: -2.00 to 16.00 pH; standard mode: -2.000 to 16.000 pH
       Resolution basic mode: 0.01 pH; standard mode: 0.001 pH
       Accuracy (@25°C) basic mode: ±0.01 pH; standard mode: ±0.002 pH
       Calibration basic mode: automatic, up to three points calibration, 5 standard buffers available; standard mode: automatic, up to five point calibration, 7 standard buffers available and two custom buffers
      Temperature Compensation automatic, -5.0 to 100.0°C (using integral temperature sensor)
      Electrode Diagnostics standard mode: probe condition, response time and out of calibration range
      mV pH Range ±1000 mV
       Resolution 0.1 mV
       Accuracy (@25°C) ±0.2 mV
      ORP Range ±2000 mV
       Resolution 0.1 mV
       Accuracy (@25°C) ±0.2 mV
      Temperature Range -20.0 to 120.0°C
       Resolution 0.1°C
       Accuracy ±0.5°C
      Additional Specifications:
       Probe HI-11310 digital glass body pH electrode with 3.5mm connector and 1m cable
       Logging up to 1000 (400 for basic mode) records organised in: manual log-on demand (max. 200 logs), manual log-on-stability (max. 200 logs), interval logging (max. 600 samples; 100 lots)
       Connectivity 1 USB port for storage; 1 micro USB port for charging and PC connectivity
       Environment 0 to 50°C; RH max 95% non-condensing
       Power Supply 5 VDC adapter (included)
       Dimensions 2020 x 140 x 12 mm
       Weight 250 g
      A Digital Bench Top pH Meter is a laboratory-grade instrument designed to measure the pH (acidity or alkalinity) of liquid samples with high precision. It's commonly used in research labs, industrial applications, environmental testing, and educational institutions. Key Features of a Digital Bench Top pH Meter
      1. High Accuracy and Resolution
      - Offers precise pH measurements, often with accuracy up to ±0.01 pH units. - Suitable for applications where exact pH control is critical.  
      1. Digital Display   - Large, clear LCD or LED screen shows pH readings, temperature, and sometimes mV or ion      concentration.   - Some models include a backlit display for better visibility.
       
      1. Electrode System   - Uses a pH-sensitive electrode (usually glass) connected to a reference electrode. Electrodes are often replaceable and require regular calibration and maintenance.
       
      1. Temperature Compensation - Automatic or manual temperature compensation to correct pH readings based on sample temperature.   - Integrated temperature sensors or separate probes are used.
      1. Calibration Functions   - Supports 2-point, 3-point, or multi-point calibration using standard buffer solutions.   - Auto-recognition of calibration buffers in advanced models.
      1. Data Storage and Connectivity   - Internal memory for storing results.   - USB or RS232 ports for data export to PCs or printers; some models support wireless connectivity.
      1. Sturdy Design   - Benchtop models are larger and more stable than portable meters.   - Often come with a durable casing and electrode arm for hands-free operation.
      Applications - Water quality testing (e.g., in wastewater treatment, drinking water monitoring) - Chemical and pharmaceutical industries - Food and beverage production - Biological and environmental research - Educational laboratories A Digital Bench Top pH Meter offers numerous benefits, making it a preferred choice in laboratory and industrial environments where accuracy, reliability, and ease of use are essential. Benefits of a Digital Bench Top pH Meter
      1. High Accuracy and Precision
      - Provides accurate and consistent pH readings, often with ±0.01 pH resolution. - Ideal for scientific and quality control applications where precise pH monitoring is critical.  
      1. User-Friendly Interface- Digital displays (LCD/LED) make readings easy to see and interpret.- Many models offer intuitive controls and guided calibration, simplifying operation.
       
      1. Advanced Calibration Features- Supports multi-point calibration for improved accuracy across a wide pH range.- Some models automatically recognize buffer solutions, reducing user error.
      1. Temperature Compensation- Automatic temperature compensation (ATC) corrects readings based on sample temperature, ensuring accuracy.
      1. Stable and Durable Design- Benchtop units are more robust and stable than handheld devices, reducing the risk of spills or tipping.- Often include electrode holders or arms for secure, hands-free measurements.
      1. Data Management and Connectivity- Built-in memory for storing measurement data.USB, RS232, or wireless connectivity for exporting data to computers or laboratory information systems (LIS).
      1. Multi-Functionality- Some models also measure ORP (oxidation-reduction potential), ion concentration, or conductivity.- Suitable for a variety of testing needs beyond just pH.
      1. Ideal for Long-Term Use- Designed for prolonged and repeated use in laboratory environments.- Replaceable electrodes and parts extend the meter’s usable life.
      1. Compliance and Documentation- Data logging features support documentation and compliance with regulatory standards in regulated industries (e.g., pharma, food, environmental testing).
       
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      Steam Soaping Machine
      Steam Soaping Machine

      Steam Soaping machine

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      Steam Soaping Machine

      Steam Soaping Machine

      Steam Soaping Machine

      A Steam Soaping Machine is a specialized laboratory apparatus used in textile dyeing processes, particularly for post-dyeing treatments like soaping, which enhances color fastness and removes unfixed dyes from fabric samples. This machine is designed to perform soaping treatments on dyed textile samples using steam. Soaping is a critical step in dyeing, especially for reactive dyes, as it removes unfixed dye particles, ensuring better color fastness and preventing dye bleeding. The steam soaping process involves treating the dyed fabric with a soaping solution at elevated temperatures, facilitated by steam, to achieve optimal results. ⚙️ Key Features of Steam Soaping Machine - Beaker Material: Constructed with high-grade 316L stainless steel for excellent corrosion resistance and durability.- Operation Modes: Offers both automatic control and manual water filling options, providing flexibility in operation. - Drainage System: Equipped with an automatic drainage device for efficient removal of used solutions.- Temperature Control: Precise temperature regulation to maintain optimal soaping conditions.- Compact Design: Suitable for laboratory settings, occupying minimal space while delivering effective performance. ✅ Benefits of  Steam Soaping Machine - Enhanced Color Fastness: Effectively removes unfixed dyes, resulting in improved wash and rub fastness of the fabric.- Efficient Processing: Reduces the time required for post-dyeing treatments compared to conventional methods.- Consistent Results: Provides uniform treatment across samples, ensuring reproducibility in testing and quality control.- Resource Optimization: Minimizes water and chemical usage through controlled processing parameters.- Versatility: Applicable to various fabric types and dye classes, making it a valuable tool in research and development. Typical Applications - Laboratory Testing: Used in dyeing laboratories for evaluating the fastness properties of dyed samples. - Research and Development: Assists in developing and optimizing dyeing processes and formulations. - Quality Control: Ensures that dyed fabrics meet specified fastness standards before bulk production. In summary, a Steam Soaping Machine is an essential laboratory instrument in the textile industry, facilitating efficient and effective post-dyeing treatments to enhance the quality and durability of dyed fabrics. Features of Steam Soaping Machine:
      1. High-Grade Stainless Steel Beakers - Made from 316L stainless steel for excellent chemical and heat resistance.
      2. Steam-Based Heating - Uses direct or indirect steam to maintain consistent high temperatures ideal for soaping.
      1. Precise Temperature Control - Maintains stable temperatures (typically up to 98–100°C) for effective removal of unfixed dyes.
      2. Automatic and Manual Modes - Offers both programmable automatic cycles and manual operation for flexibility.
       
      1. Beaker Agitation or Rotation - Ensures uniform soaping action across fabric surfaces.
      2. Automatic Drainage System - Efficiently removes used soaping solution to speed up cycle changeovers.
      1. Compact Design - Fits well in lab settings while allowing multiple samples to be processed simultaneously.
      2. Safety Features - Includes pressure and temperature protection systems to ensure safe operation.
       
      1. Low Water and Chemical Use - Designed for minimal liquor ratios, enhancing sustainability.
      2. User-Friendly Interface - Simple digital controls or touch panel for easy operation and cycle programming.
      How to Use a Steam Soaping Machine:
      1. Prepare the Dyed Sample - After dyeing, rinse the fabric to remove surface dye and prepare it for soaping.
      2. Load the Fabric - Place the dyed fabric or sample into the beakers or holders inside the machine.
      1. Add Soaping Solution - Pour the prepared soaping agent (usually a detergent solution) into the beakers or tank as per recipe.
      2. Set Parameters
      - Use the control panel to set: - Temperature (usually 95–98°C) - Soaping time (typically 10–20 minutes) - Steam mode (direct or indirect, if applicable)  
      1. Start the Cycle - Begin the soaping process. The machine will heat the solution using steam and agitate/rotate the beakers for even treatment.
      1. Drain and Rinse - After the cycle ends, the machine may auto-drain. Rinse the fabric with warm water to remove residual chemicals.
      1. Unload the Samples - Carefully remove the fabric. Inspect for evenness and color fastness improvement.
      2. Clean the Machine - Rinse and dry the beakers or tank to maintain hygiene for the next use.
        Safety Tips: - Wear gloves and goggles. - Do not open the lid during operation. - Ensure steam connections are secure.       Steam Soaping machine used for sample soaping after dyeing in laboratory Beaker material: 316L S/S automatic control / manual filling water device, with automatic drainage device. Steam Soaping machine Dunlin price in Bangladesh Steam Soaping machine Dunlin in textile testing equipment Textile testing equipment in Bangladesh Textile testing equipment in Dhaka Textile testing equipment in Uttara MAAM tex Steam Soaping machine Dunlin price in Bangladesh
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