Digital Temperature Humidity Meter
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Digital Temperature Humidity Meter
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    Digital Temperature Humidity Meter
    Stretch Recovery Tester (Static Method)
    Fatigue tester for Elastic fabric
    Digital Temperature Humidity Meter
    Fatigue tester for Elastic fabric
    Fatigue tester for Elastic fabric $0.00
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    Digital paper dot meter Densitometer
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    Digital Temperature Humidity Meter

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    Digital Temperature Humidity Meter

    Digital Temperature Humidity Meter

     

    A Digital Temperature Humidity Meter, also known as a digital hygrometer, is an electronic device used to measure and display the relative humidity (RH) of the air, often along with temperature. It’s commonly used in laboratories, industrial settings, storage areas, and homes to monitor moisture levels.

     

    Key Features of Digital Temperature Humidity Meter:

    – Digital Display: Shows humidity (in % RH) and often temperature (in °C/°F).

    – Sensor-Based Measurement: Uses capacitive or resistive sensors for accurate readings.

    – Compact & Portable: Available in handheld or wall-mountable forms.

    – Data Logging (in some models): Records humidity levels over time for analysis.

    – Min/Max Readings: Displays historical high and low humidity values.

     

    Common Applications of Digital Temperature Humidity Meter:

    – Laboratories: Maintaining stable humidity for experiments or sample storage.

    – Warehouses: Monitoring conditions for sensitive goods (e.g., electronics, paper, pharmaceuticals).

    – HVAC Systems: Ensuring proper climate control.

    – Homes: Preventing mold growth or overly dry conditions.

     

    Benefits of Digital Temperature Humidity Meter:

    – Accurate and quick readings

    – Easy to use and read

    – Helps in maintaining comfort, safety, and product integrity

    Would you like recommendations for models or guidance on calibration?

    Benefits of Digital Humidity meter

    Here are the key benefits of using a Digital Humidity Meter:

     

    ✅ 1. Accurate Humidity Monitoring

    – Provides precise relative humidity (%RH) readings, essential for sensitive environments.

    ✅ 2. Fast and Real-Time Results

    – Displays immediate data, allowing for quick adjustments to environmental conditions.

    ✅ 3. Dual Measurement

    – Many models also measure temperature, offering a more complete picture of ambient conditions.

     

    ✅ 4. Easy to Use

    – Simple digital interface with clear display, suitable for both professionals and non-technical users.

    ✅ 5. Compact and Portable

    – Lightweight design makes it ideal for field use, indoor monitoring, or mounting on walls.

    ✅ 6. Prevents Damage

    – Helps avoid moisture-related issues like mold, corrosion, static buildup, and product degradation.

     

    ✅ 7. Supports Quality Control

    – Essential for labs, warehouses, and manufacturing environments to maintain product integrity.

    ✅ 8. Data Logging (Optional)

    How to use Digital Humidity meter

    Here are the key features of a Digital Humidity Meter:

    1. Digital Display

    – Shows real-time humidity (%) and often temperature (°C/°F).

    – Some include backlit screens for easy viewing.

     

    2. High Accuracy Sensors

    – Uses capacitive or resistive sensors for accurate and stable humidity readings.

    3. Min/Max & Hold Functions

    – Displays minimum, maximum, and current readings.

    – “Hold” function freezes the current reading for review.

     

    4. Data Logging (in advanced models)

    – Records humidity data over time for monitoring trends.

    5. Portable or Wall-Mountable

    – Available as handheld, desktop, or wall-mounted units for different environments.

     

    6. Battery or USB Powered

    – Operates on standard batteries or via USB power for flexibility.

    7. Optional External Probes

    – Some models support external humidity/temperature sensors for remote monitoring.

    8. Calibration Option

    – Allows manual or automatic calibration to maintain accuracy.

     

    Here’s a quick step-by-step guide on how to use a Digital Temperature Humidity Meter:

    ✅ 1. Power On the Device

    – Insert batteries (if portable) or plug it in (if wall-mounted).

    – Press the power button to turn it on.

    ✅ 2. Place It Properly

    – Set the meter in an open, well-ventilated area.

    – Avoid placing near windows, vents, or direct heat sources for accurate readings.

     

    ✅ 3. Wait for Stabilization

    – Allow the device a few seconds to stabilize and show accurate humidity and temperature readings.

    ✅ 4. Read the Display

    – Humidity will be shown as % RH (Relative Humidity).

    – Most models also display temperature in °C or °F.

     

    ✅ 5. Use Additional Features (if available)

    – Press buttons to view Min/Max, Data Log, or switch units.

    – Some advanced models may have Bluetooth or USB for data transfer.

    ✅ 6. Maintain the Device

    – Clean sensor area gently if dusty.

    – Calibrate periodically if required (check manual).

     

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        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:
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      Spray Rating Tester

      Spray Rating Tester

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      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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      Fatigue tester for Elastic fabric

      Fatigue tester for Elastic fabric

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      Fatigue Tester for Elastic Fabric

      Fatigue tester for Elastic fabric

      Fatigue tester for Elastic fabric

        A Fatigue Tester for Elastic Fabric is a specialized instrument designed to evaluate the durability and performance of elastic materials, such as elastic bands, tapes, and fabrics, under repeated stretching and relaxation cycles. This testing is crucial for applications where elastic materials are subjected to continuous or repetitive stress, ensuring they maintain their functionality over time.   Purpose Fatigue Tester for Elastic Fabric The primary objective of this tester is to simulate the conditions that elastic fabrics endure during actual use. By repeatedly stretching and relaxing the material, the tester assesses:   - Elastic Recovery: The ability of the material to return to its original length after stretching. - Fatigue Resistance: How well the material withstands repeated cycles without significant degradation. - Durability: The lifespan of the elastic properties under continuous use.   Working Principle of Fatigue Tester for Elastic Fabric The tester operates by clamping a specimen of the elastic fabric and subjecting it to cyclic stretching and relaxation.   Key operational features include: Cycle Count: The number of stretching and relaxation cycles is set according to testing requirements. - Speed Regulation: The rate of stretching can be adjusted to simulate different usage conditions. - Monitoring: The tester records data such as the number of cycles completed and any changes in the fabric's properties.   For instance, the Elastic Band Fatigue Tester ADL-FT01 features a high-speed linear slide, servo motor, and touch screen control software, allowing precise control over stretching parameters   Key Specifications of Fatigue Tester for Elastic Fabric While specifications may vary among different models, common parameters include: - Stretch Percentage: Adjustable from 0% to 100%. - Stretching Speed: Up to 40 cycles per minute. - Sample Length Range: Maximum of 260mm. - Cycle Count Capacity: Up to 9,999,999 cycles. - Control Interface: Typically a 7-inch color touch screen. - Power Supply: AC220V 50Hz/60Hz. These features enable comprehensive testing of elastic materials under various conditions.   Benefits of Fatigue Tester for Elastic Fabric - Quality Assurance: Ensures that elastic materials meet required durability standards. - Product Development: Aids in the design of materials with improved fatigue resistance. Cost Efficiency: Identifies potential material failures early, reducing product returns and warranty claims. - Compliance: Helps manufacturers adhere to industry standards such as GB/T 37635.   Applications of Fatigue Tester for Elastic Fabric Fatigue testers for elastic fabrics are widely used in: - Textile Manufacturing: Testing elastic components in garments, such as waistbands and cuffs. - Medical Textiles: Evaluating the durability of elastic materials used in bandages and supports. - Automotive Industry: Assessing elastic components in car interiors. - Research and Development: Developing new elastic materials with enhanced properties.   Features of Fatigue Tester for Elastic Fabric:
      1. Adjustable Stretch Range - Allows setting stretch levels (e.g., 0–100%) to simulate real-life fabric use.
      2. High-Cycle Capability - Supports up to millions of stretch-relax cycles for long-term fatigue analysis.
      3. Touch Screen Control - 7-inch color display for easy setup, monitoring, and data entry.
      4. Servo Motor Driven - Ensures precise and smooth linear motion during testing.
       
      1. Customizable Speed - Adjustable test speed (e.g., up to 40 cycles per minute) based on test requirements.
      2. Multi-Sample Testing - Some models allow testing multiple specimens simultaneously.
      3. Cycle Counter with Alarm - Built-in counter with programmable stop after preset cycles and auto-alert feature.
       
      1. Durable Construction - Robust metal frame suitable for continuous testing in lab environments.
      2. Standard Compliance - Designed to follow standards like GB/T 37635 for elastic fabric testing.
        How to Use Fatigue Tester for Elastic Fabric:
      1. Prepare the Sample
      - Cut the elastic fabric to the specified size (e.g., 260 mm max length). - Mark the gauge length if needed for measurement after testing.
      1. Mount the Sample - Secure both ends of the fabric in the upper and lower clamps.
      2. Set Test Parameters
      - Enter the desired stretch percentage (e.g., 50%). - Set the number of cycles and speed (e.g., 30 cycles/min). - Adjust dwell time if required (time fabric stays stretched).  
      1. Start the Test - Press start on the touch screen interface. - The machine will cyclically stretch and release the sample.
      2. Monitor Progress - Observe operation or let it run automatically.
      - Machine stops automatically after reaching the set cycles.
      1. Remove and inspect - Take out the fabric and measure elongation, recovery, or visual defects.
      2. Record and Compare Results - Compare with initial measurements or standard performance criteria.
        Fatigue tester for Elastic fabric

        Fatigue tester for Elastic fabric

         
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      Analog Thickness Gauge

      Analog Thickness Gauge

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      Analog Thickness Gauge

      Analog Thickness Gauge

      Analog Thickness Gauge

        An Analog Thickness Gauge is a manual instrument used to measure the thickness of materials such as fabric, paper, leather, rubber, and plastic. Unlike digital gauges, it displays readings through a mechanical dial or scale.   Purpose Analog Thickness Gauge: To measure material thickness with reasonable accuracy in lab or production settings. Commonly used in textiles, packaging, leather goods, and quality control labs.   Working Principle : The sample is placed between a flat anvil and a presser foot. When the presser foot contacts the sample under uniform pressure, the thickness is indicated on a dial scale, typically in millimeters.   Types of Analog Thickness Gauge: Dial Thickness Gauge – With a needle and graduated scale. Micrometer-Type Gauge – For finer precision and small samples.   Applications: Textile and fabric inspection Leather and rubber sheet measurement Paper and film thickness control Analog Thickness Gauge Brand : DUNLIN Origin : TAIWAN Measuring Range : 0mm ~ 10mm Accuracy : 0.01mm Deep Throat Range : 120mm Dimension : ( 195 × 130 × 25 ) mm Benefits High Durability – Since analog thickness gauges do not rely on electronic circuits, they are more durable and resistant to environmental factors such as dust and moisture. No Power Requirement – These gauges operate mechanically, eliminating the need for batteries or power sources. Cost-Effective – Analog meters are generally more affordable compared to digital alternatives while still providing precise measurements. Ease of Use – Simple mechanical operation ensures that even non-technical users can easily measure thickness. Reliable Performance – Analog thickness gauges provide consistent and accurate readings without the risk of software malfunctions. Advantages Immediate Readings – No waiting time for booting or calibration, providing instant measurement results. Long-Lasting Accuracy – These devices do not suffer from battery drainage or electronic failures, ensuring accuracy over long periods. Lightweight and Portable – Many analog thickness gauge meters are compact and easy to carry, making them convenient for on-the-go use. Wide Material Compatibility – Suitable for measuring the thickness of metals, textiles, paper, and various industrial materials. Minimal Maintenance – Without electronic parts, maintenance requirements are significantly reduced. Applications Manufacturing Industry – Used in quality control to ensure material thickness meets specified standards. Automotive Sector – Helps measure paint and coating thickness on vehicles to ensure uniform application. Metalworking and Fabrication – Used to measure sheet metal and pipe thickness to maintain precision in production. Plastic and Rubber Industry – Ensures uniform thickness in plastic sheets, films, and rubber products. Paper and Textile Industry – Essential for measuring paper thickness in printing industries and fabric thickness in textile production. Aerospace and Aviation – Used for checking the thickness of coatings and composite materials in aircraft manufacturing.
      Analog Thickness Gauge

      An Analog Thickness Gauge is a manual instrument used to measure the thickness of materials such as fabric, paper, leather, rubber, and plastic. Unlike digital gauges, it displays readings through a mechanical dial or scale.

       
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