Steam Soaping Machine
Steam Soaping Machine
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    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
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Categories: Digital Scale and Balance, Piece Counting Scale, Table Top Scale
      Counting Balance-Weighing Scale

      Counting Balance-Weighing Scale

       
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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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      digital-precision-balance

      Digital precision balance

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      digital precision balance

      digital-precision-balance

      2/3/4/5 Digit Digital precision Balance

      digital precision balance is a weight balance machine. It’s used to Low capacity balance. digital precision balance  play an important role to accurate measurement. Digital precision balance is used to check weight paper, jewelry etc. It shows accurate result. We have the best collection of digital precision balance. MAAM TEX IS the best supplier of Precision Balance in Bangladesh
      A Digital Precision Balance is a high-accuracy electronic weighing device used in laboratories, industries, and educational institutions for measuring mass with a high degree of precision. It is essential for tasks that require meticulous weight measurements, such as chemical analysis, formulation, and quality control. Key Features:
      1. High Accuracy & Precision: - Typically offers readability from 0.1 g to 0.001 g (or even finer). - Ideal for weighing small amounts of material where accuracy is crucial.
      2. Digital Display: - Large, backlit LCD or LED display for easy reading. - Some models include touch screen interfaces.
      3. Tarring Function: - Allows you to subtract the weight of a container or packaging to get the net weight.
      4. Calibration: - Internal or external calibration to maintain accuracy over time. - Some advanced models have auto-calibration features.
      5. Weighing Units: - Supports multiple units like grams (g), milligrams (mg), carats (ct), and ounces (oz). Stable Platform:   - Includes a draft shield to protect against air currents and vibrations, which can affect measurement accuracy.
      Common Applications:- Laboratory Analysis: Precise measurement of chemicals and reagents.- Pharmaceuticals: Formulation and quality control.- Jewelry: Accurate measurement of precious metals and stones.- Education: Scientific experiments in schools and universities. Benefits:- Reliable and Consistent Measurements- User-Friendly Operation- Compact Design with Minimal Footprint- Improved Workflow Efficiency- Enhanced Data Handling (USB or RS232 ports for data transfer in advanced models) Benefits of digital precision balance Here are the key benefits of using a Digital Precision Balance:
      1. High Accuracy and Precision- Delivers extremely accurate weight measurements, often down to 0.001 g or better.- Crucial for experiments and applications where even slight variations can affect outcomes.
       
      1. User-Friendly Interface- Digital display makes readings easy to read and interpret.- Most models include intuitive controls for functions like tarring, unit conversion, and calibration.3. Speed and Efficiency- Provides instant, stable readings, saving time compared to manual or mechanical balances.- Streamlines lab workflows and enhances productivity.
      2. Versatile Applications- Suitable for various fields including chemistry, biology, pharmacology, food testing, and gemology.- Can handle diverse weighing tasks from solids to liquids and powders.
      3. Advanced Features- Tare Function: Subtracts the weight of containers automatically.- Multiple Weighing Units: Supports various measurement units.- Data Connectivity: Many models allow connection to computers or printers for data logging.
      4. Portability and Space Efficiency- Compact design fits easily in most laboratory setups.- Lightweight models are easy to move and store.
      5. Enhanced Safety and Reliability- Stable platform and draft shields reduce environmental interference.- Built-in calibration ensures ongoing accuracy.
      Here’s a step-by-step guide on how to use a Digital Precision Balance safely and accurately: 1. Set Up the Balance- Place the balance on a stable, vibration-free, and level surface.- Avoid placing near fans, windows, or air vents to prevent air drafts.- Allow the balance to warm up (usually 15–30 minutes) if it has just been turned on. ⚙️ 2. Calibrate the Balance - If it’s manual calibration, use certified calibration weights. - For auto-calibration models, follow on-screen instructions. - Calibration ensures accuracy in measurements. ⚖️ 3. Tare the Balance - Place the container or weighing paper on the balance. - Press the “Tare” or “Zero” button to set the display to zero. This subtracts the container’s weight. 4. Weigh the Sample - Carefully add the sample into the container. - Wait for the reading to stabilize (usually indicated by a stable icon or beep). - Read the weight from the digital display. 5. Repeat or Change Units (if needed) - You can press the unit button to switch between grams, milligrams, ounces, etc., depending on your needs.   6. Clean After Use - Remove any spilled substances. - Wipe the surface with a soft, lint-free cloth. Do not use harsh chemicals unless specified by the manufacturer. ⚠️ Tips for Best Use: - Avoid touching the container with bare hands (use tweezers or gloves to avoid adding extra weight from oils or moisture).- Use a draft shield if available to minimize airflow interference.- Do not overload the balance beyond its maximum capacity—it can damage the sensors.
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