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    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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    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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    Counting Balance-Weighing Scale
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    HTHP Glycerin bath dyeing machine
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      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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    Oscillation Type Water Bath Dyeing Machine
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    Oscillation Type Water Bath Dyeing Machine
    Oscillation Type Water Bath Dyeing Machine

    water bath/Shaker bath Dyeing machine

    An Oscillation Type Water Bath Dyeing Machine is a laboratory apparatus designed for dyeing and washing textile samples under controlled temperature conditions. It combines a heated water bath with an oscillating mechanism to ensure uniform dye penetration and consistent coloration across fabric or yarn samples.   Key Features of Oscillation Type Water Bath Dyeing Machine - Oscillating Mechanism: Provides back-and-forth movement to agitate the dye solution, ensuring even contact between the dye and the textile sample.- Multiple Beaker Capacity: Typically accommodates 12 to 24 beakers, allowing simultaneous processing of multiple samples under identical or varied conditions.   - Digital Temperature Control: Maintains precise temperature settings, usually up to 99°C, suitable for various dyeing processes including atmospheric dyeing, scouring, and bleaching.- Adjustable Oscillation Speed: Offers variable speed settings, commonly ranging from 50 to 200 cycles per minute, to accommodate different fabric types and dyeing requirements. - Programmable Settings: Advanced models come with programmable controllers, allowing users to set and save multiple dyeing protocols for repeatability and efficiency. Durable Construction: Constructed with high-quality stainless steel (e.g., SUS304), ensuring resistance to corrosion and longevity even under rigorous laboratory conditions.   ✅ Benefits of Oscillation Type Water Bath Dyeing Machine - Uniform Dyeing Results: The oscillation mechanism ensures consistent dye penetration, reducing the risk of uneven coloration and enhancing the reproducibility of results.- Efficiency in Sample Processing: The ability to process multiple samples simultaneously accelerates laboratory workflows and facilitates comparative studies.   - Versatility: Suitable for a range of applications including dyeing, washing, scouring, bleaching, and fastness testing across various textile materials.- Energy and Resource Conservation: Designed for low liquor ratios (e.g., 1:5 to 1:20), these machines minimize water and chemical usage, promoting sustainable laboratory practices.   - Enhanced Safety and Cleanliness: Enclosed beaker systems reduce the risk of spills and exposure to chemicals, ensuring a safer laboratory environment.   Typical Applications of Oscillation Type Water Bath Dyeing Machine - Textile Research and Development: Ideal for developing and testing new dye formulations and processes on a small scale before scaling up to production levels. Quality Control: Used in quality assurance laboratories to assess color fastness, dye uptake, and other critical parameters of textile products.- Educational Purposes: Serves as a practical tool in academic settings for teaching dyeing principles and techniques. In summary, the Oscillation Type Water Bath Dyeing Machine is an essential tool in textile laboratories, offering precise control over dyeing parameters, improving efficiency, and ensuring high-quality, reproducible results across various textile materials.   Features of Oscillation Type Water Bath Dyeing Machine:
    1. Oscillating Mechanism - Provides back-and-forth movement of beakers for uniform dye penetration and sample agitation.
    2. Multiple Beaker Capacity - Supports dyeing of 12–24 samples simultaneously, ideal for comparative lab testing.
     
    1. Digital Temperature Control - Maintains precise water bath temperature (typically up to 99°C), essential for consistent dyeing.
    2. Variable Oscillation Speed - Adjustable speed settings (e.g., 50–200 cycles/min) to suit different materials and processes.
     
    1. Programmable Settings - Allows setting of temperature, time, and speed for repeatable and automated dyeing cycles.
    2. Stainless Steel Construction - Corrosion-resistant frame and bath for durability in chemical environments.
     
    1. Beaker Safety Holders - Secure placement of beakers to prevent spills and maintain consistent treatment.
    2. Compact Design - Lab-friendly size for easy integration into research and quality control spaces.
    3. Low Liquor Ratio Operation - Efficient dyeing using minimal dye bath volume (e.g., 1:5 to 1:20), reducing chemical and water use.
    4. Quiet and Stable Performance
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    Oscillation Type Water Bath Dyeing Machine

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    Oscillation Type Dyeing Machine
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    Digital hot plate-magnetic stirrer
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    Digital hot plate-magnetic stirrer

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    Digital hot plate-magnetic stirrer

    Digital hot plate-magnetic stirrer

    Digital hot plate-magnetic stirrer

      A digital hot plate-magnetic stirrer is a laboratory device that combines two essential functions: heating and stirring. It is widely used in chemistry, biology, and physics laboratories for preparing solutions, mixing chemicals, and conducting experiments that require controlled heating and stirring. Model : (DL-300) Brand : DUNLIN Origin : TAIWAN Set-up plate Dimensions : Ø 135 mm Motor type : DC Motor Speed range : 0-1500 rpm Display : 5 Inch LED Display Heating temperature range : Room Temp. 0-280°C Temperature display : 5 Inch LED Display Temperature display accuracy : ±0.1 Protection class according to DIN EN 60529 : IP42 Power Supply : 200-240V 3A Dimensions ( W x D x H ) : ( 255 x 152 x 80 ) mm Key Components of Digital hot plate-magnetic stirrer: Hot Plate (Heating Element): - Provides a flat surface that heats up electrically. - Controlled via a digital interface for setting precise temperatures. - Often features over-temperature protection for safety.
    1. Magnetic Stirrer:
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    1. Digital Display and Controls:
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    1. Temperature Sensors:   - Built-in or external probes (like a PT100 or thermocouple) for accurate temperature control.
      Features of Digital hot plate-magnetic stirrer: - Temperature Range: Usually ranges from ambient to 300°C or higher. - Stirring Speed: Typically ranges from 100 to 1500 RPM. Material: The top plate is often made from ceramic, aluminum, or stainless steel to ensure durability and chemical resistance.   Applications Digital hot plate-magnetic stirrer: - Dissolving solids in liquids. - Heating samples while stirring to ensure uniform temperature distribution. - Conducting chemical reactions that need constant stirring and controlled heat. - Biological and pharmaceutical sample preparation.     Benefits of using a Digital Hot Plate & Magnetic Stirrer in laboratory and industrial settings:
    1. Precision and Control- Digital Interface: Allows accurate setting and monitoring of temperature and stirring speed.- Consistent Results: Ensures reproducibility in experiments and solution preparations.
     
    1. Efficient Mixing and Heating- Uniform Mixing: Magnetic stirring eliminates hotspots and ensures even distribution of solutes.- Simultaneous Operation: Ability to heat and stir at the same time improves efficiency.
     
    1. Safety Features- Overheat Protection: Prevents accidents by automatically shutting off at unsafe temperatures.- Sealed Surface: Reduces risk of contamination and easy to clean.
     
    1. Versatility
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    1. Compact and User-Friendly- Takes up minimal bench space.- Simple to operate with user-friendly controls and displays.
    2. Durability- High-quality materials like ceramic or stainless steel tops resist corrosion and wear.
    3. Time-Saving Speeds up preparation of solutions and reactions compared to manual stirring and separate heating. Would you like these benefits presented in a slide format or for a product brochure?
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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)

    Stretch Recovery Tester

    - Evaluating materials for comfort, durability, and fit Stretch Recovery Tester Diller In Bangladesh, Stretch Recovery Tester Importer In Bangladesh, Stretch Recovery Tester in Bangladesh, Stretch Recovery Tester in Bd, Stretch Recovery Tester In Uttara, Stretch Recovery Tester Price in Bangladesh, Stretch Recovery Tester Supplier in Bangladesh  
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    Digital Ink Rubbing Tester
    Digital Ink Rubbing Tester

    Digital Ink Rubbing Tester

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    Digital Ink Rubbing Tester

    Digital Ink Rubbing Tester

    Digital Ink Rubbing Tester

      A Digital Ink Rubbing Tester is a laboratory device used to evaluate the abrasion resistance and print durability of printed materials such as paper, packaging, labels, and printed films. It simulates the rubbing action between printed surfaces to test how well ink or coating adheres under friction.   Purpose of Digital Ink Rubbing Tester: - Measures how much ink or print wears off when rubbed against another surface. - Helps assess print quality, especially for packaging, labels, and publications.   ⚙️ Key Features of Digital Ink Rubbing Tester: - Digital Control Panel: For setting rubbing speed, stroke length, and number of cycles. - Adjustable Load: Pressure can be adjusted to simulate real-use friction. - Counter Display: Shows the number of rubbing cycles completed. - Sample Holders: Secure the test samples and rubbing medium in place. - Automatic Stop: Machine stops automatically after the set number of cycles.   Applications of Digital Ink Rubbing Tester: - Used in printing, packaging, and paper industries. - Commonly tests materials like labels, corrugated boxes, printed cartons, and laminates.   ✅ Benefits of Digital Ink Rubbing Tester: - Ensures print durability under handling or shipping. - Supports quality control in production. - Helps in selecting better ink or coating formulations.   ✅ 1. Ensures Print Durability - Tests how well ink or coating resists wear from friction, ensuring quality under real-world handling and shipping. ✅ 2. Improves Quality Control - Detects weak adhesion or poor ink quality early in the production process, reducing rework and returns.   ✅ 3. Precise and Repeatable Testing - Digital settings allow accurate control of speed, pressure, and cycle count for consistent test conditions. ✅ 4. Saves Time and Labor - Automates the rubbing process with pre-set cycles, reducing manual effort and improving efficiency. ✅ 5. Versatile Application - Suitable for a wide range of printed materials: labels, packaging, paper, film, and coated surfaces.   ✅ 6. Supports Product Development - Helps in testing and selecting the best inks, coatings, and substrates for specific use cases. ✅ 7. Meets Industry Standards - Often compatible with standards like ASTM D5264, ensuring credibility in test results.   key features of a Digital Ink Rubbing Tester: ⚙️ 1. Digital Control Panel - Allows precise setting of rubbing speed, stroke length, and cycle count. 2. LCD/LED Display - Shows real-time data like number of cycles, test duration, and operational status.   3. Adjustable Load - Enables setting different pressure levels to simulate various handling conditions. 4. Automatic Cycle Operation - Runs pre-set rubbing cycles and stops automatically after completion. 5. Sample Holders/Fixtures - Securely holds test specimens and rubbing surfaces for accurate testing.   ️ 6. User-Friendly Interface - Intuitive buttons and digital readouts for easy operation and test setup. 7. Compatible with Industry Standards - Supports test methods like ASTM D5264 and TAPPI T830. 8. Compact & Durable Design - Small footprint with a sturdy build for long-term use in lab environments.   Here’s a simple step-by-step guide to using a Digital Ink Rubbing Tester: ✅ 1. Prepare the Samples - Cut the printed material to fit the sample holder. - Cut a rub surface (usually plain or standardized paper) for rubbing contact. ✅ 2. Mount the Samples - Place the printed sample on the base platform. - Secure the rubbing medium in the moving head or upper fixture.   ✅ 3. Set Test Parameters - Use the digital control panel to input: - Number of cycles - Rubbing speed - Stroke length - Load/pressure (if adjustable)   ✅ 4. Start the Test - Press the Start button. - The machine will perform rubbing action based on your settings. ✅ 5. Observe the Results - After completion, inspect the printed surface for ink wear, smudging, or fading. - Record results manually or digitally if the tester supports logging.   ✅ 6. Clean and Reset - Remove samples, clean the fixtures, and turn off the device after use.
    Digital Ink Rubbing Tester

    Digital Ink Rubbing Tester

     
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    VeriVide Colour Assessment Cabinets
    Color Matching Cabinet -light Box

    VeriVide Colour Assessment Cabinets

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    VeriVide Colour Assessment Cabinets

    VeriVide Colour Assessment Cabinets VeriVide offers high-quality Colour Assessment Cabinets (CACs) such as the CAC 60-4, CAC 60-5, and CAC 120-4&5. These cabinets, originating from the UK, are reliable tools for visual evaluation in quality assurance, meeting national, international, and retailer standards. They effectively mitigate issues related to color assessment.VeriVide Colour Assessment Cabinets High-quality visual evaluation tool for quality assurance. Adhering to national, international and retailer standards.Colour Assessment Cabinet's (CACs) reduce problems associated with assessing products or samples in different environments,be though geological or seasonal, offering a cost-effective method to ensure visual accuracy and product quality. Color Light Box Enhance color precision with VeriVide's cutting-edge Colour Assessment Cabinets. These cabinets are meticulously designed to ensure accurate color evaluation in various industries. Invest in VeriVide Colour Assessment Cabinets to elevate your color assessment process.  Enhance Color Precision with VeriVide's Cutting-Edge Assessment Cabinets, which meet or surpass ISO 3664 and BS 950 Part 1 international standards. The cabinets are adaptable to user requirements, with lamp options to choose different light sources. Available in 60, 120, and 150cm widths, VeriVide Colour Assessment Cabinets provide a flexible solution for accurate color assessment. Incorporate user-friendly features like servicing indicator, auto sequence, warm-up, power save and data storage.4 or 5 light source options Versions available for colour fastness testing and particulate testing both adhering to global standardsEnsure  that you are using the best equipment available as they provide the best fluorescent D65 daylight simulator, with the highest Colour   Rendering Index (CRI), available. VeriVide Colour Assessment Cabinets products are known as light boxes, viewing booths, colour cabinets and others, depending on which industry or country they are serving in. They are used within a wide array of industry sectors throughout the world including textile and apparel, graphics, automotive, ceramics, cosmetics, pharmacology (CAC Particulate),   food, footwear, packaging and printing.Download the Datasheet below for more information or click 'VeriVide CAC Datasheet Here' to get in touch with colour experts. VeriVide CAC Datasheet Here Features of VeriVide Colour Assessment Cabinets • CAC 60, CAC 120 and CAC 150 accommodate 60, 120 and 150cm tubes respectively
    • Either 4 or 5 light sources available for each model including D65, D50, 840P15, F and UV - see Lamp Options.• Internal finishes in Munsell N5, Munsell N7 or Grey 5574 • Diffuser and/or dimmer options available​ Dimensions of VeriVide Colour Assessment Cabinets CAC 60-4 Dimensions (mm) Width Height Depth Overall 710 545 420
    Viewing Area 680 360 380 CAC 60-5 Dimensions (mm) Width Height Depth Overall 710 545 540 Viewing Area 680 360 495 CAC 120-4 and CAC 120-5 Dimensions (mm) Width Height DepthOverall 1290 755 620 Viewing Area 1260 570 585 CAC 150-4 and CAC 150-5 Dimensions (mm) Width Height Depth Overall 1560 755 620 Viewing Area 1530 570 585 Lamp Options of VeriVide Colour Assessment Cabinets Features of VeriVide Colour Assessment Cabinets Lamp specifications: CIE Daylight Illuminants Light Source Name Lamp Description C.R.I. Length Watts Diam Product Code D75 VeriVide D75 "Artificial Daylight" Correlated colour temperature 7500K. Conforming to the USA ASTM (American Society for Testing and Materials) D1729-82 standard for D75 Illuminant. With high CIE specifications, for accurate colour matching. 96 600mm 20w T12 600D75 D65 VeriVide D65 "Artificial Daylight" VeriVide D65 “Artificial Daylight”. Correlated colour temperature 6500K. Within the tolerances prescribed in BS 950: Part 1; and all international specifications for D65 illluminant. Specified for most applications where there is a need to maintain colour consistency and quality.Conforming highly to the CIE specifications, for accurate colour matching. 98 600mm 1200mm 1500mm 18w 36w 58w T8 T8 T8 600D65 1200D65 1500D65 D50 D50 "Artificial   Daylight" Correlated colour temperature of 5000K. For the Graphic Technology and Photography industries. D50 lamps conform to BS 950: Part 2 and ISO 3664. Recommended for transmitted light source to view transparencies and for the reflected light source to view reproductions. 98 600mm 1200mm 1500mm 18w 36w 58w T8 T8 T8 60095 120095 150095 CIE Illuminant 'A' Light Source Name Lamp Description C.R.I. Length Watts Diam Product Code'F' Tungsten Filament Tungsten Filament Lighting. Approximate color temperature of 2800K. Required by BS 950: Part 1 as a test for metamerism (approximating CIE Illuminant ‘A’). Typical light source used within domestic environments. 100 Globe Globe Round Clear-   284mm Opal-284mm 40w60w 150w 60w 60w 45mm 45mm - 40G450 60G450 150FILO 28460CL28460OP'A' Tungsten Halogen Tungsten Halogen Lighting (CIE Illuminant ‘A’). This represents incandescent A (inc-A) with a colour temperature of 2856K. Typical light source used within domestic environments. Used to check for metamerism. 100 - 35w - HALO/12V /35WLP Alternative (fluorescent) lighting / Point of SaleLight Source Name Lamp Description C.R.I. Length Watts Diam Product Code840 P15 VeriVide 840P15 Narrow Band Triphosphor Fluorescent Lamps. Correlated colour tempera ture of 4000K. CIE Illuminant F11. Often chosen as a European “Point of Sale” light source, with good colour rendering and manufactured to a tighter tolerance specification as prescribed by Marks & Spencer. (Formerly TL84P15) 85 600mm 1200mm 1500mm 18w 36w 58w T8 T8T8 60084P15120084P15 150084P15CWF Cool White Cool White Broad Band Fluorescent Lamps. Correlated colour temperature of 4000K. Used as an American “Point of Sale” light source. Moderate colour rendering. 62 600mm 1200mm 1500mm 20w 40w 65/80w T12 T12 T12 60033 120033 150033U35 Ultralume 35 Ultralume Narrow Band Triphosphor Fluorescent Lamp.Correlated colour temperature 3500K. An American “Point of Sale” light source, with good colour rendering. 86 600mm 1200mm 17w 32w T8 T8 T8 600U35 1200U35 830 830 Narrow Band Triphosphor Fluorescent Lamp. Correlated colour temperature 3000K. Often chosen as a European “Point of Sale” light source with good colour rendering.(Formerly TL83) 85 600mm 1200mm 1500mm 18w 36w 58w T8 T8 T8 60083 120083 150083 Horizon Light Source Name Lamp Description C.R.I. Length Watts Diam Product Code 'H' Horizon Lighting Colour temperature 2300K. Used for Automotive, Apparel and Metamerism Testing. As specified by the ASTM (American Society for testing and Materials) D1729-74, Standard Practise for Visual Evaluation of Colour Differences of Opaque Materials. 98 - 75w - HALO/12V /75WUltraviolet Light Source Name Lamp Description C.R.I. Length Watts Diam Product Code UV Ultraviolet Ultraviolet Blacklight. Used to detect the presence of Optical Brightening Agents and/or Fluorescent dyes. Therefore it is useful when assessing white and Fluorescent shades to check the level present and its evenness. N/A Clear-450mm Blacklight-600mm 15w 18w T8 T8 450UV15 600UV18 Paint specification of  VeriVide Colour Assessment Cabinets PAINT (For Cabinet Interiors) Name Description Quantity Product Code Crown Plain Grey 5574 Matt Emulsion 0.5 Litre Tins 5574 0.5L Munsell N5 0.5 Litre Tins N5 0.5L Munsell N7 0.5 Litre Tins N7 0.5L VERIVIDE MAINTENANCE PACK The VeriVide Maintenance Pack includes Cleaning Materials, Brush & Roller plus 0.5 litres of Paint.   https://maamtexbd.com/product/verivide-colour-assessment-cabinets/
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