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Controller For IR Dyeing Machine

IR Dyeing machine controller

Controller For IR Dyeing Machine offers exceptional quality .purchasing of our controller provides cost efficiencies, and customization options enabling you to meet your specific requirements comfortably. Collaborate with program A Controller for IR Dyeing Machine is a specialized control system designed to manage and automate the dyeing process in textile manufacturing, particularly using infrared heating technology. These controllers are crucial for achieving consistent dye quality, reducing energy consumption, and optimizing the dyeing process. Key Features of an Controller For IR Dyeing Machine :

Temperature Control:- Precisely regulates the infrared heaters to maintain uniform temperature across the dye bath. - Supports customizable heating curves (ramp-up, hold, and cool-down phases).
Programmable Logic Control (PLC): - Allows operators to set and automate dyeing programs for different fabrics and dye types. - Supports multiple recipes or programs for different batches.

Real-Time Monitoring and Feedback: - Monitors parameters like temperature, fabric rotation, bath circulation, and timing. - Provides real-time data and alarms for deviations.
Touchscreen Interface / HMI (Human Machine Interface): - User-friendly interface for configuring and monitoring processes. - Multi-language support and graphical display of process curves.

Data Logging and Traceability: - Records process data for quality control and traceability.
Energy Efficiency Optimization: - Manages IR heater output to reduce energy usage. - Often includes features for auto shut-off or idle mode.

Safety Features: - Includes emergency stop, over-temperature protection, and fault detection systems. 8. Connectivity: - Modern controllers may support Ethernet, Modbus, or other industrial communication protocols for integration into factory automation systems.

Using A Controller For IR Dyeing Machine provides several benefits, especially in textile manufacturing where precision and efficiency are critical. Here are the key advantages:

Improved Dyeing Accuracy and Consistency

- Maintains precise temperature control and timing, ensuring uniform dye uptake across the fabric. - Reduces color variation between batches.

Enhanced Energy Efficiency- Infrared heating is more energy-efficient than traditional heating methods.- The controller optimizes energy use by adjusting the IR output based on process needs, reducing overall energy consumption.

Time Savings- Faster heating and cooling cycles due to infrared technology.- Automated processes reduce manual intervention and cycle times. 4. Better Process Control- Programmable dyeing cycles and precise control over each stage (heating, dyeing, rinsing, cooling).- Real-time monitoring and adjustments improve reliability.

Reduced Water and Chemical Usage- More efficient dye penetration and fixation mean less water and fewer chemicals are needed for reprocessing or corrections.6. Lower Operational Costs

- Energy savings, reduced rework, and lower labor input contribute to cost efficiency. - Minimizes fabric damage, reducing material waste.

Enhanced Safety Built-in alarms, emergency shut-off and automatic fault detection enhance operational safety.8. Data Logging and Traceability- Ability to record and review dyeing process data helps in quality control and troubleshooting.- Facilitates compliance with industry standards and audits.

User-Friendly Operation- Modern touchscreen interfaces make it easier for operators to manage and monitor processes.- Multilingual support and visual feedback enhance usability.

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Counting Balance-Weighing Scale

Lab Equipment & Instrument, Dyeing Lab Machine, Physical Testing & Fabric Testing

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Counting Balance-Weighing Scale

A Counting Balance-Weighing Scale (or Counting Weighing Scale) is a precision electronic scale designed to weigh items and simultaneously count them based on individual piece weight. It’s commonly used in industries for inventory management, packaging, and quality control. Purpose of Counting Balance-Weighing Scale: To quickly and accurately count small items like buttons, beads, screws, or pills by weight. Eliminates manual counting, especially for large quantities. Working Principle of Counting Balance-Weighing Scale: Weigh a sample quantity of items to determine the average weight of one piece. Place a bulk quantity on the scale. The scale divides the total weight by the unit weight to calculate the total item count. Applications of Counting Balance-Weighing Scale: Textile accessories (buttons, rivets) Hardware (nuts, bolts, washers) Electronics (resistors, chips) Pharmaceuticals (tablets, capsules) Benefits of Counting Balance-Weighing Scale: Fast and Accurate Counting - Saves time by quickly counting large quantities of small items. Reduces Human Error- Eliminates mistakes common in manual counting. Improves Productivity - Speeds up packing, inventory, and quality control processes. Versatile Use - Suitable for various industries: textiles, hardware, pharmaceuticals, electronics. Cost-Efficient- Reduces labor costs and improves operational efficiency. Compact and Portable - Easy to move and use in different workstations. Dual Functionality - Can be used for both counting and standard weighing. Memory and Tare Functions - Stores unit weights and allows container weight deduction. Features of Counting Balance-Weighing Scale: High Precision Sensors- Ensures accurate weight and count, even for tiny components. Digital Display- Separate displays for total weight, unit weight, and piece count. Tare Function - Allows deduction of container weight for net measurements. Memory Function - Stores frequently used unit weights for fast recall. Multiple Units Support- Measures in grams, kilograms, pounds, etc. Sample Size Selection- Users can set sample sizes (e.g., 10, 20, 50 pcs) to calculate piece weight. Overload Protection- Prevents damage from excessive weight. Auto Calibration - Maintains long-term accuracy with internal or external calibration options. Sturdy Platform- Stainless steel pan with anti-slip design for stable weighing. Battery and AC Operation- Can run on rechargeable batteries or power adapter. How to Use Counting Balance-Weighing Scale: Turn On the Scale - Power it on and wait for the display to stabilize at zero. Tare the Container - Place an empty container on the pan and press the "TARE" button to zero out its weight. Set Sample Size - Place a known quantity (e.g., 10 or 20 pcs) of identical items on the scale. - Enter the sample quantity using the keypad. Confirm Unit Weight - The scale calculates and stores the average unit weight automatically. Add Bulk Items - Add the rest of the items into the container. - The display will show the total count based on the stored unit weight. Record Results - Note down the total piece count and remove the items. Turn Off After Use - Power off the scale to save battery or electricity. Counting Balance /Weighing Scale Model : DS610C Brand : DIGISCALE Origin : Germany Capacity : 3 kg Division : 0.1g Min Weight : 0.5g Grade : Class 3 Platter : 280 × 215mm Battery : Rechargeable Battery with AC Adaptor Display : Double Large LCD Display Warranty : One Year Service Warranty SPECIFICATION Build With 5 Measuring Units: kg, g, lb, oz, PCS Count Platter : 280 × 215mm Quality : Heavy Duty Premium Quality Product Net / Gross Weight : 3080g / 3130g Battery : Rechargeable Battery with AC Adaptor Battery Capacity: 6V 4.5Ah / 20 HR Adaptor Power Input : AC 220V-240V / 50Hz Adaptor Power Output : 10V DC/ 500mA Display : Double Large LCD Display Color : White-Gray Keyboard : 20 Members Key Operating Temperature : 0-40°C (32-104°F) FEATURES Auto Zero Tracking Automatic Overload Display Grade Class 3 Auto Backlight Double LCD Display Low Battery Indication Rechargeable Battery with Adaptor Save Electricity Advantage Piece Counting Functionality: The DS603C Counting Weighing Scale is prepared with an precise piece checking highlight, perfect for stock administration, generation lines, and quality control assignments. This guarantees you can tally things like screws, jolts, or other little components efficiently. High-Precision Digital Scale Display: The advanced scale show gives clear and precise readings, making it simple to screen weight and amount. Its shinning and natural interface guarantees ease of use in diverse lighting conditions. Digital Scale Calibration: To keep up exactness, the DS610C weighing scale calibration prepare is direct, guaranteeing the scale remains dependable over time. Normal weight scale calibration ensures reliable execution, indeed with overwhelming use. Durable and Reliable Build: The DS610C advanced weight scale is created with strong materials to withstand visit utilize in requesting situations, such as stockrooms and fabricating facilities. Versatility: As a weighing and tallying scale, it combines the benefits of weight estimation and piece tallying in one gadget. This makes it appropriate for a wide extend of applications, from retail to mechanical uses. Categories: Digital Scale and Balance, Piece Counting Scale, Table Top Scale

Counting Balance-Weighing Scale

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Product

Fatigue tester for Elastic fabric

Physical Testing & Fabric Testing, Dyeing Lab Machine

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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:

Adjustable Stretch Range - Allows setting stretch levels (e.g., 0–100%) to simulate real-life fabric use.
High-Cycle Capability - Supports up to millions of stretch-relax cycles for long-term fatigue analysis.
Touch Screen Control - 7-inch color display for easy setup, monitoring, and data entry.
Servo Motor Driven - Ensures precise and smooth linear motion during testing.

Customizable Speed - Adjustable test speed (e.g., up to 40 cycles per minute) based on test requirements.
Multi-Sample Testing - Some models allow testing multiple specimens simultaneously.
Cycle Counter with Alarm - Built-in counter with programmable stop after preset cycles and auto-alert feature.

Durable Construction - Robust metal frame suitable for continuous testing in lab environments.
Standard Compliance - Designed to follow standards like GB/T 37635 for elastic fabric testing.

How to Use Fatigue Tester for Elastic Fabric:

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.

Mount the Sample - Secure both ends of the fabric in the upper and lower clamps.
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).

Start the Test - Press start on the touch screen interface. - The machine will cyclically stretch and release the sample.
Monitor Progress - Observe operation or let it run automatically.

- Machine stops automatically after reaching the set cycles.

Remove and inspect - Take out the fabric and measure elongation, recovery, or visual defects.
Record and Compare Results - Compare with initial measurements or standard performance criteria.
Fatigue tester for Elastic fabric

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Stretch Recovery Tester Static Method

Physical Testing & Fabric Testing, Dyeing Lab Machine

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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:

A sample is stretched to a predetermined extension or force.
The stretch is maintained for a set period.
After removing the load, the recovery (return to original length) is measured after a fixed time.
The fabric sample is clamped and stretched to a specific length or force.
It’s held for a fixed duration (e.g., 1–5 minutes).
The tension is released, and the sample is allowed to recover.
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 Scope：elastomeric material Testing Standards：ASTM 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

- 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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Pantone book

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Pantone Book

A Pantone Book, commonly referred to as a Pantone Color Guide, is a professional color matching tool used across industries like graphic design, fashion, printing, packaging, and product manufacturing. It helps ensure consistent color communication from design to final production. What It Does? - Displays standardized Pantone colors in fan-deck or chip book format. - Provides color codes, ink formulas, and finish types for accurate color replication. Types of Pantone Books:

Formula Guide (Solid Coated & Uncoated) – For spot color printing.
Color Bridge – Shows Pantone spot colors alongside CMYK equivalents.
Pantone Fashion, Home + Interiors (FHI) – For textiles, soft goods, and home decor.
Pantone CMYK and Pastels & Neons Guides – For process printing and special effect colors.

⚙️ Features of Pantone Book: - Thousands of pre-defined colors. - Ink mixing formulas (for printers). - Available in coated, uncoated, and matte finishes. - Some include digital tools or access to Pantone Connect software. ✅ Benefits of Pantone Book: - Ensures accurate color matching across designers, clients, and manufacturers. - Supports branding consistency across all printed and physical materials. key benefits of using a Pantone Book: ✅ 1. Accurate Color Communication- Ensures consistent color matching between designers, printers, and manufacturers—globally. ✅ 2. Industry Standard- Trusted across printing, fashion, packaging, and branding for reliable color references. ✅ 3. Saves Time and Reduces Errors - Eliminates guesswork in color approval, helping avoid costly reprints or corrections. ✅ 4. Versatile Applications - Supports multiple media types: print, fabric, plastics, digital design, etc. ✅ 5. Real-World Color View - Physical swatches show true ink or dye appearance, which digital screens can’t replicate accurately. ✅ 6. Ink Mixing Formulas - Provides exact mixing guides for printers to replicate spot colors precisely. ✅ 7. Global Consistency - Helps maintain brand color consistency across international production sites. key features of a Pantone Book: 1. Standardized Color System - Includes thousands of pre-defined Pantone Matching System (PMS) colors with unique codes. 2. Multiple Finish Types - Available in Coated (C), Uncoated (U), Matte (M) formats to match different printing surfaces. 3. Fan Deck or Chip Format - Comes in portable fan-deck or tear-away chip books for easy reference and sharing. 4. Ink Mixing Formulas - Provides precise ink formulas for each color, ideal for print production. 5. Specialized Editions - Guides tailored for graphic design, textiles (FHI), plastics, and digital design. 6. Cross-Media Consistency - Ensures uniform color across print, web, fabric, and packaging. 7. Digital Integration - Many books include access to Pantone Connect for digital workflow and color data sync. Here’s a simple guide on how to use a Pantone Book effectively: ✅ 1. Choose the Right Pantone Book - Use Formula Guide for print. - Use FHI (Fashion, Home + Interiors) for textiles. - Use Color Bridge to compare spot colors with CMYK. ✅ 2. Select the Color - Flip through the fan deck or chip book to find the desired color. - Note the Pantone code (e.g., Pantone 186 C for coated paper). ✅ 3. Communicate the Code - Share the Pantone number with printers, manufacturers, or team members to ensure consistent color use. ✅ 4. Use the Right Finish - Make sure you're referencing coated, uncoated, or matte depending on your final material. ✅ 5. Compare to Printed Proofs - Use the physical Pantone swatch to check if print proofs or samples match. ✅ 6. Maintain Lighting Consistency - View colors under standard lighting (D50) for accurate color judgment. ✅ 7. Store Properly - Keep the Pantone book in a cool, dry place and replace it every 12–18 months to avoid fading. Pantone offers a diverse range of color guides tailored to various industries and applications. Here's an overview of the main Pantone book models: Pantone Graphics & Print Guides

Formula Guide (Solid Coated & Uncoated)

- Features over 2,390 spot colors with corresponding ink formulations. - Essential for branding, packaging, and print design. - Provides accurate color matching for solid colors.

Color Bridge Guide (Coated & Uncoated)

- Displays side-by-side comparisons of Pantone spot colors and their closest CMYK equivalents. - Includes CMYK, RGB, and HEX values for digital and print consistency. - Ideal for projects requiring color translation across different media.

CMYK Guide (Coated & Uncoated)

- Contains a comprehensive range of CMYK colors. - Useful for four-color process printing without spot colors. - Helps in selecting colors achievable through standard CMYK printing.

Pastels & Neons Guide

- Offers a collection of soft pastel and vibrant neon colors. - Suitable for creative projects in fashion, print, and packaging. - Provides unique color options for special design applications.

Metallics Guide

- Features metallic spot colors for premium print finishes. Ideal for luxury packaging, branding, and high-end print materials. - Adds a sophisticated touch to printed designs. Pantone Fashion, Home + Interiors (FHI) Guides

FHI Color Guide (TPG – Paper)

- Contains a wide range of colors for non-fabric materials. - Used in product design, cosmetics, and interiors. - Provides color inspiration for various applications.

FHI Cotton Passport & Cotton Planner (TCX – Textile)

- Offers colors on cotton fabric swatches. - Essential for textile and apparel design. - Ensures accurate color communication in fabric production.

FHI Polyester Swatch Book

- Includes colors on polyester fabric. - Useful for sportswear, footwear, and synthetic textiles. - Provides color options specific to polyester materials. Pantone Specialty Guides

Pantone SkinTone Guide

- Features a range of skin tone colors. - Used in cosmetics, healthcare, and product development. - Aids in creating products that match diverse skin tones.

Pantone Plastic Standard Chips

- Provides color references on plastic substrates. - Essential for industrial design, consumer electronics, and appliances. - Ensures color accuracy in plastic product manufacturing. Pantone Bundles & Studio Sets - Portable Guide Studio - A comprehensive set including multiple Pantone guides. - Designed for professionals needing a wide range of color references. - Convenient for on-the-go color selection and matching. - Essentials Set - Combines key Pantone guides into one package. - Ideal for designers seeking a versatile color toolkit. - Offers a cost-effective solution for comprehensive color needs. Each Pantone guide serves specific purposes across different industries. Selecting the appropriate guide depends on your project's requirements and the materials involved.

Pantone Book

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Digital precision balance

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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:

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.
Digital Display: - Large, backlit LCD or LED display for easy reading. - Some models include touch screen interfaces.
Tarring Function: - Allows you to subtract the weight of a container or packaging to get the net weight.
Calibration: - Internal or external calibration to maintain accuracy over time. - Some advanced models have auto-calibration features.
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:

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.

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.
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.
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.
Portability and Space Efficiency- Compact design fits easily in most laboratory setups.- Lightweight models are easy to move and store.
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 hot plate-magnetic stirrer

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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.

Magnetic Stirrer:

- Uses a rotating magnetic field to spin a magnetic stir bar placed in the liquid. - Ensures even mixing of the solution without manual stirring. - Speed can be adjusted digitally.

Digital Display and Controls:

- Allows precise setting of temperature and stirring speed. - Typically includes an LCD or LED screen. - Some models have programmable settings and timers.

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:

Precision and Control- Digital Interface: Allows accurate setting and monitoring of temperature and stirring speed.- Consistent Results: Ensures reproducibility in experiments and solution preparations.

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.

Safety Features- Overheat Protection: Prevents accidents by automatically shutting off at unsafe temperatures.- Sealed Surface: Reduces risk of contamination and easy to clean.

Versatility

- Suitable for a wide range of applications including chemical synthesis, biological experiments, and pharmaceutical processes.- Compatible with various types of containers and volumes.

Compact and User-Friendly- Takes up minimal bench space.- Simple to operate with user-friendly controls and displays.
Durability- High-quality materials like ceramic or stainless steel tops resist corrosion and wear.
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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Controller For IR Dyeing Machine

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Controller For IR Dyeing Machine

IR Dyeing machine controller

Temperature Control:- Precisely regulates the infrared heaters to maintain uniform temperature across the dye bath. - Supports customizable heating curves (ramp-up, hold, and cool-down phases).
Programmable Logic Control (PLC): - Allows operators to set and automate dyeing programs for different fabrics and dye types. - Supports multiple recipes or programs for different batches.

Real-Time Monitoring and Feedback: - Monitors parameters like temperature, fabric rotation, bath circulation, and timing. - Provides real-time data and alarms for deviations.
Touchscreen Interface / HMI (Human Machine Interface): - User-friendly interface for configuring and monitoring processes. - Multi-language support and graphical display of process curves.

Data Logging and Traceability: - Records process data for quality control and traceability.
Energy Efficiency Optimization: - Manages IR heater output to reduce energy usage. - Often includes features for auto shut-off or idle mode.

Safety Features: - Includes emergency stop, over-temperature protection, and fault detection systems. 8. Connectivity: - Modern controllers may support Ethernet, Modbus, or other industrial communication protocols for integration into factory automation systems.

Using A Controller For IR Dyeing Machine provides several benefits, especially in textile manufacturing where precision and efficiency are critical. Here are the key advantages:

Improved Dyeing Accuracy and Consistency

- Maintains precise temperature control and timing, ensuring uniform dye uptake across the fabric. - Reduces color variation between batches.

Enhanced Energy Efficiency- Infrared heating is more energy-efficient than traditional heating methods.- The controller optimizes energy use by adjusting the IR output based on process needs, reducing overall energy consumption.

Time Savings- Faster heating and cooling cycles due to infrared technology.- Automated processes reduce manual intervention and cycle times. 4. Better Process Control- Programmable dyeing cycles and precise control over each stage (heating, dyeing, rinsing, cooling).- Real-time monitoring and adjustments improve reliability.

Reduced Water and Chemical Usage- More efficient dye penetration and fixation mean less water and fewer chemicals are needed for reprocessing or corrections.6. Lower Operational Costs

- Energy savings, reduced rework, and lower labor input contribute to cost efficiency. - Minimizes fabric damage, reducing material waste.

Enhanced Safety Built-in alarms, emergency shut-off and automatic fault detection enhance operational safety.8. Data Logging and Traceability- Ability to record and review dyeing process data helps in quality control and troubleshooting.- Facilitates compliance with industry standards and audits.

User-Friendly Operation- Modern touchscreen interfaces make it easier for operators to manage and monitor processes.- Multilingual support and visual feedback enhance usability.

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VeriVide Colour Assessment Cabinets

Physical Testing & Fabric Testing, Dyeing Lab Machine, Lab Equipment & Instrument

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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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Color Matching Cabinet-Light Box

Physical Testing & Fabric Testing, Dyeing Lab Machine, Lab Equipment & Instrument

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Color Matching Cabinet-Light Box

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Counting Balance-Weighing Scale

Lab Equipment & Instrument, Dyeing Lab Machine, Physical Testing & Fabric Testing

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Counting Balance-Weighing Scale

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Random Tumble Pilling Tester

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fabric moisture permeability tester

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Physical Testing & Fabric Testing

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Fabric air permeability tester

Dyeing Lab Machine, Physical Testing & Fabric Testing

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Fabric Air Permeability Tester

Fabric air permeability tester

Fabric Air Permeability Tester is a lab instrument used to measure how easily air passes through a fabric. It quantifies the air permeability, which is crucial for evaluating breathability, comfort, and functional performance in textiles. Purpose Fabric Air Permeability Tester: It determines the rate of airflow through a fabric sample under a set air pressure, typically reported in units like cm³/cm²/s or L/m²/s. Working Principle: The tester creates a pressure difference across the fabric sample and measures the volume of air flowing through it. Higher air permeability means the fabric is more breathable. Main Components of Fabric Air Permeability Tester: - Test Head / Clamp: Holds the fabric securely without leakage. - Pressure Regulator: Maintains a constant air pressure during testing. - Flow Meter or Digital Sensor: Measures the actual airflow rate through the fabric. - Display Unit: Shows readings of air permeability instantly. Applications of Fabric Air Permeability Tester: - Performance textiles (sportswear, PPE) - Technical fabrics (filters, tents, airbags) - Medical textiles (masks, gowns) - Nonwovens and industrial materials Benefits of Fabric Air Permeability Tester:

Accurate Breathability Measurement - Precisely measures how breathable a fabric is, essential for comfort and performance.
Supports Quality Control - Ensures consistent air permeability in fabric batches, critical for products like PPE, sportswear, and filters.

Enhances Product Design - Helps in selecting or engineering fabrics with the right airflow properties for specific uses.
Standard Compliance - Conforms to international testing standards (e.g., ASTM D737, ISO 9237), ensuring global credibility.
Quick and Reliable Testing - Provides rapid results, increasing lab efficiency and production decision-making speed.

Wide Material Compatibility - Suitable for woven, nonwoven, knitted fabrics, and even paper or coated materials.
Improves Functional Performance - Helps optimize products for ventilation, moisture control, and thermal comfort.
Reduces Product Failure - Identifies underperforming fabrics early, minimizing risks in high-performance applications.

Features of Fabric Air Permeability Tester:

Digital Display - Shows air permeability readings clearly in units like L/m²/s or cm³/cm²/s.
Precise Test Head/Clamp - Provides an airtight seal to prevent air leakage and ensure accurate results.
Adjustable Pressure Settings - Allows testing under various pressure drops (e.g., 10–2500 Pa), depending on fabric type.

Automatic Airflow Measurement - Built-in sensors or flow meters capture airflow rate automatically for quick analysis.
Multiple Test Area Sizes - Interchangeable test plates to match different sample sizes and standard requirements.
Data Logging and Export - Some models include USB or software connectivity for storing and exporting test results.

Standard Compliance - Conforms to ASTM D737, ISO 9237, BS 5636, DIN 53887, etc.
Robust Construction - Built with corrosion-resistant materials and durable components for long-term lab use.
Low Maintenance - Simple cleaning and calibration process for reliable performance.
Compact and User-Friendly Design - Ideal for lab benches and easy operation with minimal training.

How to Use Fabric Air Permeability Tester:

Prepare the Sample - Cut the fabric sample to the required size (usually circular, e.g., 20 cm²).
Mount the Sample - Place the fabric securely in the test clamp or holder, ensuring no wrinkles or gaps.
Set Test Parameters - Adjust the air pressure drop according to the fabric type or standard (e.g., 100 Pa).

Start the Test - Turn on the air supply and start the airflow through the fabric.
Read the Measurement - The digital display will show the air permeability value in the selected units.
Record the Results - Note the readings or export data if the device supports it.
Repeat if needed - Test multiple samples or areas for accuracy and average the results.
Clean and Maintain - After testing, clean the clamp and ensure the device is calibrated regularly.

Tip: Ensure the test environment maintains standard temperature and humidity for consistent results. Fabric Ai

r Permeability Tester Appliance Range It is used to TEST the air permeability of various textile fabrics, including industrial fabrics, nonwoven fabrics and other textile products and other breathable materials. Related Standards GB / T 5453, GB / T 13764, ISO 9237, ISO 5636, ASTM D737, etc. Instrument characteristics 1. Automatic sample clamping, automatic nozzle replacement, and quick test. 2. Microcomputer processing, the test results are displayed directly, without manual table calculation; 3. Built-in continuous test mode, the test unit can be switched as needed. 4. Chinese LCD menu operation, configure computer interface. Technical parameter 1. Range of sample pressure difference: 1 ～ 4000Pa 2. Measurable air permeability: 1 ～ 40,000mm / s 3. Measurement error: ≤ ± 2% 4. Measurable fabric thickness: ≤8mm 5. Test area: 5cm2; 20cm2; 50cm2; 100cm2 Ф50mm (≈19.6cm2) Ф70mm (≈38.5cm2) 6. Nozzles: 11 in total (automatic replacement of digital setting) CODE 00 01 02 03 04 05 06 07 08 09 10 DIAφ（mm） 0.8 1.2 2 3 4 6 8 10 12 16 20 7.Data Capacity:≤200 times tests 8.Power Supply：AC220V 50Hz 2KW 9.Weight：80Kg 10.Shape：1250×700×1250mm

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Fiber Oil Fast Extractor

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Fiber Oil Fast Extractor

A Fiber Oil Fast Extractor is a laboratory instrument designed to determine the oil or finish content in fibers, yarns, or fabrics, particularly wool and synthetic materials. It operates on the principle of solvent extraction followed by evaporation. Working Principle of Fiber Oil Fast Extractor:

Sample Preparation: Cut the fabric or fiber into small pieces.
Solvent Addition: Place the sample into a metal tube and add an appropriate solvent (e.g., petroleum ether, ethyl ether).

Extraction: Apply weight to the sample to facilitate the dissolution of oils into the solvent.
Evaporation: The solvent-oil mixture drips onto a heated plate where the solvent evaporates, leaving behind the oil.
Measurement: Weigh the remaining oil and calculate its percentage relative to the initial sample mass.

Key Features of Fiber Oil Fast Extractor: - Multiple Workstations: Models like the Quick Extra offer four independent stations for simultaneous testing.- Automatic Weight Pressurization: Eliminates manual pressure application, ensuring consistent results.- Microcomputer Temperature Control: Maintains uniform heating (typically 90°C–120°C) with ±1°C precision. - Digital Interface: Features timers and oil calculators for efficient operation. - Data Connectivity: Some models can connect to systems like Smart Tex Lab for real-time monitoring and data management. Applications of Fiber Oil Fast Extractor: - Textile Industry: Assessing oil content in fibers to ensure quality and compliance with standards like GB/T 6504-2017. - Research and Development: Studying the effects of oils and finishes on fiber properties. - Quality Control: Ensuring consistency in fiber treatment processes. Benefits of Fiber Oil Fast Extractor:

Accurate Oil Content Measurement- Precisely determines oil or finish content in fibers, crucial for quality control.
Rapid Extraction Process - Delivers fast results, improving lab efficiency and productivity.
Simultaneous Multi-Sample Testing - Multiple workstations (e.g., 4 at once) reduce testing time for bulk samples.

Improved Product Quality - Helps maintain consistent oil levels, which affect dyeing, processing, and fabric performance.
Automatic Operation - Automated pressing and heating reduce manual effort and operator error.
Digital Monitoring - Built-in timer, temperature control, and oil calculator enhance accuracy and usability.

Compliance with Standards - Supports industry methods like GB/T 6504-2017, ensuring reliable and standard-compliant results.
Safe Solvent Handling - Enclosed design minimizes solvent exposure and evaporation loss.

Features of Fiber Oil Fast Extractor:

Multiple Test Stations - Usually equipped with 2 to 4 independent work units for parallel testing.
Automatic Weight Pressing System - Applies consistent pressure on samples for uniform solvent extraction.
Microcomputer Temperature Control - Maintains precise heating (typically 90–120°C) with ±1°C accuracy.

Built-in Timer and Calculator - Allows setting extraction time and calculates oil content directly.
Solvent Evaporation Plate- Heats and evaporates solvent quickly, leaving only the oil residue.
Digital Display - Shows time, temperature, and process status for user-friendly operation.
Compact and Durable Design - Made with corrosion-resistant materials suited for chemical handling.

Safety Features - Includes overheat protection and enclosed solvent chamber to reduce exposure risk.
Standard Compliant - Designed to meet GB/T 6504-2017 and similar industry testing standards.

How to Use Fiber Oil Fast Extractor:

Prepare the Sample - Cut 5–10 g of fiber or yarn into small pieces and place in the sample tube.
Add Solvent - Pour a suitable solvent (e.g., petroleum ether) into the tube to cover the sample.
Apply Weight - Place the extractor's weight or press system onto the sample to aid extraction.

Start Extraction - Activate the machine. The solvent dissolves the oils and flows to the heating plate.
Heat for Evaporation - Set the temperature (typically 90–120°C). The solvent evaporates, leaving oil on the plate.
Measure Oil Content- After drying, weigh the remaining oil. Use the built-in calculator or formula:

Oil % = (Oil weight / Original sample weight) × 100

Clean the Unit - After cooling, clean all parts to prepare for the next test.
Fiber Oil Fast Extractor

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Fatigue tester for Elastic fabric

Physical Testing & Fabric Testing, Dyeing Lab Machine

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Fatigue Tester for Elastic Fabric

Fatigue tester for Elastic fabric

Adjustable Stretch Range - Allows setting stretch levels (e.g., 0–100%) to simulate real-life fabric use.
High-Cycle Capability - Supports up to millions of stretch-relax cycles for long-term fatigue analysis.
Touch Screen Control - 7-inch color display for easy setup, monitoring, and data entry.
Servo Motor Driven - Ensures precise and smooth linear motion during testing.

Customizable Speed - Adjustable test speed (e.g., up to 40 cycles per minute) based on test requirements.
Multi-Sample Testing - Some models allow testing multiple specimens simultaneously.
Cycle Counter with Alarm - Built-in counter with programmable stop after preset cycles and auto-alert feature.

Durable Construction - Robust metal frame suitable for continuous testing in lab environments.
Standard Compliance - Designed to follow standards like GB/T 37635 for elastic fabric testing.

How to Use Fatigue Tester for Elastic Fabric:

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.

Mount the Sample - Secure both ends of the fabric in the upper and lower clamps.
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).

Start the Test - Press start on the touch screen interface. - The machine will cyclically stretch and release the sample.
Monitor Progress - Observe operation or let it run automatically.

- Machine stops automatically after reaching the set cycles.

Remove and inspect - Take out the fabric and measure elongation, recovery, or visual defects.
Record and Compare Results - Compare with initial measurements or standard performance criteria.
Fatigue tester for Elastic fabric

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Fabric drape tester

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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:

Quantifies Fabric Flow - Measures drape behavior accurately, crucial for garments and furnishings.
Supports Design Decisions - Helps designers select fabrics that match the intended look and movement of a product.
Improves Garment Fit and Comfort - Ensures fabrics behave naturally on the body, enhancing wear ability.

Enhances Product Aesthetics - Prevents stiff or limp fabric choices in fashion, interior, or technical textiles.
Standardized Evaluation - Enables comparison across fabrics using drape coefficient, based on standards (e.g., BS 5058).
Supports R&D - Useful in developing new fabrics or finishes to improve drape quality.

Non-Destructive Testing - Tests fabric without damaging it, allowing for further analysis.
Boosts Quality Control - Identifies batch inconsistencies or performance issues early in production.

Features of Fabric Drape Tester:

Rotating Support Disc - Holds the fabric sample over a smaller disc to create natural drape.
Standard Sample Size Support - Designed for circular fabric samples, usually 30 cm in diameter.
Light Projection System - Projects the draped fabric’s shadow onto a screen or recording surface.

Drape Coefficient Calculation - Measures the shadow area to compute the drape coefficient (percentage of unsupported area covered by the shadow).
Digital or Manual Options - Available in models with digital image processing or manual plan meter tracing.
Stable Base and Structure - Ensures consistent and vibration-free testing conditions.

Sample Templates Provided - For cutting precise, standard-sized fabric specimens.
User-Friendly Interface - Simple controls for rotation and light alignment.
Compact and Lab-Ready Design - Fits easily on lab benches and in testing environments.
Compliance with Testing Standards - Supports BS 5058 and other relevant drape measurement methods.

How to Use Fabric Drape Tester:

Prepare the Fabric Sample - Cut a circular fabric sample, typically 30 cm in diameter, using the provided template.
Place the Fabric - Center the fabric sample over the smaller support disc (usually 18 cm diameter) on the tester.
Turn on the Light Source - Illuminate the fabric from above so it casts a shadow onto the recording surface or paper below.

Capture the Shadow Outline - Trace the shadow manually on paper or capture it digitally, depending on the model.
Measure the Shadow Area - Use a plan meter (manual) or software (digital) to determine the shadow’s area.
Calculate Drape Coefficient (DC) - Use the formula:

DC (%) = (Shadow Area - Support Disc Area) / (Full Fabric Area - Support Disc Area) × 100

Record the Result - Log the drape coefficient to evaluate how stiff or flexible the fabric is.
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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Random Tumble Pilling Tester

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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:

Multiple Test Chambers - Typically comes with 2 or 4 cork-lined chambers for simultaneous testing of multiple fabric samples.
High-Speed Rotating Impellers - Impellers rotate at around 1200 rpm to create intense, random tumbling motion.

Compressed Air System - Ensures continuous fabric movement and realistic simulation of wear.
Digital Timer- Allows precise setting of test duration with easy-to-read display.
Viewing Windows- Transparent chamber doors for monitoring fabric movement during testing.
Standard Compliant Design- Meets ASTM D3512, ISO 12945-3, GB/T 4802.4 and other major standards.

Robust Construction- Durable materials and components designed for long-term laboratory use.
Easy Sample Handling - Quick-open chamber lids and simple sample placement process.
Compact Footprint- Saves space in laboratory environments.

How to Use Random Tumble Pilling Tester:

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).
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.

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.

Start the Test- Close the chamber doors and press start. - Impellers rotate, tumbling the samples randomly with air flow.

Stop and Unload - Once the timer ends, remove the samples carefully.
Evaluate Pilling - Compare the tested samples to standard pilling rating photographs or scales.

- Assign a rating from 1 (severe pilling) to 5 (no pilling).

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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Lab Equipment & Instrument

Digital thickness gauge

Lab Equipment & Instrument

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Digital Thickness Gauge

Digital Thickness Gauge

A Digital Thickness Gauge is a precision instrument used to measure the thickness of materials like fabric, paper, plastic, rubber, leather, and films. It displays readings digitally, offering greater accuracy, consistency, and ease of use compared to analog gauges. Purpose of Digital Thickness Gauge: - To measure material thickness accurately for quality control and specification compliance. - Commonly used in textile, paper, packaging, plastic, and leather industries. Working Principle of Digital Thickness Gauge: - A flat presser foot is lowered onto the material placed on an anvil. - The displacement between the anvil and foot is measured using a digital sensor. - The value is displayed instantly on an LCD screen. Key Features of Digital Thickness Gauge: - Digital LCD Display – Clear, instant readings. - High Accuracy & Resolution – Typically ±0.01 mm or better. - Spring-Loaded Presser Foot – Applies uniform pressure. - Zero Setting & Data Hold – For quick reference and repeatability. - Unit Conversion – Switch between mm/inch. - Battery Operated – Portable and convenient. Applications of Digital Thickness Gauge: - Fabric and textile labs - Plastic film and paper mills - Leather and rubber product inspection - Research & development Benefits of Digital Thickness Gauge:

High Accuracy - Offers precise measurements, often up to ±0.01 mm, reducing human error.
Quick Readout - Instant digital display of results speeds up testing and data collection.
Easy to Use - Simple operation with one-button zeroing and unit conversion.
Consistent Pressure Application - Spring-loaded foot ensures uniform pressure for repeatable results.

Multi-Material Testing - Suitable for textiles, paper, film, rubber, leather, and nonwovens.
Portable and Lightweight- Ideal for both lab and field use with battery-powered operation.
Data Hold Function - Locks the measurement on-screen for easy recording.
Improves Quality Control - Helps manufacturers maintain product thickness standards.

Features of Digital Thickness Gauge:

Digital LCD Display - Provides clear, instant thickness readings in mm or inches.
High Resolution & Accuracy - Typically measures with 0.01 mm precision.
Spring-Loaded Presser Foot - Applies consistent pressure on samples for reliable results.
Zero Setting Function- Allows quick reset before each measurement.
Unit Conversion Button - Easily switch between metric (mm) and imperial (inch) units.
Data Hold Function - Freezes the displayed value for easy recording.
Portable Design - Compact and battery-operated for on-site or lab use.
Durable Construction - Made from stainless steel or hardened materials for long life.

Auto Power-Off - Saves battery by shutting off when idle.
Variety of Anvil & Foot Sizes - Customizable based on testing standards or material types.

How to Use Digital Thickness Gauge:

Power On the Device - Press the power button to turn on the gauge.
Zero the Gauge - Close the anvil and presser foot fully. Press the "ZERO" button to reset the display to 0.00 mm.
Select Unit (if needed) - Use the unit button to toggle between mm and inches.
Place the Sample - Open the presser foot and insert the material between the foot and anvil.
Apply Pressure - Gently release the presser foot to let it rest on the sample using its spring force.

Read the Measurement- Read the thickness displayed on the LCD screen.
Hold or Record the Data - Use the "HOLD" button (if available) to lock the reading for recording.
Remove the Sample- Lift the presser foot and take out the material.
Power Off - Turn off the device or let it auto shut-off.
Features of Digital Thickness Gauge:
1. Digital LCD Display - Provides clear, instant thickness readings in mm or inches.
2. High Resolution & Accuracy - Typically measures with 0.01 mm precision.
3. Spring-Loaded Presser Foot - Applies consistent pressure on samples for reliable results.
4. Zero Setting Function- Allows quick reset before each measurement.
5. Unit Conversion Button - Easily switch between metric (mm) and imperial (inch) units.
6. Data Hold Function - Freezes the displayed value for easy recording.
7. Portable Design - Compact and battery-operated for on-site or lab use.
8. Durable Construction - Made from stainless steel or hardened materials for long life.

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Controller For IR Dyeing Machine

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Controller For IR Dyeing Machine

IR Dyeing machine controller

Temperature Control:- Precisely regulates the infrared heaters to maintain uniform temperature across the dye bath. - Supports customizable heating curves (ramp-up, hold, and cool-down phases).
Programmable Logic Control (PLC): - Allows operators to set and automate dyeing programs for different fabrics and dye types. - Supports multiple recipes or programs for different batches.

Real-Time Monitoring and Feedback: - Monitors parameters like temperature, fabric rotation, bath circulation, and timing. - Provides real-time data and alarms for deviations.
Touchscreen Interface / HMI (Human Machine Interface): - User-friendly interface for configuring and monitoring processes. - Multi-language support and graphical display of process curves.

Data Logging and Traceability: - Records process data for quality control and traceability.
Energy Efficiency Optimization: - Manages IR heater output to reduce energy usage. - Often includes features for auto shut-off or idle mode.

Safety Features: - Includes emergency stop, over-temperature protection, and fault detection systems. 8. Connectivity: - Modern controllers may support Ethernet, Modbus, or other industrial communication protocols for integration into factory automation systems.

Using A Controller For IR Dyeing Machine provides several benefits, especially in textile manufacturing where precision and efficiency are critical. Here are the key advantages:

Improved Dyeing Accuracy and Consistency

- Maintains precise temperature control and timing, ensuring uniform dye uptake across the fabric. - Reduces color variation between batches.

Enhanced Energy Efficiency- Infrared heating is more energy-efficient than traditional heating methods.- The controller optimizes energy use by adjusting the IR output based on process needs, reducing overall energy consumption.

Time Savings- Faster heating and cooling cycles due to infrared technology.- Automated processes reduce manual intervention and cycle times. 4. Better Process Control- Programmable dyeing cycles and precise control over each stage (heating, dyeing, rinsing, cooling).- Real-time monitoring and adjustments improve reliability.

Reduced Water and Chemical Usage- More efficient dye penetration and fixation mean less water and fewer chemicals are needed for reprocessing or corrections.6. Lower Operational Costs

- Energy savings, reduced rework, and lower labor input contribute to cost efficiency. - Minimizes fabric damage, reducing material waste.

Enhanced Safety Built-in alarms, emergency shut-off and automatic fault detection enhance operational safety.8. Data Logging and Traceability- Ability to record and review dyeing process data helps in quality control and troubleshooting.- Facilitates compliance with industry standards and audits.

User-Friendly Operation- Modern touchscreen interfaces make it easier for operators to manage and monitor processes.- Multilingual support and visual feedback enhance usability.

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Rainin Digital Pipette

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Rainin Digital Pipette

Digital Pipette

Rainin Digital Pipette E4-XLS Electronic Pipette, The Rainin Digital Pipette is a high-precision liquid handling instrument used in laboratories for accurate and reproducible measurement and transfer of small liquid volumes. Manufactured by Rainin Instruments (a Mettler Toledo company), these pipettes are known for their ergonomic design, reliability, and advanced digital controls. Features of Rainin Digital Pipette:

Digital Volume Setting

- Allows for precise and repeatable volume adjustments via a digital display or dial. - Reduces user error compared to manual pipettes.

High Accuracy and Precision

- Offers minimal variability in volume delivery, making it ideal for sensitive assays and experiments.

Ergonomic Design

- Lightweight and comfortable to use over long periods, reducing hand strain (good for repetitive tasks). - Often features a finger hook and low pipetting force.

Easy Calibration and Maintenance

- Includes software or manual options for calibration. - Designed for easy disassembly and cleaning.

Durable and Chemically Resistant - Built with high-quality materials that resist damage from chemicals and frequent use.
Models and Volume Ranges - Available in single-channel and multi-channel versions.

Covers a wide volume range from 0.1 µL to 10 mL depending on the model.

LTS (LiteTouch System) - Many Rainin pipettes use the LTS tip system which reduces tip ejection force and ensures a consistent seal.
Compliance and Traceability - Some digital models offer data storage or integration with lab information systems for traceability.

Applications - Molecular biology - Microbiology - Clinical diagnostics - Pharmaceutical and chemical research Benefits of Rainin Digital Pipette:

High Accuracy and Precision - Ensures reliable and reproducible results, essential for sensitive experiments.
Digital Volume Control - Reduces human error with easy and precise volume setting via digital interface.

Ergonomic Design- Minimizes hand strain and fatigue during prolonged use; ideal for repetitive pipetting tasks.
LiteTouch System (LTS) - Eases tip attachment and ejection, reducing risk of RSI (Repetitive Strain Injury) and improving comfort.

Versatile Volume Range - Available in multiple models to handle volumes from microliters to milliliters.
Durable and Reliable - Built with high-quality materials for long life and resistance to chemicals and frequent use.

Easy Maintenance and Calibration - Simplified calibration and cleaning ensure long-term performance and compliance.
Data Integrity and Traceability -Some models store data, supporting audit trails and regulatory compliance.
Enhanced Productivity - Quick setup, easy operation, and consistent performance speed up lab workflows.

Features of Rainin Digital Pipette:

Digital Volume Adjustment - Precise and easy-to-read digital display for accurate volume setting.
High Precision and Accuracy- Delivers consistent results, meeting ISO and GLP/GMP standards.
Ergonomic Design- Lightweight, balanced with low plunger and tip ejection force to reduce fatigue.

LiteTouch Tip Ejection System (LTS) - Reduces tip attachment/ejection force, improving comfort and consistency.
Durable Construction - Built with high-quality, chemically resistant materials for long-term use.
Wide Volume Range - Available in multiple models from 0.1 µL to 10 mL.
Single-Channel and Multi-Channel Options - Suitable for various applications including high-throughput assays.
Autoclavable Components- Some parts can be autoclaved for sterilization and contamination control.

Easy Calibration and Maintenance - User-friendly calibration settings with accessible parts for cleaning.
Optional Electronic Models - Some versions include programmable features, multiple modes (e.g., reverse pipetting), and memory storage.

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Digital precision balance

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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

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.
Digital Display: - Large, backlit LCD or LED display for easy reading. - Some models include touch screen interfaces.
Tarring Function: - Allows you to subtract the weight of a container or packaging to get the net weight.
Calibration: - Internal or external calibration to maintain accuracy over time. - Some advanced models have auto-calibration features.
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.

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.

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.
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.
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.
Portability and Space Efficiency- Compact design fits easily in most laboratory setups.- Lightweight models are easy to move and store.
Enhanced Safety and Reliability- Stable platform and draft shields reduce environmental interference.- Built-in calibration ensures ongoing accuracy.

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Hydraulic GSM Cutter

Lab Equipment & Instrument, Physical Testing & Fabric Testing

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Hydraulic GSM Cutter

A Hydraulic GSM Cutter is a precision instrument used to cut circular fabric samples for GSM (Grams per Square Meter) testing. It uses hydraulic pressure to ensure clean, uniform cuts through multiple fabric layers, making it ideal for high-throughput or thicker materials. Purpose of Hydraulic GSM Cutter: - To prepare accurate circular samples (usually 100 cm² area) for determining fabric weight in GSM. - Used widely in textile testing labs for quality control and consistency. Working Principle of Hydraulic GSM Cutter: - Fabric is placed on a cutting pad. - The cutter, equipped with a sharp circular blade, is hydraulically pressed down on the fabric. - The cut sample is then weighed to calculate GSM using a formula or GSM scale. Applications of Hydraulic GSM Cutter: - Suitable for woven, knitted, and nonwoven fabrics. - Used in textile mills, labs, and R&D centers. Benefits of Hydraulic GSM Cutter:

High Cutting Precision - Ensures consistent and accurate fabric sample size for reliable GSM results.
Effortless Operation- Hydraulic action reduces manual effort and operator fatigue.
Ideal for Thick or Multi-Layer Fabrics - Cuts through dense or multiple fabric layers cleanly.

Time-Saving - Speeds up the sample preparation process, especially for high-volume testing.
Improves Test Accuracy - Uniform samples help eliminate errors in GSM calculation.
Durable and Long-Lasting - Robust construction ensures stability and extended service life.

Safety Enhancement - Reduces risk of injury compared to manual rotary cutters.
Consistent Pressure Application - Hydraulic mechanism maintains steady force for each cut.

Features of Hydraulic GSM Cutter:

Hydraulic Press Mechanism - Applies consistent and strong pressure for clean, even cuts.
Standard Cutting Die (100 cm²) - Produces fabric samples suitable for GSM testing with standard area.
Heavy-Duty Construction - Built with robust metal frame for long-term lab or industrial use.

Sharp Stainless Steel Blades - Durable and replaceable blades ensure smooth, precise cuts.
Cutting Pad Included - Comes with a rubber or nylon base to protect blades and ensure clean edges.
Simple Lever or Button Operation - Easy to use with minimal training required.
Non-slip Base - Provides stability during operation for safe, accurate cutting.
Supports Various Fabric Types

- Suitable for woven, knitted, nonwoven, technical textiles, and coated fabrics. How to Use Hydraulic GSM Cutter:

Place the Cutting Pad - Lay the rubber or nylon cutting pad on a flat surface.
Position the Fabric - Place the fabric sample flat and smooth on the cutting pad.
Align the Cutter - Position the GSM cutter die over the desired area of the fabric.
Activate Hydraulic Press - Pull the lever or press the button to apply hydraulic pressure and cut the sample.

Remove the Sample - Lift the cutter and carefully take out the circular fabric piece (usually 100 cm²).
Weigh the Sample - Place the cut sample on a precision balance or GSM scale to determine weight.
Calculate GSM - Multiply the sample weight (in grams) by 100 to get GSM.

GSM Formula (Grams per Square Meter): GSM is used to measure the weight of fabric and indicates its thickness and quality. Formula: GSM = (Sample Weight in grams × 10000) / Sample Area in cm² For standard cutters that cut 100 cm² samples: GSM = Sample Weight (in grams) × 100 Example: - If a 100 cm² fabric sample weighs 1.5 grams: GSM = 1.5 × 100 = 150 GSM

Hydraulic GSM Cutter

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Pantone book

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Pantone Book

Formula Guide (Solid Coated & Uncoated) – For spot color printing.
Color Bridge – Shows Pantone spot colors alongside CMYK equivalents.
Pantone Fashion, Home + Interiors (FHI) – For textiles, soft goods, and home decor.
Pantone CMYK and Pastels & Neons Guides – For process printing and special effect colors.

Formula Guide (Solid Coated & Uncoated)

- Features over 2,390 spot colors with corresponding ink formulations. - Essential for branding, packaging, and print design. - Provides accurate color matching for solid colors.

Color Bridge Guide (Coated & Uncoated)

CMYK Guide (Coated & Uncoated)

- Contains a comprehensive range of CMYK colors. - Useful for four-color process printing without spot colors. - Helps in selecting colors achievable through standard CMYK printing.

Pastels & Neons Guide

- Offers a collection of soft pastel and vibrant neon colors. - Suitable for creative projects in fashion, print, and packaging. - Provides unique color options for special design applications.

Metallics Guide

FHI Color Guide (TPG – Paper)

- Contains a wide range of colors for non-fabric materials. - Used in product design, cosmetics, and interiors. - Provides color inspiration for various applications.

FHI Cotton Passport & Cotton Planner (TCX – Textile)

- Offers colors on cotton fabric swatches. - Essential for textile and apparel design. - Ensures accurate color communication in fabric production.

FHI Polyester Swatch Book

- Includes colors on polyester fabric. - Useful for sportswear, footwear, and synthetic textiles. - Provides color options specific to polyester materials. Pantone Specialty Guides

Pantone SkinTone Guide

- Features a range of skin tone colors. - Used in cosmetics, healthcare, and product development. - Aids in creating products that match diverse skin tones.

Pantone Plastic Standard Chips

Pantone Book

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Digital hot plate-magnetic stirrer