Viscometer

Our product range includes a wide range of aidv-60 digital viscometer, lvdv2t brookfield viscometer, dial reading rotary viscometer, lmdv-200 digital viscometer, viscometer lamy rheology and digital rheometer cone.

AIDV-60 Digital Viscometer

₹ 72000/Piece Get Latest Price

Product Brochure
MaterialStainless Steel
Usage/ApplicationLaboratory
Number Of Cups1
DisplayDigital

Minimum order quantity: 01 Piece

The LMDV-60 Digital Viscometer is a specific model of viscometer designed for measuring viscosity in fluids. While specific details about the LMDV-60 are not readily available in my current database, I can provide a general overview of what you might typically expect from a digital viscometer like the LMDV-60:

Features and Components:
  1. Digital Display: Equipped with a digital display screen that shows viscosity readings in units such as centipoise (cP) or millipascal seconds (mPa·s).

  2. Rotational Measurement: Most digital viscometers operate based on rotational principles, where a spindle rotates at a controlled speed in the fluid. The torque required to rotate the spindle is measured, and viscosity is calculated based on this torque.

  3. Measurement Range: Offers a range of viscosity measurements suitable for various fluids, from low-viscosity liquids (like water and solvents) to higher viscosity substances (such as oils and pastes).

  4. Spindle System: Typically includes interchangeable spindles of different sizes and geometries to accommodate different viscosity ranges and ensure accurate measurements across various sample types.

  5. User-Friendly Interface: Designed with intuitive controls and menu navigation for easy operation and data collection. Some models may feature touchscreen interfaces for enhanced user interaction.

  6. Temperature Control: Advanced models may have temperature control capabilities to measure viscosity at different temperatures, which is crucial as viscosity often varies with temperature changes.

  7. Data Storage and Connectivity: Allows for data storage and retrieval, often with options for connecting to a computer or printer for data transfer and documentation.

  8. Calibration: Requires periodic calibration to maintain accuracy. Calibration standards and procedures are typically provided by the manufacturer.

Applications:
  • Quality Control: Used in industries such as paints and coatings, pharmaceuticals, food and beverages, and cosmetics for quality assurance and consistency in product formulations.

  • Research and Development: Essential tool for studying the flow properties and rheological behavior of fluids, optimizing formulations, and conducting viscosity profiling in research laboratories.

  • Process Control: Used in manufacturing processes to monitor viscosity changes during production and ensure product quality and performance.

  • Educational Purposes: Found in academic institutions for teaching viscosity principles, measurement techniques, and practical applications in fluid dynamics and materials science.

Benefits:
  • Accurate Measurements: Provides precise viscosity measurements, critical for maintaining product consistency and meeting quality standards.

  • Versatility: Suitable for a wide range of applications due to interchangeable spindles and adjustable measurement settings.

  • User-Friendly: Designed for ease of use with intuitive controls and digital interface, making it accessible for both experienced operators and new users.

  • Data Management: Allows for easy storage, retrieval, and analysis of viscosity data, facilitating documentation and traceability of measurements.

Considerations:
  • Sample Preparation: Proper sample handling and preparation are crucial to ensure accurate viscosity measurements. Samples should be properly mixed and degassed to eliminate air bubbles.

  • Maintenance: Regular cleaning and maintenance of the viscometer and spindles are necessary to prevent contamination and ensure accurate readings.

LVDV2T Brookfield Viscometer

  • Foil Print

₹ 350000/Piece Get Latest Price

MaterialStainless Steel
Usage/ApplicationLaboratory
Number Of Cups1
BrandBrookfield
Country of OriginMade in India

The LVDV2T EZ Brookfield Viscometer is a specific model of viscometer manufactured by Brookfield Engineering Laboratories. Here’s an overview of its features, applications, and functionality:

Features and Components:
  1. Viscometer Type: The LVDV2T EZ is a rotational viscometer, specifically falling under the category of laboratory viscometers.

  2. Rotational Measurement: Operates based on the principle of measuring the torque required to rotate a spindle immersed in fluid. The viscosity of the fluid is determined by the resistance encountered by the spindle as it rotates.

  3. Digital Display: Equipped with a digital display screen that shows viscosity readings in various units, such as centipoise (cP) or millipascal seconds (mPa·s), depending on user settings.

  4. User-Friendly Interface: Designed with intuitive controls and menu navigation for easy operation and data collection.

  5. Measurement Range: Offers a wide range of viscosity measurements, suitable for fluids ranging from low-viscosity liquids (like solvents and oils) to semi-solid materials (such as gels and pastes).

  6. Spindle Options: Includes interchangeable spindles of different sizes and geometries to accommodate a variety of sample viscosities and ensure accurate measurements across different viscosity ranges.

  7. Temperature Control: Some models may feature temperature control capabilities to measure viscosity at different temperatures, considering the viscosity-temperature relationship of fluids.

  8. Calibration: Requires periodic calibration to ensure accuracy and reliability of viscosity measurements. Calibration standards and procedures are provided by Brookfield Engineering.

Applications:
  • Quality Control: Used in industries such as cosmetics, pharmaceuticals, food and beverages, and paints and coatings for quality assurance and consistency in product formulations.

  • Research and Development: Essential tool for studying rheological properties of fluids, optimizing formulations, and conducting viscosity profiling in research laboratories.

  • Process Optimization: Used in manufacturing processes to monitor viscosity changes during production and ensure product quality and performance.

  • Educational Purposes: Found in academic institutions for teaching viscosity principles, measurement techniques, and practical applications in fluid dynamics and materials science.

Benefits:
  • Accurate and Reproducible Results: Provides precise viscosity measurements, crucial for maintaining product consistency and meeting quality standards.

  • Versatility: Suitable for a wide range of applications due to interchangeable spindles and adjustable measurement settings.

  • User-Friendly: Designed for ease of use with intuitive controls and a digital interface, making it accessible for both experienced operators and new users.

  • Data Management: Allows for data storage, retrieval, and analysis, facilitating documentation and traceability of viscosity measurements.

Considerations:
  • Sample Preparation: Proper sample handling and preparation are crucial to ensure accurate viscosity measurements. Samples should be properly mixed and degassed to eliminate air bubbles.

  • Maintenance: Regular cleaning and maintenance of the viscometer and spindles are necessary to prevent contamination and ensure accurate readings.

  • Operator Training: Proper training in viscometer operation, calibration, and maintenance is essential to maximize instrument performance and longevity.

Dial Reading Rotary Viscometer

    ₹ 149000/Piece Get Latest Price

    MaterialStainless Steel
    Usage/ApplicationLaboratory

    A Dial Reading Rotary Viscometer is a type of viscometer that measures the viscosity of fluids based on the resistance encountered by a rotating spindle or bob immersed in the fluid. Unlike digital viscometers that display viscosity readings digitally, dial reading viscometers use a mechanical dial gauge to indicate viscosity values.

    Here are the key features and characteristics of a Dial Reading Rotary Viscometer:

    1. Mechanical Dial Gauge: The main distinguishing feature of a dial reading viscometer is its analog dial gauge. As the spindle rotates in the fluid, it encounters resistance proportional to the viscosity of the fluid. This resistance is transmitted to a dial gauge, which displays the viscosity reading in appropriate units (such as centipoise, millipascal-seconds, etc.).

    2. Rotational Measurement Principle: Similar to other rotary viscometers, the dial reading viscometer operates on the principle that the torque or resistance experienced by the rotating spindle is directly related to the viscosity of the fluid. The dial gauge translates this torque into a viscosity measurement.

    3. Simple Operation: Dial reading viscometers are typically straightforward to operate, with controls for spindle rotation speed and fluid temperature (if applicable). Users can directly read the viscosity value from the dial gauge without the need for additional digital interpretation.

    4. Applications: These viscometers find application in various industries where viscosity measurements are crucial for quality control and process optimization. Common applications include paints, coatings, adhesives, food processing, pharmaceuticals, and more.

    5. Accuracy and Calibration: The accuracy of dial reading viscometers can vary depending on the model and calibration procedures. Regular calibration and maintenance are essential to ensure accurate viscosity measurements over time.

    6. Cost-Effectiveness: Dial reading viscometers are often more affordable than their digital counterparts, making them a practical choice for smaller laboratories or applications where digital precision is not required.

    7. Suitability: They are suitable for measuring a wide range of viscosities, though they may be more commonly used for fluids with moderate to high viscosity compared to low-viscosity liquids.

    In summary, dial reading rotary viscometers provide a reliable and cost-effective solution for viscosity measurement in various industries. While they may lack some of the advanced features of digital viscometers, they remain a valuable tool for quality assurance and viscosity control in production environments.

    LMDV-200 Digital Viscometer

      ₹ 95000/Piece Get Latest Price

      MaterialStainless Steel
      Usage/ApplicationLaboratory
      Number Of Cups1

      The LMDV-200 Digital Viscometer is a specific model designed for measuring viscosity in fluids. While detailed specifications can vary by manufacturer, here's a general overview of what you might expect from the LMDV-200 or similar digital viscometers:

      Features and Components:
      1. Digital Display: Equipped with a digital display screen that shows viscosity readings in units such as centipoise (cP) or millipascal seconds (mPa·s).

      2. Rotational Measurement: Operates based on rotational principles, where a spindle rotates at a controlled speed in the fluid. The torque required to rotate the spindle is measured, and viscosity is calculated based on this torque.

      3. Measurement Range: Offers a range of viscosity measurements suitable for various fluids, from low-viscosity liquids (like water and solvents) to higher viscosity substances (such as oils and pastes).

      4. Spindle System: Typically includes interchangeable spindles of different sizes and geometries to accommodate different viscosity ranges and ensure accurate measurements across various sample types.

      5. User-Friendly Interface: Designed with intuitive controls and menu navigation for easy operation and data collection. Some models may feature touchscreen interfaces for enhanced user interaction.

      6. Temperature Control: Advanced models may have temperature control capabilities to measure viscosity at different temperatures, which is crucial as viscosity often varies with temperature changes.

      7. Data Storage and Connectivity: Allows for data storage and retrieval, often with options for connecting to a computer or printer for data transfer and documentation.

      8. Calibration: Requires periodic calibration to maintain accuracy. Calibration standards and procedures are typically provided by the manufacturer.

      Applications:
      • Quality Control: Used in industries such as paints and coatings, pharmaceuticals, food and beverages, and cosmetics for quality assurance and consistency in product formulations.

      • Research and Development: Essential tool for studying the flow properties and rheological behavior of fluids, optimizing formulations, and conducting viscosity profiling in research laboratories.

      • Process Control: Used in manufacturing processes to monitor viscosity changes during production and ensure product quality and performance.

      • Educational Purposes: Found in academic institutions for teaching viscosity principles, measurement techniques, and practical applications in fluid dynamics and materials science.

      Benefits:
      • Accurate Measurements: Provides precise viscosity measurements, critical for maintaining product consistency and meeting quality standards.

      • Versatility: Suitable for a wide range of applications due to interchangeable spindles and adjustable measurement settings.

      • User-Friendly: Designed for ease of use with intuitive controls and digital interface, making it accessible for both experienced operators and new users.

      • Data Management: Allows for easy storage, retrieval, and analysis of viscosity data, facilitating documentation and traceability of measurements.

      Considerations:
      • Sample Preparation: Proper sample handling and preparation are crucial to ensure accurate viscosity measurements. Samples should be properly mixed and degassed to eliminate air bubbles.

      • Maintenance: Regular cleaning and maintenance of the viscometer and spindles are necessary to prevent contamination and ensure accurate readings.

      Viscometer Lamy Rheology

        ₹ 355000/Piece Get Latest Price

        MaterialStainless Steel
        Usage/ApplicationLaboratory
        Number Of Cups1
        BrandAnalysis

        The Viscometer Lamy Rheology refers to a type of viscometer produced by Lamy Rheology, a company specializing in rheological instruments and solutions. Rheology is the study of the flow and deformation of materials, particularly liquids and soft solids, under applied forces, and viscometers are instruments used to measure viscosity, which is a key parameter in rheology.

        Here are some key aspects and features of the Viscometer Lamy Rheology:

        1. Instrument Type: The Viscometer Lamy Rheology is a type of rotational viscometer. Rotational viscometers measure viscosity by rotating an immersed spindle or bob in the fluid and measuring the torque required to rotate it at a constant speed.

        2. Measurement Principle: It operates based on the principle that the torque (or resistance) experienced by the rotating spindle is directly related to the viscosity of the fluid. The viscometer provides viscosity readings based on this torque measurement.

        3. Applications: This viscometer is used in various industries and research fields where precise viscosity measurements are crucial. Common applications include quality control in manufacturing processes (such as paints, coatings, and adhesives), research in polymer science, food processing, pharmaceuticals, and cosmetics.

        4. Features: Depending on the model and specifications, features of the Viscometer Lamy Rheology may include:

          • Multiple spindle options to cover a wide range of viscosity measurements.
          • Temperature control capabilities to measure viscosity at different temperatures.
          • Digital display for easy readout of viscosity values.
          • Software integration for data collection, analysis, and reporting.
          • Calibration options to ensure accuracy and reproducibility of measurements.
        5. Advantages: These viscometers offer advantages such as high accuracy, reliability, and repeatability in viscosity measurements. They are designed to handle various types of fluids, from low-viscosity solvents to highly viscous pastes.

        6. Customization: Lamy Rheology may offer customization options to meet specific user requirements, such as special spindle designs or additional features tailored to particular applications.

        In summary, the Viscometer Lamy Rheology from Lamy Rheology is a specialized rotational viscometer used for precise viscosity measurements in a wide range of industrial and scientific applications, contributing to quality control, process optimization, and research in rheology-related fields.

        Digital Rheometer Cone

          ₹ 500000/Piece Get Latest Price

          MaterialStainless Steel
          Usage/ApplicationLaboratory
          Number Of Cups1

          A Digital Rheometer with a cone geometry is a specialized instrument used to measure the rheological properties of fluids and soft solids. Rheology is the study of how materials flow and deform under applied forces, and rheometers are instruments designed to characterize these properties.

          Here are the key features and functionalities of a Digital Rheometer with a cone geometry:

          1. Measurement Principle: The rheometer applies a controlled stress or strain to the material using a cone-shaped spindle or probe. As the cone rotates or oscillates, the rheometer measures the resulting torque and deformation response of the material. This information is used to determine parameters such as viscosity, shear stress, shear rate, and viscoelastic properties.

          2. Digital Interface: It features a digital interface that displays real-time data such as torque, shear stress, and deformation measurements. Digital rheometers offer precise control over test parameters and provide accurate and repeatable results.

          3. Cone Geometry: The cone geometry of the spindle or probe allows for controlled shearing of the material. The angle of the cone and the size of the cone tip can vary depending on the specific rheometer model and the application requirements.

          4. Temperature Control: Many digital rheometers with cone geometries are equipped with temperature control capabilities. Temperature can significantly affect the rheological behavior of materials, particularly for fluids that exhibit temperature-dependent viscosity or viscoelasticity.

          5. Software Integration: Advanced digital rheometers often come with software packages for data acquisition, analysis, and reporting. This allows researchers and engineers to analyze rheological data, generate rheological models, and visualize material behavior under different conditions.

          6. Applications: Digital rheometers with cone geometries are used in various industries such as cosmetics, pharmaceuticals, food processing, paints and coatings, and materials science. They are essential for quality control, product development, and understanding the flow and deformation properties of complex fluids and soft solids.

          7. Customization: Some digital rheometers allow customization of test parameters and spindle configurations to accommodate different sample types and viscosity ranges. This flexibility ensures that the rheometer can meet specific testing requirements.

          Overall, Digital Rheometers with cone geometries provide valuable insights into the rheological behavior of materials, offering precise measurements and detailed analysis capabilities essential for research, development, and quality assurance in various industries.

          ISO Flow Viscosity Cups

            ₹ 195000/Piece Get Latest Price

            MaterialStainless Steel
            Usage/ApplicationLaboratory
            BrandAnalysis

            ISO Flow Viscosity Cups, similar to DIN Flow Cups, are devices used to measure the viscosity of liquids, particularly in industries such as coatings, paints, inks, and varnishes. The term "ISO" refers to the International Organization for Standardization, which has established standards for these viscosity cups. Here's an overview of ISO Flow Viscosity Cups:

            1. Design: ISO Flow Viscosity Cups are typically designed with a standardized shape and size. They consist of a cup with a specific diameter and an orifice of known dimensions at the bottom. The cups may vary in design based on the ISO standard they adhere to.

            2. Measurement Principle: Similar to DIN Flow Cups, the viscosity of the fluid affects the time it takes for the fluid to flow out of the cup through the orifice. Thicker fluids (higher viscosity) flow more slowly, while thinner fluids (lower viscosity) flow more quickly.

            3. ISO Standards: ISO has established several standards related to viscosity cups, including ISO 2431 and ISO 12058. These standards specify the dimensions of the cups, the method of use, calibration procedures, and calculation methods for determining viscosity based on the flow time of the liquid.

            4. Usage: To measure viscosity using an ISO Flow Cup, the cup is filled with the test fluid, and the time taken for the fluid to completely flow out through the orifice is measured. This time measurement is then used to calculate the viscosity of the fluid using standard formulas provided in the ISO standards.

            5. Applications: ISO Flow Viscosity Cups are widely used in industries where precise control of fluid viscosity is critical for product quality and performance. They are particularly valuable in industries producing paints, coatings, inks, adhesives, and similar products where consistent viscosity is essential.

            6. Variants: ISO standards specify different types of viscosity cups, each suitable for different viscosity ranges and applications. Variants include cups with varying dimensions and orifice sizes to accommodate different viscosity levels.

            Overall, ISO Flow Viscosity Cups provide a standardized and reliable method for measuring viscosity in various industrial applications. They ensure consistency and accuracy in viscosity measurements, facilitating quality control and process optimization in manufacturing processes.

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