CATEGORIES

    Ubbelohde viscosity measurement apparatus

    Overview Products Knowledge Standards Terms
    The Ubbelohde viscometer calculates viscosity by measuring the flow time of fluid in a capillary tube. It is used to detect the flow characteristics of liquids such as coatings and inks, and is applied in quality control and formulation adjustments.
    Selection
    When selecting, consider the compatibility of the sample viscosity range with the instrument, the suitability of the capillary inner diameter for flow time, the temperature control precision to meet testing requirements, the corrosion resistance of materials to adapt to sample properties, and the ease of operation to match usage habits.
    Type
    Viscosity Range
    Sample Type
    Functions
    Precision
    Repeatability
    Sample Volume
    Max Speed
    Speed Control
    Temp Range
    Display

    Terms

    Viscosity flow cup
    Laboratory water bath
    Low-speed high-power mixer
    Paint viscosity cup
    Microporous oscillator
    Three-roll disperser
    Ubbelohde viscometer
    Three-Axis Dispersion Mixer
    DIN viscosity cup
    Viscosity cup

    Standards

    Active GB/T 11543-2008
    Characterization of Surfactants: Testing of Medium and High Viscosity Emulsions and Evaluation Methods for Emulsification Capacity
    Active GB/T 22235-2008
    Determination for viscosity of liquids
    Active GB/T 24853-2010
    Determination of Pasting Properties of Wheat, Rye and Their Flours and Starches Using a Rapid Visco Analyzer
    Active GB/T 5561-2012
    Surface active agents - Determination of viscosity and flow properties using a rotational viscometer
    Active GB/T 1723-1993
    Determination of viscosity of coatings
    Active GB/T 26930.11-2014
    Carbonaceous materials used in the production of aluminium―Pitch for electrodes―Part 11:Determination of dynamic viscosity
    Active GB/T 265-1988
    Petroleum products--Determination of kinematic viscosity and calculation of dynamic viscosity
    Active GB/T 11137-1989
    Black petroleum products--Determination of kinematic viscosity (reverse-flow method) and calculation of dynamic viscosity
    Active GB/T 266-1988
    Petroleum products--Determination of Engler viscosity
    Active GB/T 12005.10-1992
    Determination for molecular weight of polyacrylamide by viscometry
    Active GB/T 12004.4-2003
    Polyvinyl chloride paste--Determination of apparent viscosity by the Brookfield test method
    Active GB/T 17473.5-2008
    Test methods of pastes used for microelectronics - Determination of viscosity
    Active GB/T 14797.2-2008
    Natural rubber latex concentrate - Prevulcanized rubber latex - Determination of viscosity
    Active GB/T 10247-2008
    Methods of viscosity measurement
    Active GB/T 18856.4-2008
    Test methods for coal water mixture - Part 4: Determination of apparent viscosity

    Instruments

    Fungilab CV003-112 Capillary Viscometer Ubbelohde DIN size IIa Viscosity range 100-500cSt
    Fungilab CV003-112 Capillary Viscometer Ubbelohde DIN size IIa Viscosity range 100-500cSt

    Ubbelohde DIN standard design, viscosity measurement range of 100-500cSt, based on the principle of capillary tubing flow time proportional to viscosity, to ensure accurate determination of liquid kinematic viscosity.

    $ 461.00
    Fungilab CV003-011 Capillary Viscometer Ubbelohde ASTM size 3C Viscosity range 600-3000cSt
    Fungilab CV003-011 Capillary Viscometer Ubbelohde ASTM size 3C Viscosity range 600-3000cSt

    Ubbelohde ASTM standard design, viscosity measurement range of 600-3000cSt, based on the principle of capillary tubing flow time and viscosity proportional to achieve accurate measurement.

    $ 461.00
    Fungilab CV003-104 Capillary Viscometer Ubbelohde DIN size Ic Viscosity range 6-30cSt
    Fungilab CV003-104 Capillary Viscometer Ubbelohde DIN size Ic Viscosity range 6-30cSt

    Ubbelohde DIN standard design, viscosity measurement range of 6-30cSt, based on the principle of capillary tubing flow time is proportional to viscosity, suitable for accurate determination of a variety of liquid samples.

    $ 461.00
    Fungilab CV003-007 Capillary Viscometer Ubbelohde ASTM size 2 Viscosity range 20-100cSt
    Fungilab CV003-007 Capillary Viscometer Ubbelohde ASTM size 2 Viscosity range 20-100cSt

    Ubbelohde ASTM standard design, viscosity measurement range of 20-100cSt, based on the principle of capillary tubing can accurately determine the kinematic viscosity of liquids, suitable for a variety of fluid analysis.

    $ 461.00
    Fungilab CV003-101 Capillary Viscometer Ubbelohde DIN size 0 Viscosity range 0.35~ 1cSt
    Fungilab CV003-101 Capillary Viscometer Ubbelohde DIN size 0 Viscosity range 0.35~ 1cSt

    Ubbelohde DIN standard design, viscosity measurement range of 0.35~ 1cSt, based on the principle of capillary tubing flow time proportional to viscosity, to ensure High Accuracy and Repeatability.

    $ 461.00
    Fungilab CV003-009 Capillary Viscometer Ubbelohde ASTM size 2B Viscosity range 100-500cSt
    Fungilab CV003-009 Capillary Viscometer Ubbelohde ASTM size 2B Viscosity range 100-500cSt

    Ubbelohde ASTM standard design, viscosity measurement range of 100-500cSt, based on the liquid flow time in capillary tubing is proportional to the viscosity principle, to ensure accurate determination.

    $ 461.00
    Fungilab CV003-003 Capillary Viscometer Ubbelohde ASTM size 0B Viscosity range 1~ 5cSt
    Fungilab CV003-003 Capillary Viscometer Ubbelohde ASTM size 0B Viscosity range 1~ 5cSt

    Ubbelohde ASTM standard design, viscosity measurement range of 1~ 5cSt, based on the principle of capillary tubing liquid flow time is proportional to viscosity, suitable for accurate determination of a variety of liquid samples.

    $ 461.00
    Fungilab CV003-004 Capillary Viscometer Ubbelohde ASTM size 1 2~ 10cSt
    Fungilab CV003-004 Capillary Viscometer Ubbelohde ASTM size 1 2~ 10cSt

    Ubbelohde ASTM standard design, viscosity measurement range of 2~ 10cSt, based on the principle of capillary tubing flow time proportional to viscosity, to ensure accurate and reliable measurement.

    $ 461.00
    Fungilab CV003-006 Capillary Viscometer Ubbelohde ASTM 10-50cSt
    Fungilab CV003-006 Capillary Viscometer Ubbelohde ASTM 10-50cSt

    Ubbelohde ASTM standard design, viscosity measurement range of 10-50cSt, based on capillary tubing flow time and viscosity proportional principle, to ensure measurement accuracy and Repeatability.

    $ 461.00
    Fungilab CV003-103 Capillary Viscometer Ubbelohde DIN size I 2~ 10cst
    Fungilab CV003-103 Capillary Viscometer Ubbelohde DIN size I 2~ 10cst

    Using Ubbelohde DIN size I specification, viscosity measurement range of 2~ 10cst, based on the principle of capillary tubing flow time and viscosity proportional ratio, accurate measurement is achieved.

    $ 461.00
    Fungilab CV003-111 Capillary Viscometer Ubbelohde DIN size Ia 10~ 50cSt
    Fungilab CV003-111 Capillary Viscometer Ubbelohde DIN size Ia 10~ 50cSt

    Ubbelohde DIN standard design, viscosity measurement range of 10~ 50cSt, based on capillary tubing flow time and viscosity proportional principle, to ensure accurate determination of liquid kinematic viscosity.

    $ 461.00
    Fungilab CV003-016 Capillary Viscometer Ubbelohde ASTM size 5 20000-100000cSt
    Fungilab CV003-016 Capillary Viscometer Ubbelohde ASTM size 5 20000-100000cSt

    Ubbelohde ASTM standard design, viscosity measurement range of 20000-100000cSt, based on the principle of liquid flow time in capillary tubing is proportional to viscosity, to ensure accurate determination of high viscosity liquids.

    $ 461.00
    Fungilab CV003-010 Capillary Viscometer Ubbelohde ASTM size 3 200-1000cSt
    Fungilab CV003-010 Capillary Viscometer Ubbelohde ASTM size 3 200-1000cSt

    Ubbelohde ASTM standard design, viscosity measurement range of 200-1000cSt, based on capillary tubing flow time and viscosity proportional principle, suitable for a variety of liquid sample analysis.

    $ 461.00
    Fungilab CV003-102 Capillary Viscometer Ubbelohde DIN size 0a 1~ 5cSt
    Fungilab CV003-102 Capillary Viscometer Ubbelohde DIN size 0a 1~ 5cSt

    Ubbelohde DIN standard design, viscosity measurement range of 1~ 5cSt, based on capillary tubing flow principle, to ensure High Accuracy and Repeatability, suitable for a variety of liquid analysis.

    $ 461.00
    Fungilab CV003-114 Capillary Viscometer Ubbelohde DIN IVa 10000-50000cSt
    Fungilab CV003-114 Capillary Viscometer Ubbelohde DIN IVa 10000-50000cSt

    Measurement range from 10000 to 50000cSt is designed using Ubbelohde DIN standard, and accurate measurement is achieved based on the principle of capillary tubing flow time and viscosity.

    $ 461.00

    Articles

    How to choose the right rotational viscometer?
    This article introduces how to select an appropriate rotational viscometer, so you won't be blind when choosing a viscosity measurement instrument!
    How to choose a laboratory coater? Which one should you buy: wire bar, scraper, or slot die?
    This article introduces three methods for selecting laboratory coating machines: wire bar coating is suitable for low-viscosity coatings, offering low cost and simple operation; blade coating is ideal for medium-to-high viscosity slurries or those containing particles, with a wide range of film thickness control; slot-die coating provides the highest precision and is suitable for high-end applications such as electronic films.
    Laboratory blade coating machine is used for analyzing the film-forming characteristics of high-viscosity slurries.
    This article analyzes the characteristics of a laboratory doctor blade coater for forming films from high-viscosity slurries. It focuses on the impact of slurry rheological properties on film formation quality.
    Effect of Different Coating Speeds on Film Thickness Consistency in an Adjustable Film Applicator
    This paper studies the influence of coating speed of an adjustable film applicator on film thickness uniformity. In the experiment, the coating blade gap was fixed at 100 μm, and a resin solution with a viscosity of 200 mPa·s was used to prepare films at five speeds ranging from 10 to 80 mm/s, followed by thickness measurements.
    Stormer viscometer controls the in-can viscosity of latex paint.
    This paper introduces the application of the Stormer viscometer in controlling the paint can viscosity of latex paint. Paint can viscosity affects application performance and user experience, with either too high or too low values causing issues.
    Rotation rheometer evaluates the atomization performance of water-based paint spraying.
    This article introduces how to evaluate the atomization effect of water-based paint spraying using a rotational rheometer. It first explains the two stages of atomization, as well as the importance of rheological parameters such as shear viscosity, storage modulus, loss modulus, and complex viscosity.
    Application of Laboratory Scraper Heating Coating Machine in Hot Melt Adhesive Coating
    This article introduces the application of a laboratory blade heating coating machine in hot melt adhesive coating. It first explains the coating process and principles, including three stages—heat conduction, fluid shear, and surface wetting—as well as the influence of temperature on adhesive viscosity.
    Application of High-Temperature Viscometer in Testing the Melt Viscosity Characteristics of Hot Melt Ink
    This article introduces a method for testing the melt viscosity of hot-melt ink using a high-temperature viscometer. The test employs a rotational viscometer to measure the viscosity of three ink samples at different temperatures.
    Application of Cone-and-Plate Viscometer in Determining the Rheological Curve of Non-Newtonian Fluids in UV Inks
    This article introduces how a cone-plate viscometer measures the rheological curve of UV ink. UV ink is a non-Newtonian fluid whose viscosity changes with shear rate.
    Lab Mixer Selection - Viscosity Determines Torque
    This article mainly discusses how to select a laboratory mixer based on the viscosity of the material. The higher the viscosity, the greater the torque required. Low-viscosity liquids are suitable for high speed and low torque, while high-viscosity materials require low speed and high torque.
    The impact of temperature uniformity in laboratory water baths on viscosity measurement
    This article discusses the importance of temperature uniformity in laboratory water baths for viscosity measurement. Viscosity is highly sensitive to temperature variations, and uneven temperature distribution within the water bath can lead to deviations in measurement results.
    Guide to Selecting a Laboratory Rotational Viscometer for Coatings Development
    This article introduces how to select a laboratory rotational viscometer in coatings research and development. It first explains the principle of rotational viscometers measuring viscosity based on shear resistance, and then points out that key parameters to consider during selection include measurement range, shear rate, temperature control, and rotor configuration.
    The Zahn cup is used for the daily inspection of the viscosity of electrophoretic paint bath solutions.
    This article introduces the application of the Zahn cup in daily inspections of the viscosity of electrophoretic paint bath solutions. The viscosity of electrophoretic paint affects coating quality, making daily inspections crucial. The Zahn cup is simple to operate, cost-effective, and suitable for rapid on-site measurements.
    High-temperature viscometer evaluates the flow characteristics of ceramic coatings before sintering.
    This article introduces how to use a high-temperature viscometer to evaluate the flow characteristics of ceramic coatings before sintering. During measurement, the instrument detects changes in the viscosity of the coating sample under simulated sintering temperature conditions using rotational or oscillatory principles.
    Handheld viscosity cups are used for rapid assessment of paint viscosity at construction sites.
    A handheld viscosity cup is a portable tool used to quickly assess the viscosity of coatings at construction sites. It operates based on the flow-out time method, calculating viscosity by measuring the time it takes for the coating to flow out of the cup's orifice. It is suitable for Newtonian or approximately Newtonian fluids.