CATEGORIES

    Standard Liquid ViscoMeter

    Overview Products Knowledge Standards Terms
    The standard liquid viscometer calculates viscosity by measuring the flow time of a fluid in a capillary tube. It is used to calibrate other viscometers and ensure measurement consistency in industries such as coatings and inks.
    Selection
    When selecting, consider the compatibility of the fluid viscosity range with the instrument, confirm that the capillary inner diameter and measurement temperature comply with standard methods, check the automatic timing function, and pay attention to the temperature control accuracy of the constant temperature bath.
    Type
    Viscosity Range
    Sample Type
    Functions
    Precision
    Repeatability
    Sample Volume
    Max Speed
    Speed Control
    Temp Range
    Display

    Terms

    ISO viscosity cup
    Ford Viscosity Cup
    Cone and Plate Viscometer
    Zahn viscosity cup
    Ford viscosity cup No. 4
    Ford Viscosity Cup
    Rotational Viscometer
    Ubbelohde viscometer
    Stomer viscometer

    Standards

    Active GB/T 5561-2012
    Surface active agents - Determination of viscosity and flow properties using a rotational viscometer
    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 1632.5-2008
    Plastics - Determination of the viscosity of polymers in dilute solution using capillary viscometers - Part 5 : Thermoplastic polyester(TP) homopolymers and copolymers
    Active GB/T 5516-2011
    Inspection of grain and oils - Determination of viscosity of grain - Capillary viscometer method
    Active GB/T 15357-2014
    Surface active agents and detergents―Determination of viscosity and flow properties of liquid products using a rotational viscometer
    Active GB/T 22770-2008
    Graphic technology - Determination of rheological properties of paste inks and vehicles by the falling rod viscometer

    Instruments

    FANGRUI 380cp viscosity standard solution, silicone oil type viscosity standard solution Viscometer calibrated
    FANGRUI 380cp viscosity standard solution, silicone oil type viscosity standard solution Viscometer calibrated

    Silicone oil standard solution, calibrated viscosity 380cp, capacity 400ml, suitable for Viscometer calibrating.

    $ 185.00
    FANGRUI 5.7cp Viscosity Standard Liquid Viscometer calibrated liquid 5.7cp Viscosity value 400ml Capacity
    FANGRUI 5.7cp Viscosity Standard Liquid Viscometer calibrated liquid 5.7cp Viscosity value 400ml Capacity

    Provides accurate viscosity values of 5.7cp, 400ml per bottle for Viscometer calibrated measurement Stability and Reliability.

    $ 185.00
    FANGRUI 11000cp viscosity standard solution, silicone oil type viscosity standard solution 11000cp viscosity value
    FANGRUI 11000cp viscosity standard solution, silicone oil type viscosity standard solution 11000cp viscosity value

    Silicone oil standard liquid viscosity value 11000cp, capacity 400ml, specially designed for Viscometer calibrated, providing stable and reliable viscosity reference standards.

    $ 204.00
    HANNA HI7039L conductivity calibrated liquid 5000 μ S/cm standard liquid
    HANNA HI7039L conductivity calibrated liquid 5000 μ S/cm standard liquid

    Conductivity Detector with 5000 μS/cm standard value and 500ml capacity ensures calibrating accuracy and Stability.

    $ 127.00
    BANTE ION-Br standard liquid, ion standard liquid Bromine ion 1000ppm
    BANTE ION-Br standard liquid, ion standard liquid Bromine ion 1000ppm

    Universal ion standard solution concentration 1000ppm, suitable for daily ion calibrating, PTFE bottle Encasement, capacity 480mL, to ensure calibrating accuracy and Stability.

    $ 135.00
    NIRUN Microprinter (for Viscometer) Microprinter for Viscometer real-time printing
    NIRUN Microprinter (for Viscometer) Microprinter for Viscometer real-time printing

    Adapt to a variety of Viscometer use, suitable for factory field applications, real-time printing measurement results, no need to hand copy, easy operation, can save labor time.

    $ 183.00
    Fungilab CV003-105 Capillary Viscometer Ubbelohde DIN size II 20-100cSt
    Fungilab CV003-105 Capillary Viscometer Ubbelohde DIN size II 20-100cSt

    Ubbelohde DIN standard design, viscosity measurement range of 20-100cSt, based on capillary tubing flow principle, High Accuracy viscosity measurement by comparing standard liquid and sample outflow time, suitable for a variety of liquid analysis.

    $ 461.00
    YONGLIDA QND-4A Viscometer Bakelite Cup coated with 4 Viscometer Benchtop Bakelite material GB/T1723 standard
    YONGLIDA QND-4A Viscometer Bakelite Cup coated with 4 Viscometer Benchtop Bakelite material GB/T1723 standard

    Bakelite material is durable, the diaMeter of the flow hole is 4mm, the capacity is 100ml, and the outflow time is 0~ 150s. It is suitable for the determination of the viscosity of paints Coatings and meets the GB/T1723 standard.

    $ 109.00
    JINGKELIAN QND-4D 4 Viscometer Portable Viscometer Stainless Steel Material GB1723 Standard
    JINGKELIAN QND-4D 4 Viscometer Portable Viscometer Stainless Steel Material GB1723 Standard

    Stainless steel material design, flow hole diaMeter 4mm, capacity 100ml, Portable structure with handle, in line with the national standard GB1723, suitable for workshop control test.

    $ 133.00
    Fungilab CV006-007 Capillary Viscometer U-Tube Reverse Flow BS/IP/RF size 7 Viscosity range 600~ 3000cSt
    Fungilab CV006-007 Capillary Viscometer U-Tube Reverse Flow BS/IP/RF size 7 Viscosity range 600~ 3000cSt

    U-tube countercurrent design, according to BS/IP/RF standard, viscosity measurement range covering 600 to 3000cSt, based on the principle of capillary method to ensure that the liquid flow time in the upright tube is proportional to the kinematic viscosity.

    $ 461.00
    Fungilab CV003-107 Capillary Viscometer Ubbelohde DIN size III 200-1000cst
    Fungilab CV003-107 Capillary Viscometer Ubbelohde DIN size III 200-1000cst

    Measurement range is 200-1000cst, and the viscosity value is calculated by comparing the standard liquid with the sample outflow time. The operation is simple and accurate.

    $ 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 CV003-010 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 CV003-016 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 CV003-111 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

    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!
    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.
    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.
    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.
    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.
    Practical Guide to Selecting Rotors and Speeds for Rotational Viscometers
    A rotational viscometer measures viscosity by detecting the resistance encountered by a rotor rotating in the sample. When selecting a rotor, it is necessary to consider the estimated viscosity range of the sample, ensuring that the torque reading falls within 10% to 90% of the instrument's measurement range, while also taking into account the sample volume and rheological properties.
    High-temperature viscometer measures the flow behavior of powder coatings in the molten state.
    This article introduces the use of a high-temperature viscometer to measure the flow behavior of powder coatings in their molten state. Powder coatings need to melt and flow before curing, a process that directly affects the smoothness and performance of the coating.
    Temperature-controlled Rotational Viscometer Simulates Coating Rheology in Construction Environments
    This article introduces how to use a temperature-controlled rotational viscometer to simulate construction environments in order to study the flow characteristics of coatings. The viscosity of coatings changes under different temperatures and shear conditions, which affects their application performance.
    Comparison of Rotational Viscometer and Capillary Rheometer in Testing the Flowability of Resin Processing
    The rotational viscometer measures torque via rotor rotation, making it suitable for testing the static or low-shear fluidity of resins under low shear rates, with simple and quick operation. The capillary rheometer, on the other hand, forces samples through a capillary to simulate high-shear processing, providing flow data closer to actual production conditions, but it is more complex and time-consuming to operate.
    Rotational Viscometer Measures Viscosity and Processability of Resin Melts
    A rotational viscometer calculates viscosity by measuring the torque experienced by a rotor as it rotates in the resin melt, thereby helping to understand the material's processing properties.
    Rotational Viscometer for Measuring and Controlling the Application Viscosity of Coatings
    A rotational viscometer is a commonly used tool for controlling the viscosity of coatings during application, as it measures the torque generated by a rotor rotating in a fluid to calculate viscosity.
    Method for determining the dynamic viscosity of varnish using a falling ball viscometer
    This article introduces a method for measuring the dynamic viscosity of varnish using a falling-ball viscometer. It is based on Stokes' law, which calculates viscosity by measuring the time required for a standard small ball to fall a fixed distance in a vertical glass tube filled with varnish.
    Visual color comparison method using colorimetric tubes to determine the color phase of varnish.
    Colorimetric tube visual colorimetry is a method used to determine the color hue tendency of varnish samples by directly comparing them with a standard color scale using the human eye. During operation, samples and standard liquid columns should be prepared using colorimetric tubes of consistent specifications under standard lighting conditions, and the hue differences should be observed in parallel.
    Stormer Viscometer for Determining Krebs Viscosity of Paints
    This article introduces the method of measuring the Krebs viscosity value of colored paints using a Stormer viscometer. Viscosity is a key indicator that affects the application and storage of coatings. The Krebs unit (KU) quantifies viscosity based on the resistance encountered by a rotor as it rotates within the paint sample.