Product category:
Viscometers and rheometers
News Release from: Hydramotion | Subject: Hydramotion Viscolite
Edited by the Laboratorytalk Editorial
Team on 16 February 2006
Techniques for measuring viscosity in
the field
Techniques for measuring the viscosity of fluid in the field have been available for many years, but despite their longevity and widespread use, many of them are awkward, time-consuming and unreliable
Newer technology is now providing technicians, researchers and operators with fast, reliable viscosity measurement that does away with the clumsy methods of the past Among the common traditional techniques are:
This article was originally published on Laboratorytalk on 4 May 2006 at 8.00am (UK)
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1: The efflux cup, where viscosity is related to the time for a known volume of fluid to drain out of an accurately-sized hole at the base of a specially-shaped container.
2: The falling ball method, where viscosity is related to the time required for a steel ball to fall a given distance through the fluid.
Clearly, this method cannot be used if the fluid is opaque.
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3: The glass tube capillary method, where viscosity is related to the time for a given volume of fluid to flow from a reservoir through a specially-shaped tube, eg the 'Ubbelohde'.
Although widely used, these time of flight methods can be seriously unreliable, especially at low viscosities, because of timing difficulties.
Accurate temperature control, essential for reliable results, is often lacking.
In their crudest forms, these methods depend very much on the skill and experience of the operator, which can make repeatability hard to achieve.
A further consideration is the practical inconvenience of having to ensure that the equipment is properly cleaned after use.
Other techniques include:.
4: The rotational method, where viscosity is related to the angular velocity and torque when the fluid is held between a rotating element and a stationary surface.
5: The tuning fork method, where viscosity is related to the damping effect of the fluid on a two-pronged vibrating element.
Both of these methods have drawbacks.
The tuning fork method is prone to errors resulting from reflection of the sound waves from nearby surfaces.
Rotational viscometers present a number of problems: (i) they must be calibrated and used in a vessel of known dimensions; (ii) they require regular recalibration; (iii) they require a range of accessories, some of which are delicate and expensive; and (iv) the seals and bearings need periodic replacing.
As a result, the maintenance costs of rotational viscometers can be relatively high.
All the difficulties highlighted above can be overcome by using a torsional resonance instrument such as the Hydramotion Viscolite.
In this type of viscometer, shear stress is imparted to the fluid by a stainless steel rod oscillating at its natural resonant frequency with a twisting movement.
The drag force on the sensor dampens the oscillation, and the resulting energy loss gives a measure of viscosity.
As no sound field is produced the Viscolite can be used in any container, regardless of size or dimensions.
The smooth monolithic sensor can be wiped clean in seconds, and with no moving parts the Viscolite is virtually maintenance free. Request a free brochure from Hydramotion ...
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