I want to measure rheological properties

The measurement of rheological properties can help to develop a better product, predict its end use performance with customers and predict the physical properties of a product during and after processing.

Rheology is defined as the flow of fluids and deformation of solids under stress and strain. Rheometers are the instruments used to measure a material’s rheological properties. There are many types of rheometers that are available with the most versatile being controlled stress and/or strain rheometers and capillary rheometers.

Whether your objective is to simply measure viscosity as a function of shear rate to determine non-Newtonian flow behavior, or whether you want to measure complex rheological properties such as viscoelasticity (G’, G”) as a function of frequency (time) or temperature, Bohlin rheometers are in use around the world to help apply rheology solutions to a wide variety of industries.

I want to study the rheology of:

	Rheology of suspensions, dispersions or emulsions The rheology of suspensions, colloidal dispersions, and emulsions is critical to product performance and process efficiency.
	Rheology of semi-solid materials such as gels, pastes, creams and ointments The rheology of semi-solid materials is important in many industries including pharmaceutical, foods, cosmetics, and consumer products.
	Rheology of polymer melts The rheology of polymers and plastics are critical for determining molecular architecture, processing behavior, and end product performance.
	Rheology of asphalts  The rheology of asphalt binders are key to understanding and predicting pavement performance over a wide range of climatic, environmental, traffic, and loading conditions.