Last month, we hosted our back to basics series on non-Newtonian vs. Newtonian behavior.
This month, we're taking a step back and going to the fundamental coverage of the different types of viscosity. Have you ever been confused by all the different types of viscosity? Heard of the terms: Dynamic, inherent, complex………. Haven't heard of them? What are they? What do they all mean?
Please join our next back to basics webinar discussing the different types of viscosities. Learn how they are defined, why they exist, and when to use them.
Viscosity of often referred to as the thickness of a fluid. You can think of water (low viscosity) and honey (high viscosity). However, this definition can be confusing when we are looking at fluids with different densities.
At a molecular level, viscosity is a result the interaction between the different molecules in a fluid.This can be also understood as friction between the molecules in the fluid. Just like in the case of friction between moving solids, viscosity will determine the energy required to make a fluid flow.
We recommend a minimum of three different shear rates when analyzing your samples to determine whether they are Newtonian or non-Newtonian. Separately, the shear rates should have a wide range. The reason for the wide range is because many are complex. Sometimes, your sample will not show shear thinning or shear thickening behavior at low shear rates but will at high shear rates.
Overall, there is just a lot to your sample that you may not know about until you actually test it. As a result, we recommend testing as much of a range as possible to ensure full knowledge of how your sample behaves.
When it comes to your injections, the best way to design your experiments is by focusing on the injection rate that your sample will be exposed to when going from the syringe into a patient. Testing with those numbers in mind will help give you confidence and know what is the unknown.