Particle analysis occurs when a person is trying to measure various materials, such as powders, droplets, emulsions, or other chemicals. Particle size analysis principle is valuable in telling people more about the particles in question, such as how they can affect people, their environment, or a combination of other particles. Sometimes these methods will be used in an analytical testing laboratory. Here are two things that should be taken into consideration when an individual is performing particle analysis.
There Are Various Methods Used in Particle Size Analysis Principle
The methods used in particle size analysis principle can vary depending on what is being measured. If a person is looking at particles that are very small, dynamic light scattering might be the best option to learn more about the particle. However, there are various options for particle size determination. For those that are larger in size, individuals may use sieving and sedimentation. Sieving is still a popular methods when dealing with larger particles, and is still used often. Paying attention to the size of the particle is important when trying to learn about it, since certain methods will work better than others depending on the size and the substance of the particle (such as if it is solid or liquid).
Being Aware of Size While Doing Particle Size Analysis is Crucial in Reducing Error
Research in particle size determination has shown that when inadequate dispersion occurs, that is when there is the largest chance of error in relation to particles with a diameter or 20 um or less. Individuals should be aware of how large particles measure, and take care to use the proper methods when trying to perform particle size analysis principle.
Anyone who is dealing with particle size analysis or particle size distribution testing should be aware that there are different ways to test different particles, depending on if they are solid, liquid, large or small. Anyone who does particle size analysis should also take special care to be aware of the size of the particle, since those that are 20 um or less face the largest chance of having errors when measurements are being made.