Let me make sure I understand you correctly. First of all, annealing is not something that is required to do XRD on a powder sample. But the annealing temperature is probably what eventually determines the particle size. So you want to anneal the powder sample and then use it for XRD. Is that right?wafa said:I am preparing Ni-Zn Ferrites by chemical coprecipitation method, the intial reactents being the chlorides of Ni, Zn and Fe. For XRD you need powdered samples and particle size is determined from XRD, so one needs to anneal the samples in powdered form for XRD.
In theory, no. In practice, the difference may be small enough to neglect. It will depend on, among other things, the pressure applied during pelletizing. At high pressures (~ several MPa), there's a good chance that the particle size will be different.Now in order to measure diffrent properties e.g resistivity etc you need pellet. If I take a powdered sample, divide it in two parts, anneal one part and determin the particle size from its XRD, make the pellet of the second part and then anneal it to determen diffrent properties then if it is fair to assume that these properties corresponds to the particle size determen by the first part of the sample?
Here's a priliminary suggestion:There is another way as well, to anneal the sample first and then make pellets for characterization, but it come out with its own problems e.g porosity etc. The particle size is within 7 to 20 nm.Can you give me an advice to counter that problem?
Thanks.
Annealing is a heat treatment process used to reduce the hardness and increase the ductility of a material. In pellet formation, annealing is important because it allows the material to undergo plastic deformation and form into a cohesive pellet.
Annealing should be performed after the material has been compressed into a pellet shape and before any further processing or use. This allows the material to reach its desired properties and improve its overall quality.
Performing annealing before and after pellet formation has several benefits. It can improve the strength and ductility of the material, reduce internal stresses, and improve its resistance to corrosion and other environmental factors.
The effectiveness of annealing in pellet formation can be affected by several factors, including the temperature and duration of the annealing process, the composition and structure of the material, and any previous heat treatments that the material has undergone.
While annealing is generally a safe and beneficial process, there are some potential risks involved. These include the risk of overheating and damaging the material, as well as the risk of introducing impurities or altering the material's properties in an unintended way.