Here
http://www.nlrc.org/index_htm_files/Ryan%20Stevenson%20-%20Dissertation.pdf is a very interesting scientific study about cartridge brass. It's long and most people will not take the time to read it (even though serious reloaders should).
They used the hand held Drill-And-Torch method of annealing because that is what many reloaders use. The experimenters calibrated their procedure time using Tempilaq and then attempted to duplicate the same procedure for each case. This proved not to be a good approach. They concluded that: "The annealing process is not able to apply consistent amounts of heat to each cartridge that is annealed. ............cartridge brass (30% Zn) is usually well within the face centered cubic α phase of brass. Thus, the rate of cooling after the annealing process should not greatly affect the microstructure of the material as long as the cooling process can be kept consistent for all of the annealed cartridges. The variability in annealing results is therefore most likely caused by an inability to accurately control the temperature and time of the heat treatment process........"
They determined that (when examined under a microscope) the post-annealing grain structure of the sectioned cartridge necks varied from one side of the neck to the other. They went on to say: "The microstructure variability after annealing will have consequences for shooting accuracy as one round may react differently to another. Large variations in microstructure, with circumferential position, in a single cartridge may affect the way in which a bullet leaves the cartridge during firing and thus further affect shooting accuracy. ............................... the results suggest that an improvement in the neck annealing process could greatly increase the ability to control the material properties of the cartridge cases. A more controllable annealing process would decrease the variability of the annealing results achieved and could help to maintain accuracy when shooting."
They determined that it might be better not to anneal at all rather than use a less-than-optimum procedure, such as the drill-torch method.
After further discussion about neck hardness in cartridges fired and reloaded several times without annealing, the conclusion was: "This suggests that if annealing is to be carried out it should be done on a regular basis."
They made some careful measurements of hardness at a number of points along the length of the case and plotted that information for factory brass, fired brass, and fired brass, which was subsequently annealed. In short, they proved what most of already believe; i.e. necks get harder the more they are fired and reloaded. Necks can be returned to near-factory condition after DIY annealing. Down around the base, hardness remain pretty much the same and proper annealing does not dangerously soften the base. Resizing causes thinning of the cartridge just above the base. Improper neck turning can cause a notch and/or burr at the top of the shoulder and should be avoided. No real surprises here, but it is nice to have scientific confirmation.
The experiments relating to actual seating force and extraction force was flawed and the failed to produce useful information and that is a real shame in my opinion.
After reading the entire study, I confirmed my belief that a good annealing machine, such as my DIY "Skip Design" unit, carefully calibrated using Tempilaq, is better than using a hand held torch and "counting" the annealing time. I have confidence that my annealing machine is not damaging my cartridge bases and that the condition of my brass, which I anneal each time, is returned to near-factory condition, which is helping to make my neck tension more consistent.
