Methods of preparing nitrocelluse based propellants and propellants made therefrom

The invention claimed is: 1. A method of making a power load used in fastener tools for driving fasteners, the power load comprising a propellant contained within a cartridge case and a primer, wherein the propellant includes nitrocellulose particles having a final shape and size, the method comprising: providing an amount of the preshaped cellulose particles, the preshaped cellulose particles having a size of at least 50 microns and having a shape of the final shape; thereafter nitrating the cellulose particles sufficiently to produce the nitrocellulose particles having at least 12% nitrogen at a location; thereafter, at the location, stabilizing the nitrocellulose particles by a series of boiling regimens, wherein the stabilizing comprises the steps of: subjecting the nitrocellulose particles to an acid boil regimen comprising boiling the nitrocellulose particles in an acid boil solution at an elevated temperature of at least 115° C. for a period of no more than 30 hours, the acid boil solution comprising substantially water; thereafter subjecting the nitrocellulose particles to a first neutral boiling of the nitrocellulose particles in a first neutral solution for a period of time, the first neutral solution comprising substantially water; and thereafter subjecting the nitrocellulose particles to a first alkaline boiling of the nitrocellulose particles in a first alkaline solution for a period of time, the first alkaline solution comprising substantially water, wherein the combined periods of time of the first neutral boiling and the first alkaline boiling is less than 30 hours, whereby the nitrocellulose particles are completely stabilized and exhibit complete nitration and wherein the shape is maintained; and thereafter drying the nitrocellulose particles; and incorporating the nitrocellulose particles into an opening of the cartridge case and closing the opening. 2. The method of claim 1 , wherein the stabilizing is limited to the acid, neutral and alkaline regimens, the neutral regimen and the alkaline regimen have a combined duration of less than 25 hours. 3. The method of claim 2 , wherein the acid boil regimen, the neutral regimen and the alkaline regimen have a combined duration of less than 45 hours. 4. The method of claim 1 , wherein the stabilizing is limited to the acid, neutral and alkaline regimens, the boiling temperature is at least 130° C., the acid boil duration is no more than 15 hours and the neutral regimen and the alkaline regimen have a combined duration of less than 20 hours. 5. The method of claim 4 , wherein the acid boil regimen, the neutral regimen and the alkaline regimen have a combined duration of less than 30 hours. 6. The method of claim 1 , wherein the boiling temperature is at least 130° C., the acid boil duration is no more than 10 hours and the neutral regimen and the alkaline regimen have a combined duration of less than 20 hours. 7. The method of claim 6 , wherein the acid boil regimen, the neutral regimen and the alkaline regimen have a combined duration of less than 25 hours. 8. The method of claim 1 , wherein the stabilized nitrocellulose particles in the propellant comprise at least 12.5% nitrogen and have a chemical stabilizer concentration of 2.0 wt % or less; and wherein the preshaped cellulose particles are not subjected to any added plasticisation. 9. The method of claim 1 , wherein, after the step of stabilizing the nitrocellulose particles and before the step of drying, the method further comprises the step of: impregnating the nitrocellulose particles with a chemical stabilizer, comprising mixing the nitrocellulose particles in a chemical stabilizer solution comprising the chemical stabilizer, wherein the nitrocellulose particles have a chemical stabilizer concentration of 2.0 wt % or less. 10. The method of claim 1 , wherein the nitrocellulose particles are nitrated sufficiently to produce nitrocellulose particles having at least 13% nitrogen and, in cross-section, have a felted and/or non-plasticized appearance. 11. The method of claim 1 , wherein the cross-section length is 250 microns to 1 mm. 12. A method of making a power load used in fastener tools for driving fasteners, the power load comprising a propellant contained within a cartridge case and a primer, wherein the propellant includes nitrocellulose particles having a final shape and size, the method comprising: providing an amount of the preshaped cellulose particles, the preshaped cellulose particles having a size of at least 50 microns and having a shape of the final shape; thereafter nitrating the cellulose particles sufficiently to produce the nitrocellulose particles having at least 12% nitrogen at a location; thereafter, at the location, stabilizing the nitrocellulose particles by a series of boiling regimens, wherein the stabilizing comprises the steps of: subjecting the nitrocellulose particles to an acid boil regimen comprising boiling the nitrocellulose particles in an acid boil solution for an amount of time, the acid boil solution comprising substantially water; thereafter subjecting the nitrocellulose particles to an organic solvent solution boil regimen, the organic solvent solution boil regimen comprising: a first organic solvent boiling of the nitrocellulose particles in a first organic solvent solution for a first solvent boil period of time, the first organic solvent solution comprising ethanol; and thereafter a second organic solvent boiling of the nitrocellulose particles in a second organic solvent solution for a second solvent boil period of time, the second organic solvent solution comprising ethanol; and subjecting the nitrocellulose particles to an alkaline boil regimen, the alkaline boil regimen comprising: a first alkaline boiling of the nitrocellulose particles in a first alkaline solution for a first alkaline boil period of time, the first alkaline solution comprising substantially water, whereby the nitrocellulose particles are completely stabilized and exhibit complete nitration and wherein the shape is maintained; and thereafter drying the nitrocellulose particles; combining the nitrocellulose particles with one or more propellant components included in the propellant; and incorporating the nitrocellulose particles into an opening of the cartridge case and closing the opening wherein the nitrocellulose particles form energetic particles of the propellant and the shapes of the cellulose particles are substantially maintained in the propellant. 13. The method of claim 12 , the cellulose particles having a cross-section length of at least 100 microns and the nitrocellulose particles being nitrated to comprise at least 12.5% nitrogen, wherein the stabilizing further comprises: subjecting the nitrocellulose particles to a neutral boil regimen prior to the organic solvent solution boil regimen, the neutral boil regimen comprising: a first neutral boiling of the nitrocellulose particles in a first neutral solution for a first neutral boil period of time, the first neutral solution comprising substantially water, and wherein the alkaline boil regimen further comprises: a second alkaline boiling of the nitrocellulose particles in a second alkaline solution for a second alkaline boil period of time, the second alkaline solution comprising substantially water, wherein the stabilized nitrocellulose particles in the propellant have a chemical stabilizer concentration of 2.0 wt % or less; and, in cross-section, have a felted and/or non-plasticized appearance.