Hello all,
This is my first post in this forum so please forgive my ignorance.
I am designing a large shaft (17.75" OD) made of 4340 alloy steel. See attached picture. The shaft undergoes both axial and torsional loads as well as internal pressure. My analysis indicates a stress concentration of 45,000psi at the fillet where the "flange" starts, as would be expected. The spec I am designing to stipulates that for stress concentrations I need a safety factor of 2.8 on the material's ultimate strength. My shaft would therefore have to be made from a material with 126,000psi ultimate, in this case 4340 in some sort of quenched and tempered condition.
With a shaft this size my experience indicates that even if I could find a vendor that produced a ~18" OD bar quenched and tempered, most of the heat treated steel would be machined away and the material at the 9" OD would be more like the annealed condition (~60,000psi yield, ~95,000psi ultimate).
My question is this: Just below the fillet in question we have to induction harden the shaft to 58/62 Rc. Is it possible to also heat treat the fillet to attain the required ultimate strength? Is this common practice? Can you directly correlate a yield strength with a hardness value? Most of the stresses in the shaft are very low, and I'd rather not rough machine/heat treat/final machine the entire thing.
Any comments would be most helpful.
Thanks in advance.
- Chris
This is my first post in this forum so please forgive my ignorance.
I am designing a large shaft (17.75" OD) made of 4340 alloy steel. See attached picture. The shaft undergoes both axial and torsional loads as well as internal pressure. My analysis indicates a stress concentration of 45,000psi at the fillet where the "flange" starts, as would be expected. The spec I am designing to stipulates that for stress concentrations I need a safety factor of 2.8 on the material's ultimate strength. My shaft would therefore have to be made from a material with 126,000psi ultimate, in this case 4340 in some sort of quenched and tempered condition.
With a shaft this size my experience indicates that even if I could find a vendor that produced a ~18" OD bar quenched and tempered, most of the heat treated steel would be machined away and the material at the 9" OD would be more like the annealed condition (~60,000psi yield, ~95,000psi ultimate).
My question is this: Just below the fillet in question we have to induction harden the shaft to 58/62 Rc. Is it possible to also heat treat the fillet to attain the required ultimate strength? Is this common practice? Can you directly correlate a yield strength with a hardness value? Most of the stresses in the shaft are very low, and I'd rather not rough machine/heat treat/final machine the entire thing.
Any comments would be most helpful.
Thanks in advance.
- Chris