Spindle Shaft
From Teamnumber1
(Difference between revisions)
(→Spindle Shaft Design, 7th April) |
(→Spindle Shaft Design, 7th April) |
||
| Line 4: | Line 4: | ||
* Developed a model to predict the peak cutting force and shaft torque | * Developed a model to predict the peak cutting force and shaft torque | ||
| - | * Wrote a | + | * Wrote a matlab tool (edited version below) to determine peak forces and bending moments in spindle shaft and bearings |
* Wrote a [http://web.mit.edu/mmcbrien/Public/2-72/Spindle/bearings.m matlab tool] to specify bearing from cutting force, torque, and desired life and reliability (via the Weibull Equation) | * Wrote a [http://web.mit.edu/mmcbrien/Public/2-72/Spindle/bearings.m matlab tool] to specify bearing from cutting force, torque, and desired life and reliability (via the Weibull Equation) | ||
* Specified a collet from sheets provided in lab | * Specified a collet from sheets provided in lab | ||
| Line 10: | Line 10: | ||
** 30 mm shaft outer diameter, 50mm diameter for center section | ** 30 mm shaft outer diameter, 50mm diameter for center section | ||
** 10 mm inner diameter | ** 10 mm inner diameter | ||
| + | |||
| + | |||
| + | == Spindle Shaft Design, 12th April == | ||
| + | |||
| + | * Altered [http://web.mit.edu/mmcbrien/Public/2-72/Spindle/shaft_stress_slope_fatigue.m matlab tool] to take into account fatigue at bearing A. | ||
| + | * For a steel shaft, we have a slope factor of safety of 9, a stress factor of safety of 15, and a fatigue lifetime of 10^10 minutes (this lifetime is about right according to Chris). | ||
| + | * Assumptions - w_shaft = 570rpm, axial force = 100N, radial force = 240N, stress concentration at fillet = 2.5. | ||
Revision as of 20:42, 12 April 2007
Spindle Shaft Design, 7th April
- Developed a model to predict the peak cutting force and shaft torque
- Wrote a matlab tool (edited version below) to determine peak forces and bending moments in spindle shaft and bearings
- Wrote a matlab tool to specify bearing from cutting force, torque, and desired life and reliability (via the Weibull Equation)
- Specified a collet from sheets provided in lab
- Used results from above tools and supplied lathe solid model to specify shaft dimensions:
- 30 mm shaft outer diameter, 50mm diameter for center section
- 10 mm inner diameter
Spindle Shaft Design, 12th April
- Altered matlab tool to take into account fatigue at bearing A.
- For a steel shaft, we have a slope factor of safety of 9, a stress factor of safety of 15, and a fatigue lifetime of 10^10 minutes (this lifetime is about right according to Chris).
- Assumptions - w_shaft = 570rpm, axial force = 100N, radial force = 240N, stress concentration at fillet = 2.5.
