Dear sir/madam, Please give me the detailed the analysis of mercerization machinne shaft.
how calculate power gearbox output
Shaft power P = (2(pi) * (angular Speed in rpm) * (Torque at shaft)/ 60 Torque of a solid shaft is given by (pi/16)* (Shear stress of material of shaft) * (Dia of shâft3).
Loser loner major wannabee
You cannot. The mass depends on the material of the shaft and that has not been specified.
(Pi x R x R) x H... Where R is the radius of the shaft and H is the height.
The formula for calculating weight of a solid shaft is dia x dia x length x 7.8 x 1000000. This formula is the most commonly used.
It's called whipping. Usually a cotton or linen thread.
Without knowledge of the material you cannot.
You can also relate this to the car crank shaft speed , and it is measured in Revolutions Per minute =RPM's. faster your crank shaft rotates (RPM's), the faster your pistons travel up and down the cylinders, thus the faster your car will go. Hope this was what you were looking for...
without specifying the force its not possible to find the torque.
this is something that you should calculate using design formulas for the component you are making. example: if you have to manufacture shaft you have to calculate its dimensions for the load it is to take and the forces acting on the shaft.If this is done you get the value of dimensions and now you could find out the minimum value of material required for the shaft
The propeller is at the end of a shaft. The shaft passes through a fitting called a stuffing box. The stuffing box contains a material like cotton or waxed twine that wraps around the shaft. There are two or more bolts that hold the stuffing box together and by tightening or loosening the bolts you can squeeze or release the stuffing material to the shaft. Ideally you tighten the bolts to the point that water just drips in. This allows the shaft to spin freely. It is lubricated by the water. If you tighten the box too much then you can score the shaft. The water that drips in is usually pumped out by a bilge pump.