How does the size of a clutch affect the torque transmission capability?
Table of Contents
- 1 How does the size of a clutch affect the torque transmission capability?
- 2 What determines the maximum torque capability of a clutch?
- 3 What is the major factor limiting the clutch capacity?
- 4 What is the torque transmitted by a single plate clutch considering uniform wear condition?
- 5 What causes clutch slipping?
- 6 What is the formula for the total frictional torque transmitted?
How does the size of a clutch affect the torque transmission capability?
Decreasing the diameter reduces torque capacity. A smaller diameter clutch has a smaller diaphragm, which usually means a lower clamping force.” “Adding a second clutch disc doubles the torque capacity. Increasing the coefficient of friction from the disc gives an increase in torque capacity.
What determines the maximum torque capability of a clutch?
The torque capacity of the clutch is dependant upon two factors, one being the number and type of driven plates used and the other being the load rating of the diaphragm spring.
What determines the torque capacity of a multi disc clutch?
The more complete explanation: The torque-holding capacity of a clutch is proportional to the mean diameter of the friction disc material, multiplied by the clamping force of the pressure plate, multiplied by the coefficient of friction of the friction material, multiplied by the number of friction discs.
What is the major factor limiting the clutch capacity?
Clutch temperature is the major limiting factor in clutch capacity. Inertia is another important factor of the clutch. The clutch output member (disc) is attached to the drive line. If the member is too heavy, its inertia keeps it spinning after releasing of the clutch, causing hard shifting and gear clashing.
What is the torque transmitted by a single plate clutch considering uniform wear condition?
Since the intensity of pressure (p) is maximum at the inner radius (r2), considering uniform wear, pmax x r2 = C or C = 0.1 × 100 = 10 N/mm. Mean radius = R = (r1 + r2)/2 = 125 mm = 0.125 m. Thus, power transmitted, P = T.
When clutch is new which theory is used for torque capacity calculation?
uniform wear theory
Generally, uniform wear theory is used to design a clutch. Since the uniform wear theory assumption gives lower torque capacity, the designing based on uniform wear theory for higher torque capacity will need bigger clutch dimensions statement 1 is correct.
What causes clutch slipping?
Besides the clutch pressure plate and the clutch disk, clutch slipping causes can often be found in the release system. Additional causes include an incorrectly reworked flywheel or installation of the wrong clutch. Check in case of clutch slipping: Release system wear, freedom of movement, adjustment?
What is the formula for the total frictional torque transmitted?
3. What is the formula for the total frictional torque transmitted? Explanation: Frictional torque acting on each shoe = µ(Pc – Ps)R. Therefore, total frictional torque transmitted = µ(Pc – Ps)R × n; where n is the number of shoes.
What 3 factors affect the torque created by a force relative to a specific pivot point?
(a) The three factors r, F, and θ for pivot point A on a body are shown here—r is the distance from the chosen pivot point to the point where the force F is applied, and θ is the angle between F and the vector directed from the point of application to the pivot point.