Safety factor, temperature and torque

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Discussion Overview

The discussion revolves around a homework problem involving the calculation of safety factors, temperature, and torque for a hub and shaft assembly with an interference fit. The problem includes specific material properties and loading conditions, requiring participants to explore various methods and formulas to arrive at the necessary calculations.

Discussion Character

  • Homework-related
  • Technical explanation
  • Mathematical reasoning

Main Points Raised

  • Post 1 outlines the problem statement, including material properties and loading conditions, and requests assistance with calculations.
  • Post 2 provides links to tutorials and online calculators related to interference fits, suggesting they may contain useful information for the calculations.
  • Post 3 indicates a participant's intent to engage with the problem more thoroughly in the future.
  • Post 4 expresses difficulty in finding relevant information from the provided links and requests guidance on how to start the calculations.
  • Post 5 emphasizes the need to evaluate interface stress and the coefficient of friction before proceeding with the calculations, noting the variability in these values.
  • Post 6 mentions a proposed method for calculating the safety factor against sliding and raises a question about determining von Mises maximum stress for the yielding safety factor.

Areas of Agreement / Disagreement

Participants generally agree on the need to evaluate certain parameters (interface stress and coefficient of friction) before proceeding with calculations. However, there is no consensus on specific values or methods to be used, and several questions remain unresolved regarding the calculations.

Contextual Notes

Participants express uncertainty about the availability of formulas and methods, with some indicating that the course material is not in a language they are comfortable with. There are also unresolved mathematical steps related to the calculation of von Mises maximum stress.

r_prieto5
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Homework Statement



https://drive.google.com/file/d/0BxPEJS0qVOpeWENSREI1RlNsNDQ/view?usp=sharing

A hub is connected to a shaft with a shrink fit (pressurized oil assembly, grease removed). The material of the hub is quenched and tempered steel (ReH = 450 N/mm2) and the material of the shaft is steel S355. The diameter DF = 30 mm and the length of the D sleeve is l = 30 mm. The outside diameter of the hub is D = 140 mm. Interference fit is

φ30H7/u6 . Surface roughnesses of the shaft and the hub are according to SFS 5595. The

load is pulsating: T = 150 Nm and Fa = 9000 N.

  1. a) Calculate the safety factor against sliding.
  2. b) Calculate the safety factor of the hub against the yielding.
  3. c) Calculate the temperature of the hub at assembly.
  4. d) Calculate the transmitted torque, if a parallel key (SFS 2636) is used to connect the

    hub to the shaft. The key length is 30 mm.

Homework Equations


Maybe from a similar problem and only for d)

T = (π/2)⋅DF2⋅lF⋅vru(p/Sr)

The Attempt at a Solution


Sadly, as with my other homework problems, I do not have any formulas or methods showing me how to solve it since the course material is in Finnish.
I can't use the Torque formula either since I don't yet have the safety factors...
 
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@Nidum Thank you, I am pretty busy at the moment but I will get more into it next week and let you know if it works!
 
@Nidum It seems the links you give me don't have much information on the actual values asked and if they do, they require that I already have calculated some of the other variables (i.e. the calculator). Do you have any information on how I should start the approach?
 
To answer all the main parts of the original question you first need to evaluate :

(a) the interface stress between the shaft and the ring .
(b) the coefficient of friction effective between the shaft and the ring .

There is a range of possible values for each of these quantities .
Decide for yourself which are the safest values to use in further calculations .
 
Ok, I think I have now found the safety factor against sliding with sum of resisting moments/sum of driving moments = (moment on shaft face + moment by contact pressure)/torque
Now for the yielding safety factor i found the formula FS=yield strength (of the shaft i guess)/von mises maximum stress however I don't know how to find von mises' maximum stress...
 

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