Applications of Torsion Or You Will Learn This And Like It (Credit for many illustrations is given...
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![Page 1: Applications of Torsion Or You Will Learn This And Like It (Credit for many illustrations is given to McGraw Hill publishers and an array of internet search.](https://reader035.fdocuments.in/reader035/viewer/2022070402/56649f275503460f94c3ea0e/html5/thumbnails/1.jpg)
Applications of Torsion
Or You Will Learn ThisAnd Like It
(Credit for many illustrations is given to McGraw Hill publishers and an array ofinternet search results)
![Page 2: Applications of Torsion Or You Will Learn This And Like It (Credit for many illustrations is given to McGraw Hill publishers and an array of internet search.](https://reader035.fdocuments.in/reader035/viewer/2022070402/56649f275503460f94c3ea0e/html5/thumbnails/2.jpg)
Parallel Reading
Chapter 4 Section 4.6 Section 4.8 (Do Reading Assignment Problems 4B)
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Lets Design a Drive Shaft
Our Drive Shaft must transmit 240 HP at 1800 rpm.It is to have a diameter of 3.5 inchesWe are allowed 8 ksi of shear stressWe need to make the shaft as thin and light asPossible.
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Strategy
We are going to go for a hollow shaft to save weight
We need to get the Moment or Torque to which our shaft will be subjected. ThisWe will do with the formula
With the Torque in hand we will use the formula
We know the maximum shear, the torque, and the shaft radius c. J is a function ofOur shaft thickness. We will try J for shafts of different standard thicknessessesUntil we find one that works.
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We Need Some Conversions
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Now Lets Solve For Torque
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Now Lets Set Up to Find a Solution
We know T = 8304.4 lb*inWe know c2 (the radius of ourShaft) is 1.75 inchesWe don’t know c1 (the radius of theHollow center)
Do a little algebra to isolate what itIs we do not know
8000*
75.1*4.8304*221.8 75.1
4
Plug and Chug
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The Final Solution
6927.121.84 inches
1.69 inches inner radius - 1.75 inches outer radiusThat shaft is pretty thin. We may want to ask whether 3.5 inch diameter isReally the best choice
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The Thin Walled Torsion Member
If C2 and C1 are about the same sizeThere will be very little shear differenceOver the thickness.
Simplifies to
(pg. 4 of FE exam book)
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Lets Illustrate How it Works
If I put 24,000 lb*in or torqueOn this what be the stress inEach wall?
For thin walled members its notHow far from the center that controlsStress. There is a uniform flow ofShear that affects the entireMaterial surface
tconstq tan* Its shear flow
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So How Do I Get This Shear Flow that Must Move Through the Skin of the Member?
Where A is the total areaEnclosed by the member
And we getThe Shear Flow
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Now Lets See How Much Shear that Puts in the Skin
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Lets Try a Twist Where the Skin Thickness Changes
The same shear flow must beAccomodated.
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Thin Walled Shear Members
Drive shafts usually aren’t thin walledMembers - but
Airplane wings are thinAnd have very highShear loads.
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Now Lets Try Doing a Statically Indeterminate Problem
What are the reactions at the wallFor A and C
From Statics we knowA+ C = 1.4 KN*m
Like most problems that haveDuplicate support points thisProblem will be statically indeterminate(we cannot break down how much ofThat balancing reaction comes from AAnd how much from C)
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Enter Strength of Materials
• We know that the angle of twist has to be the same for shaft AB and shaft BC
We’ll through in aLittle data as abonus
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Apply the Principle
But since the angle of twist has to be the sameFor shaft BC we also know
And from Statics we know
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Lets Start Filling In Some Numbers
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Now We’ll Crunch J
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Now We’ll Plug In to Find the Reaction at the Wall A
Rearrange the equation to solve forTAB
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More of the Same Gets Us an Expression for the Torque in Shaft
BC
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Now We’ll Take Our Statics Equation
Now if that does not look like an invitation toSolve for the angle of twist
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Now Its’ Trivial
We use our equation for TAB
And our equation for TBC
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We’re Done
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Assignment 9
Do problems 4.8-8 and 4.8-10Do problem 4.6-2
Warning – you must show your work and explain step by step what you are doing.Simply showing work and an answer will be marked wrong regardless of whetherThe answer shown is correct or not.