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Torsion Hollow Shaft
1.
©D.J.Dunn freestudy.co.uk 1 ENGINEERING
COUNCIL CERTIFICATE LEVEL ENGINEERING SCIENCE C103 TUTORIAL 3 - TORSION You should judge your progress by completing the self assessment exercises. These may be sent for marking or you may request copies of the solutions at a cost (see home page). On completion of this tutorial you should be able to do the following. • Derive the torsion equation • Derive polar second moment of area. • Solve problems involving torque, shear stress and angle of twist. • Derive the formula for the power transmitted by a shaft • Relate power transmission to torsion. • Outline the method of solution for rectangular cross sections. • Solve problems with shafts of rectangular cross section. It is assumed that students doing this tutorial are already familiar with the concepts of second moments of area and shear stress.
2.
1. TORSION OF
SHAFTS Torsion occurs when any shaft is subjected to a torque. This is true whether the shaft is rotating (such as drive shafts on engines, motors and turbines) or stationary (such as with a bolt or screw). The torque makes the shaft twist and one end rotates relative to the other inducing shear stress on any cross section. Failure might occur due to shear alone or because the shear is accompanied by stretching or bending. 1.1. TORSION EQUATION The diagram shows a shaft fixed at one end and twisted at the other end due to the action of a torque T. Figure 1 The radius of the shaft is R and the length is L. Imagine a horizontal radial line drawn on the end face. When the end is twisted, the line rotates through an angle θ. The length of the arc produced is Rθ. Now consider a line drawn along the length of the shaft. When twisted, the line moves through an angle γ. The length of the arc produced is Lγ. If we assume that the two arcs are the same it follows that Rθ = Lγ Hence by equating Lγ = Rθ we get L Rθ γ = .........................(1A) If you refer to basic stress and strain theory, you will appreciate that γ is the shear strain on the outer surface of the shaft. The relationship between shear strain and shear stress is γ τ G = .....................(1B) τ is the shear stress and G the modulus of rigidity. G is one of the elastic constants of a material. The equation is only true so long as the material remains elastic. Substituting (1A) into (1B) we get R τ L Gθ = .....................(1C) Since the derivation could be applied to any radius, it follows that shear stress is directly proportional to radius 'r' and is a maximum on the surface. Equation (1C) could be written as r τ L Gθ = .....................(1D) Now let's consider how the applied torque 'T' is balanced by the internal stresses of the material. ©D.J.Dunn freestudy.co.uk 2
3.
Consider an elementary
ring of material with a shear stress τ acting on it at radius r. ©D.J.Dunn freestudy.co.uk 3 The area of the ring is dA = 2π r dr The shear force acting on it tangential is dF = τ dA = τ 2πr dr This force acts at radius r so the torque produced is dT = τ 2πr2 dr Since L rGθ =τ from equation (1D) then drr2π L Gθ dT 3 = Figure 2 The torque on the whole cross section resulting from the shear stress is ∫= R 0 3 drr2π L Gθ T The expression is called the polar second moment of area and denoted as 'J'. The Torque equation reduces to ∫ R 0 3 drr2π J L Gθ T = and this is usually written as L Gθ J T = ...........................(1E) Combining (1D) and (1E) we get the torsion equation r τ L Gθ J T == ................(1F) 1.2 POLAR SECOND MOMENTS OF AREA This tutorial only covers circular sections. The formula for J is found by carrying out the integration or may be found in standard tables. For a shaft of diameter D the formula is 32 πD J 4 = This is not to be confused with the second moment of area about a diameter, used in bending of beams (I) but it should be noted that J = 2 I. WORKED EXAMPLE No.1 A shaft 50 mm diameter and 0.7 m long is subjected to a torque of 1200 Nm. Calculate the shear stress and the angle of twist. Take G = 90 GPa. SOLUTION Important values to use are D = 0.05 m, L = 0.7 m, T = 1200 Nm, G = 90 x109 Pa o 871.0 180 x0.0152θdegreestoConverting radian0.0152 0.025x10x90 0.7x10x48.89 GR τL θyAlternatel radian0.0152 10x613.59x10x90 0.7x1200 J TL θ MPa48.89orPa10x48.89 10x613.59 0.025x1200 J TR τ m10x613.59 32 0.05xπ 32 πD J 9 6 9-9 6 9-max 49- 44 == === === === === π
4.
1.3 HOLLOW SHAFTS Since
the shear stress is small near the middle, then if there are no other stress considerations other than torsion, a hollow shaft may be used to reduce the weight. The formula for the polar second moment of area is ( ) 32 dDπ J 44 − = . D is the outside diameter and d the inside diameter. WORKED EXAMPLE No.2 Repeat the previous problem but this time the shaft is hollow with an internal diameter of 30 mm. ( ) ( ) o d 1 180 x0.0152θdegreestoConverting radian0.0175 0.025x10x90 0.7x10x56.17 GR τL θyAlternatel radian0.0175 10x534.07x10x90 0.7x1200 J TL θ MPa56.17orPa10x56.17 10x534.07 0.025x1200 J TR τ m10x534.07 32 03.00.05xπ 32 Dπ J 9 6 9-9 6 9-max 49- 4444 == === === === = − = − = π Note that the answers are nearly the same even though there is much less material in the shaft. WORKED EXAMPLE No.3 A shaft 40 mm diameter is made from steel and the maximum allowable shear stress for the material is 50 MPa. Calculate the maximum torque that can be safely transmitted. Take G = 90 GPa. SOLUTION Important values to use are: D = 0.04 m, R = 0.02 m, τ = 50 x106 Pa and G = 90 x109 Pa r τ L Gθ J T == Nm628.3 0.02 10x251.32x10x50 R Jτ T term.middletheignoreandRearrange R τ L Gθ J T isequationtorsioncompleteThe m10x251.32 32 0.04xπ 32 πD J 9-6 max 49- 44 === == === ©D.J.Dunn freestudy.co.uk 4
5.
©D.J.Dunn freestudy.co.uk 5 SELF
ASSESSMENT EXERCISE No.1 1. A shaft is made from tube 25 mm outer diameter and 20 mm inner diameter. The shear stress must not exceed 150 MPa. Calculate the maximum torque that should be placed on it. (Ans. 271.69 Nm). 2. A shaft is made of solid round bar 30 mm diameter and 0.5 m long. The shear stress must not exceed 200 MPa. Calculate the following. i. The maximum torque that should be transmitted. ii. The angle of twist which will occur. Take G = 90 GPa. (Ans. 1060 Nm and 4.2o) 1.4 MECHANICAL POWER TRANSMISSION BY A SHAFT In this section you will derive the formula for the power transmitted by a shaft and combine it with torsion theory. Mechanical power is defined as work done per second. Work done is defined as force times distance moved. Hence P = Fx/t where P is the Power F is the force x is distance moved. t is the time taken. Since distance moved/time taken is the velocity of the force we may write P = F v ........(2A) where v is the velocity. When a force rotates at radius R it travels one circumference in the time of one revolution. Hence the distance moved in one revolution is x = 2πR If the speed is N rev/second then the time of one revolution is 1/N seconds. The mechanical power is hence P = F 2πR/(1/N) = 2πNFR Since FR is the torque produced by the force this reduces to P = 2πNT ....................(2B) Since 2πN is the angular velocity ω radians/s it further reduces to P = ωT.................(2C) Note that equations (2C) is the angular equivalent of equation (2A) and all three equations should be remembered.
6.
WORKED EXAMPLE No.4 A
shaft is made from tube. The ratio of the inside diameter to the outside diameter is 0.6. The material must not experience a shear stress greater than 500 kPa. The shaft must transmit 1.5 MW of mechanical power at 1500 rev/min. Calculate the shaft diameters. SOLUTION The important quantities are P = 1.5 x 106 Watts, τ = 500 x 103 Pa, N = 1500 rev/min and d = 0.6D. ( ) ( ){ } { } mm2890.6Ddmm481.6m0.48160.11175D0.11175D D D D 10x500x2x0.08545 9549.3 D 10x500x2 0.08545D 9549.3 hence D 2τ R τ J T 0.08545D 32 0.36DDπ 32 0.6DDπ 32 dDπ J Nm9549.3 25x2π 10x1.5 N2π P Thence TNπ2Prev/s251500/60rev/min1500N 33 3 4 3 3 4 4 444444 6 ====== ====== = − = − = − = === ==== SELF ASSESSMENT EXERCISE No.2 1. A shaft is made from tube 25 mm outer diameter and 20 mm inner diameter. The shear stress must not exceed 150 MPa. Calculate the maximum power that should be transmitted at 500 rev/min. (Ans. 14.226 kW) 2. A shaft must transmit 20 kW of power at 300 rev/min. The shear stress must not exceed 150 MPa. Calculate a suitable diameter. (Ans.27.8 mm) 3 A steel shaft 5 m long, having a diameter of 50 mm, is to transmit power at a rotational speed of 600 rev/min. If the maximum shear stress is limited to 60MN/m2. Determine the following. (i) The maximum power that can be transmitted. (92.5 kW) (ii) The corresponding angle of twist. (8.59o) Assume the modulus of rigidity for steel is 80 GN/m2. 4. A hollow steel shaft with a diameter ratio of 0.75 and a length of 4 m is required to transmit 1 MW at 120 rev/min. The maximum shear stress is not to exceed 70 MN/m2 nor is the overall angle of twist to exceed 1.75o. Determine the following. (i) The necessary outside diameter of the shaft so that both of the above limitations are satisfied. (222 mm) (ii) The actual maximum shear stress and the actual angle of twist. (1.75o) Assume the modulus of rigidity for steel is 80 GPa ©D.J.Dunn freestudy.co.uk 6
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