The Shear Stiffness of a Corrugated Web
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1 ~:..!,'..~: :;7 R. & M. No MINISTRY OF AVIATION AERONAUTICAL RESEARCH COUNCIL REPORTS AND MEMORANDA The Shear Stiffness of a Corrugated Web By K. I. MCKEI',IZlE, Ph.D. LONDON: HER MAJESTY'S STATIONERY OFFICE I963 SIX SHILLINGS NET
2 . The Shear Stiffness of a Corrugated Web By K. I. McKENzlE, Ph.D. COMMUNICATED BY THE DEPUTY CONTROLLER AIRCRAFT (RESEARCH AND DEVELOPMENT), MINISTRY OF AVIATION Summary. Reports and Memoranda No. 3342* June, z962 An analysis is made of the shear deformation of a corrugated web attached to the flanges at discrete points. The shear stiffness is calculated for a wide variation of the dimensions of the web, and two positions of the points of attachment to the flanges. Results are presented showing this stiffness relative to that of the continuously attached corrugation. Section Fig uii Introduction LIST OF CONTENTS Outline of Problem, Assumptions and Boundary Conditions Analysis 3. The points of attachment at the crests of the waves 3.2 Points of attachment along the centre-line of the corrugation Results Notation List of References Illustrations--Figs. to 7 Detachable Abstract Cards Co-ordinate systems and notation LIST OF ILLUSTRATIONS The two positions of the points of attachment of the web to the flanges and the form of the bending deflection The shear-stiffness variation when 2b/oI = 2.5 The shear-stiffness variation when 2bid = 5 The shear-stiffness variation when 2b/d = The shear-stiffness variation when 2bid = 2 Some typical displacement variations. Introduction. A corrugated web has a number of advantages and disadvantages in comparison with a plane web of equal weight. There is the obvious disadvantage of increased cost of manufacture and attachment. The shear stiffness will also be slightly less at low stress levels, but this is more than * Replaces R.A.E. Report No. Structures 275--A.R.C. 24,288.
3 offset by the greater stiffness at higher stress levels where the plane web would be in a buckled state. The method of attachment can also be a critical factor; if the attachment is at discrete points, rather than continuous, bending deformations occur which may cause a marked reduction in stiffness. It is this drop in stiffness due to bending deformation which is considered in this report. The analysis is for a corrugated web whose cross-section consists of a series of equal circular arcs attached either on the crests of the waves or along the centre-line. Results are presented showing the shear stiffness relative to that of a continuously attached corrugation for a wide variation of web parameters. Corrugated webs may also be used to avoid thermal stresses. However, in this connection the corrugations may be very shallow with the result that, although attachment at discrete points is required, the ensuing loss of shear stiffness is small. 2. Outline of Problem, Assumptions and Boundary Conditions. The shear stiffness of a corrugated web'whose cross-section consists of a series of circular arcs is derived first when the points of attachment of the web to the flanges lie on the crests of the waves in the web and then when they lie along the centre-line of the corrugation. (See Figs. and 2.) The analysis is based on the assumptions that the deformation is small and consists of a simple shearing displacement of the middle surface together with an arbitrary inextensional deformation. Since these two types of deformation occur independently of each other, the flexibilities arising from them can be added, and thus the following expression is obtained for the stiffness of a panel of corrugation relative to that of a similar panel continuously attached to the flanges, () l+-- P/r where F and P are the stiffnesses obtained assuming a simple shear of the middle surface and an inextensional deformation respectively. It should be noted that because the type of deformation assumed is an approximation to that occurring in practice, the stiffness obtained in this way is an over-estimate. Boundary Conditions. From the fact that the generators of the web remain straight and unstretched in inextensional deformation, three of the boundary conditions applying along the generators joining the points of attachment may be deduced. These are that (referring to Fig. for the notation) uv== constant / (2) g=. Now the deflected form in shear is antisymmetrical about the generator midway between the points of attachment. Examination of Fig. 2 in this light reveals the fourth boundary condition to be 2w - (3) Oy. when the points of attachment are at the crests of the waves in the corrugation and J : go -- = (4) Oy when the points of attachment are along the centre-line of the corrugation i ". i 2
4 h~:~z(~7) 3. Analysis. Using the system of co-ordinates in the middle surface of the shell is Thus, writing oqv shown in Fig., the vanishing of the three strain components equivalent to the equations &t - ax go yy+2= au 3v ~+~=o.j = x/a I (6) ~ y/a, ) the displacements may be written in terms of two independent functions ~ and ~ as follows, (5) v - + h~h?) ) (7) W K In the present case however, the deflection w is zero from symmetry on x =, so that ~b(~) = for all ~/. When the middle surface is inextensional, the usual expression for the strain energy of a shell 2 becomes D ff [( 32w 3v~ ~ ( 32w 3v~ ~] v = ~- - o~ + ~ ay/ + 2( -~) - o~ay-- + ~ ~/j &dy. (8) middle surf&co Thus, substituting from equations (7) and performing the integration with respect to s ~, the strain energy of a curved panel of length 2b and developed width 2a is given by V J K Dh2fi3 fl - [{q6zv(~/) + K24zz(~/)} 2 + tzzf4zz±(,) + K~4~(,)} ~] an (9) 3a2K~ - where fi = b/a, /~2 = 6(-v)/fi ~. In the problem under consideration there is no work done by external forces since the edges y = + a are assumed to undergo a constant shearing displacement + u. Thus the solution of the problem is given by that value of the function?~(~) for which the variation of the integral (9) is zero and which satisfies the boundary conditions on the edges ~/ = +. The statement 8V=O is equivalent, after applying the usual processes of the calculus of variations, to the equation l [4v"(n) + 2~24v±(n) +,~44~(n) _ ~2{4~(n) + 2~4~v(n) + ~44±±(n)}]s4 ay + f -- + a~'{~± + 2~24 ~ + ~44" - ~=(~'v+ ~6")} - - 8~{4 v±± + 2~4 v +,d(yz - t~2(4v+ 2,@5z±*+ M4")}]_ =. At this point it is convenient to treat the two methods of attachment separately. () (8784) A
5 3.. The Points of Attachment at the Crests of the Waves. In this case the panel is regarded as consisting of three parts as shown in Fig., each part being a segment of a cylinder of radius R. Furthermore, since the deflection is antisymmetrical about y = it is necessary only to consider the behaviour of one half of the panel ( ~< y ~< 2a). Using suffix for quantities in the region ~< y ~< a, suffix 2 for quantities in the region a ~< y ~< 2a, and the co-ordinate systems shown in Fig., the boundary conditions on y = a are Expressed in terms of, these become Ul = U2 ~ = --~2 8w Ow 2 () vl = -v2 ayl ay2 l ~() = - J() l 4H() = _ ej~r() ){ (2) /H() : 2i~(). ) Now equations similar to equation () can be set up for both regions of the panel, the only difference in this case being that the integrations are carried out over the range to. Consideration of these equations, and equations (2) gives four more boundary conditions on ' = = 72, namely v + (~ ~± _ ~( ~+ (~ ~) = 2v + ~2 ~ _ ~2( j±±+ ~2 2i ) vz + 2(e zv + (a z± - tz2( izv+ K% ±z) (3) = 2w + 2~2 /v + ~ ~z± _ t~( jv + (~ 2zz) I VII-'~ 2K2 V -~- K4 /-'r/" -- /ob2( lv-~-2~2 III- ~- t(2 ) = _ { v±z + 2~2 2v + ~ 2n± _ ~2( v+ 2~. 2±H+ ~%j)}. j The conditions on ~7 = are automatically satisfied by the fact that (Vl) is an odd function. The conditions on ~Te = are ~() = uol,~ 2±() = = 2sz() = 2w() j (4) The differential equation to be satisfied by both and 2 is that under the integral sign in equation (). The solutions of this equation are ~(~) - k I(Vl) - A sinh/zvl + A 2 sin (~h + A3~h cos t ~ + A~ h (5) h 2( ~) 2~(%) = B sinh/~*/2 + B2 sin (~72 + Ba~72 cos ~72 + Ba?2 + U + B 5 cosh/z~ + B 6 cos (V2 + BTV2 sin KV2 + B s. (6) 4
6 - - K K - - K The boundary conditions (2), (3) and (4) give rise to a system of twelve simultaneous equations which may be expressed in matrix form as where P=,, sinh F, F cosh/~, F = sinh F, F ~ cosh F, Pq = r,, sin.~ COS - K 2 sin ~, _ K3 COS K, ~2(~ +,~) x x sinh tz,, (~ + ~") x x sinh F,,, COS /~ COS K -- - K sin K, -- K 2 COS K- - 2K sin K, K 3 sin K - 2 COS t,, 2K '~ sin K,, 2(K2+# 2) X X COS K, - 2K sin ~,, /x - sinh F F cosh F /z 2 sinh/~, _ ~a cosh F, ~(~2+,d) x x sinh/x, _ (~+,~2) x x sinh F, / - sinh K K COS,, _. ~2 sin K, / ~ COS K (7),,,,,,,,,, F 2 K 4 2K - 4K3 - cos K, -I, - cosh F -- COS K - sin x, - cos K -, sinh sin t ~ sin K + - ~ sin K, + K COS K, s COS K - - 2~ sin K, - ~ sin ~ +, + 3K s cos ~, F 2 cosh F, - F a sinh F, -- K 2 COS K, -- K 8 sin K, _ ~2 sin ~ + + 2K cos K, / 3 COS K K s sin K, (8) 2~ ~ sin ~,, /~2(p~+,{3) x x cosh/x,, -- 2K 3 cos K, - 2(K~ + t, 2) x /z ~,,, - 2(K~ +tz 2) x xcos~, xsin~, 2KsinK,, --(F ~+~)x, --2KCOSK, x cosh t*,,,,, q = {A~, A~, -//3, A4, B, B2, B~, B4, Bs, B6, BT, Bs} and r = {,,,,,,,,,,, }. 5
7 - 8~,~ Now the shear stiffness ~ is given by and V - 3a2K 2 %2 {(~lew + ~c2 eh)2 +/x2 (~l.hz + K~ ~)2} d~ + + fl (G#~F+ ~G'*")~ + ~(42#'±+ ~ ;~±)~}d~? " (2) Therefore performing the integrations and noting that the stiffness of the developed flat sheet is given by we obtain ro-2(+~) N ' F - 9( - v) 2a,~ [/~3(~2 + K2)2 {(A2 + B~ + B52) sinh 2/z + 2B~B 5 (cosh 2/~- )} + + 2K 3 {2 (As 2 + B3 ~ + B72) K (K 2 + ~) + (~ - K ~) (Aa 2 + B32 - B7 ~) sin 2K + + 2(~ - ~) B~B~ ( - cos 2~)} + + 2~4( A~ ~ + B4 ~) - ~ (~ + K ~) {(AIAa + BB~) cos,~ sinh ~ + BaB~(cos ~ cosh/~ - ) + + B~B 7 sin ~ cosh/~ + BTB ~ sin ~ sinh/~} + + 4~"%~(/x ~ + ~) {(A~A4 + BiB~) sinh ~ + B~Ba(cosh/x - )} - - 8/x~a{(A4Aa+ B~Ba) sin ~ + B4B~(- cos ~)}] (22) where the A's and B's are given by the solution of equation (7). Finally the relative stiffness is given by equation () Points of Attachment along the Cenlre-Line of the Corrugation. In this case the panel consists of one segment of a cylinder of radius R. The boundary conditions on y = a are U z ~t V= w = (23) or in terms of 3w --, ay () = nolh I ~() = = ~() = ~"(); J and since the deformation is again antisymmetrical about y = the solution of the differential equation is given by ~ _ Ch _ A sinh tzy + Az sin ~y + A3y cos fcy + A4y. (25) Zl o (24)
8 - (29) On substitution of this expression into equations (24) the four boundary conditions become: A lsinh/z+a~sin~+a3cosk+a 4= "~ A/~ cosh F + AWe cos ~c + As(cos tc- ~c sin ~) + A 4 A/~ ~ sinh/~ - A2~: 2 sin ~c - ~ca3(~c cos ~c + 2 sin K) (26) AF 8 cosh F - A~ ~c~ cos ~: + ~c~a~(~: sin ~<- 3 cos ~c) =. These four equations may be explicitly solved for A, A~, A s and A~, giving AI = ~c~(~- cos ~ sin ~c)/q A~ = F~[~ sinh F(K sin ~ -- 3 cos ~c) + F cosh/~(~ cos ~ + 2 sin ~)]/~ A 3 =/z~(k cos ~ sinh F-F cosh F sin ~)/Q (27) where cos ~ ~(F ~ + ~) (~ cos ~ sinh/x -/x cosh/x sin ~) '~ - cos ~ sin K) cos ~ - sin ~ Q(~ cos ~-sin ~) Q = (F ~ + fc ~) (sinh/z - F cosh F) ( ~c~ - K cos ~ sin ~) - Again the stiffness is given by - 2/x~(~ cos K sinh F-F cosh/z sin K) (sin ~c - K cos K). (28) but now so that P- 4 I' - - Eh b 2( + a -' o = 9( u) 2a ~ [/~a(f~+ ~c~)a2 sinh 2 F + 2,,~Ad{2,ffK~+~D + (~- '~D sin2,~} + + 2/z2K44 u -- 8~caF2A3A4 sin K + + 4~c2/z~(~'+F~)A sinh/x{a, - 2A3 cos ~c}] (3) and as before the relative stiffness is obtained from equation (). 4. Results. In presenting the results of the analysis in graphical form it is convenient to introduce the parameters 2, 2b/d and d/h. These are related to the parameters K, b/a, 2a/h by the simple formulae f2 = 8~c/7r '~ 2b/d ~ b sin a (3) a/h sin (2a \hi" 7 (8784) A**
9 The shear stiffness I~s of a straight web of the same weight as the corrugation web and attached to the flanges at the same points is given by Pj = ~ r o. (32) The relative shear is plotted against fl in Figs. 3 to 6 inclusive for a number of values of 2b/d and d/h. The expected trends are displayed, namely that decreases as ~ and d/h increase and as 2b/d also decreases as the distance between the points of support increases. For comparison Pj/I?, is also shown on each of these figures. Fig. 7 shows how typical displacements vary across the width of the panel and it is of interest to note that the bending of the panel takes place in opposite directions for the two positions of the points of support. This is due to the different positions of the shear centre in the two cases. The discontinuity in the slope of v when the web is supported at the crests of its waves is due to the abrupt change of curvature at that point and to the assumption of inextensibility.
10 NOTATION x,y 2, d, a, b, h, R Co-ordinate axes shown in Fig. Dimensions of web shown in Fig. x/a y/a U, V, W K #2, D,E,v V Q ~l o P P Pl Displacements of middle surface of web a/r b/a 6( - Displacement functions defined by equations (7) Flexural rigidity, Young's modulus and Poisson's ratio Strain energy of bending Defined by equation (28) Applied shearing displacement Shear stiffness Of inextensional web Shear stiffness of web continuously attached to the flanges Relative shear stiffness Shear stiffness of the equal-weight straight web Roman superscripts refer to differentiation with respect to ~. No. Author(s) REFERENCES Title, etc. D. Williams.. 2 V.V. Novozhilov Spar-web design in relation to thermal stresses--the corrugated web. J. R. Ae. Soc., Vol. 66, No. 66. April, 962. The theory of thin shells. Noordhoff. 959.
11 POINTS OF ATTACHMENT (b) ct POINT5 OF ATTACHMENT DEFLECTED SHAPE./ a) POINTS OF SUPPORT AT THE CRESTS OF THE WAVES. ~ f~'~ POINTS OF ATTACHHEHT DEFLECTED 5H.~.,PE i.~ " POINTS OF ATTACHDENT ~ ' z / ~6 r i I I I I I r I,r a I I J r (b) POINTS OF SUPPORT ALONG THE CENTRE-LINE. FIG. 2a and b. The two arrangements of the points of attachment of the web to the flanges and the form of the bending deflection. FIG.. Co-ordinate systems and notation.
12 2'5 P _ ;=~:',~'~=;i /4,,.i ~," ;~"=,'~.~ / 2- lli I~\~IIII I ;I',l~l ;,~ / D :i,, / -5 >w. ~ d] h = 25 d/h ~ 4 d/h~ ~o,~ \'~ X\\ ~S ~\\\ \\\\ \\ \\ \ \\ \\\ \k 3 6 ~ CORR.U~A.TION... AN~LE FIG. 3. Theshear-stiffnessvariationwhen2b/d=2.5,.3 CORRUG, ATION.D_o-I~GO FIG. 4. The shear-stiffness variation when 2b/d = 5.
13 2"5 2b ". ~'.o--" WEB, ATTACHED AT POINTS A /... WEB ATTACHED AT POINT5 B / I'$ 2< m.,5 Z "~ J ~ /l~ =4 d/h = 6 ~" " d/k = I..<~./-~-... ~ \ ~,/~<//'-.-.. ;z ~- x N/ N\ ", " '? I+ u) ujl, j~ / d/~ = as ~///~/h = 4o j////l~ =~o \ CORRUGAT ion.,fl ~N~LE FIG. 5. The shear-stiffness variation when 2b/d =. FIG CORRUGATION.S?..o > AN~LE The shear-stiffness variation when 2bid = 2,
14 T,U. {,~) POINTS OF ATTACHMENT AT CRESTS OF WAVES. /- -O, POINTS OF ATTACHMENT ALONG CENTRE-LINE. FIGS. 7a and b. Some typical displacement variations. 3 (8784) Wt. 65]48 Y,;_.5 63 Hw.
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