The document analyzes the vibrational characteristics of a visco-elastic rectangular plate with thickness that varies cubically in the x-direction and linearly in the y-direction. Rayleigh-Ritz technique is used to derive a frequency equation. Time period and deflection are calculated for the first two vibration modes for varying thickness taper constants and aspect ratios. Results show time period decreases with increasing taper constants or aspect ratio, while deflection varies with position for different modes and times. The analysis provides insight into vibration properties of non-uniform plates important for applications like aerospace structures.
Hosoya polynomial, wiener and hyper wiener indices of some regular graphsieijjournal
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{u,v} V G
WW G d v,u d v,u .
Î
= + Also, the
Hosoya polynomial was introduced by H. Hosoya and define ( ) ( )
( )
,
{u,v} V G
, . d v u H G x x
Î
= In this
paper, the Hosoya polynomial, Wiener index and Hyper-Wiener index of some regular graphs are
determined.
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Hosoya polynomial, wiener and hyper wiener indices of some regular graphsieijjournal
Let G be a graph. The distance d(u,v) between two vertices u and v of G is equal to the length of a shortest
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The paper describes an approach for increasing of density of field-effect heterotransistors in a sense-amplifier based flip-flop. To illustrate the approach, we consider manufacturing of an amplifier of power in a heterostructure with specific configuration. One shall dope some specific areas of the heterostructure by diffusion or ion implantation. After that, it should be done optimized annealing of radiation defects and/or dopant. We introduce an approach for decreasing of stress between layers of heterostructure. Furthermore, it has been considered an analytical approach for prognosis of heat and mass transport in heterostructures, which can be take into account mismatch-induced stress.
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11.vibrational characteristics of visco elstic plate with varying thickness
1. Advances in Physics Theories and Applications www.iiste.org
ISSN 2224-719X (Paper) ISSN 2225-0638 (Online)
Vol 4, 2012
Vibrational Characteristics of C-C-C-C Visco-Elstic Plate with
Varying Thickness
Anupam Khanna*
Dept. Of Mathematics, Maharishi Markandeshwar University, Mullana, Ambala, Haryana (INDIA)
*E-mail of corresponding author: rajieanupam@gmail.com
Abstract
The main objective of the present study is to analyze vibrational characteristics of visco-elastic
rectangular plate whose thickness varies in two directions. Two dimensional variation of thickness is
considered as cubically in x-direction and linearly in y-direction. 4 Rayleigh- Ritz technique is used to get
convenient frequency equation. Time period (K) and deflection (w) i.e. amplitude of vibrating mode at
different instants of time for the first two modes of vibration are calculated for various values of taper
constant and aspect ratio.
Keywords: Visco-elastic, recatngular plate, variable thickness and vibration.
1. Introduction
In these days’ researchers, scientists and technocrats are in search of material having less weight, size, low
expenses, enhanced durability and strength. Now a days, plates of variable thickness commonly used in
Modern technology such as in aerospace, nuclear plants, power plants etc. It may also used for construction
of wings & tails of aero planes, rockets and missiles. There are different kinds of visco-elastic plates of
variable thickness such as rectangular plates, square plates, circular plates, parallelogramic plates.
Recent development in technology, such as aeronautical field, nuclear reactor etc., study of vibrations of
visco elastic isotropic plates with one directional varying thickness has great importance. But a very little
work have been done in this field of two dimensional varying thickness. Few papers are available on the
vibrations of uniform visco-elastic isotropic beams and plates.
It is assumed that rectangular visco-elastic plate is clamped support on all the four edges (C-C-C-C) and the
visco-elastic properties of the plate are of the ‘Kelvin’ type. All the material constants used in numerical
calculation have been taken for the alloy ‘DURALIUM’. Assuming that deflection is small so it is refered
to amplitude of vibrating mode.
Time period and deflection at different instant of time for first two modes of vibration for various values
of aspect ratio (a/b) and taper constants (β1 & β2) are calculated. All the above results are also illustrated
with graphs.
2. Analysis and Equation of Motion
The equation of motion of a visco-elastic isotropic plate of variable thickness is [4]:
[D1(∂4W/∂x4+2∂4W/∂x2∂y2+∂4W/∂y4)+2D1,x(∂3W/∂x3+∂3W/∂x∂y2)+2D1,y
∂ 3W/∂y3+∂3W/∂x2∂y)+D 2 2 2 2 2 2 2 2
1,xx(∂ W/∂x +ν∂ W/∂y )+D1,yy(∂ W/∂y +ν∂ W/∂x )
+2(1-ν)D1,xy∂2W/∂x∂y] - ρ h p2 W = 0 ------(1)
and .. ~
T+ p2 DT =0 -------(2)
where equations (1) and (2) are the differential equation of motion for isotropic plate of variable thickness
and time function for visco-elastic plate for free vibration respectively with a constant p2.
The expressions for Kinetic energy T and Strain energy V are [6]
14
2. Advances in Physics Theories and Applications www.iiste.org
ISSN 2224-719X (Paper) ISSN 2225-0638 (Online)
Vol 4, 2012
ab
T = (1/2) ρ p2 ∫ ∫ h W2 dxdy ----- (3)
00
and
ab
V=(1/2)∫ ∫D1{(∂2W/∂x2)2+(∂2W/∂y2)2+2ν(∂2W/∂x2)(∂2W/∂y2)+2(1-ν)(∂2W/∂x∂y)2} dx dy ---(4)
00
Assuming that the thickness variation of the plate in both directions as
h = h0(1 +β1x3/a3) ( 1 + β2y/b) -------(5)
The flexural rigidity of the plate can now be written as (assuming poisson’s ratio ν is constant)
D1= E h03 (1 +β1x3/a3)3 (1 + β2y/b)3/12( 1-ν2) ------- (6)
3. Solution and Frequency Equation
Rayleigh-Ritz technique is used to find the solution. This method requires maximum strain energy must
be equal to the maximum kinetic energy. So it is necessary for the problem under consideration that
δ(V-T)=0 ------ (7)
for arbitrary variations of W satisfying relevant geometrical boundary conditions.
For a rectangular plate clamped (c) along all the four edges, the boundary conditions are
W = W, x = 0 at x = 0, a and W= W, y = 0 at y = 0, b -------(8)
and the corresponding two-term deflection function is taken as [4]
W=[(x/a)(y/b)(1-x/a)(1-y/b)]2 [A1+A2(x/a)(y/b)(1-x/a)(1-y/b)] ----(9)
which is satisfied equations (8).
Assuming the non-dimensional variables as
X = x/a, Y= y/a, W=W/a, h =h/a -------(10)
and using equations (6) & (10) in equation (3) & (4), one obtains
1 b/a
T= (1/2) ρ p h0 a
2 5
∫ ∫ [ (1 +βX3) ( 1 + β2Ya/b)W2] dXdY ------(11)
00
and
1 b/a
V=Q ∫ ∫ [(1 +βX)3(1+β2Ya/b)3{(∂2W/∂X2)2+(∂2W/∂Y2)2+2ν(∂2W/∂X2)∂2W/∂Y2) +
00 2(1-ν)(∂2W/∂X∂Y)2} dX dY -------(12)
Substituting the values of T& V from (11) & (12) in equation (7), one obtains
(V* -λ2 p2 T*) = 0 ------- (13)
where
1 b/a
V*= ∫∫ [(1 +β1X)3 (1+β2Ya/b)3{(∂2W/∂x2)2+(∂2W/∂y2)2+2ν(∂2W/∂x2)(∂2W/∂y2)
00 +2(1-ν )(∂2W/∂x∂y)2}]dXdY ------(14)
and
15
3. Advances in Physics Theories and Applications www.iiste.org
ISSN 2224-719X (Paper) ISSN 2225-0638 (Online)
Vol 4, 2012
1 b/a
T* = ∫ ∫ [(1 +β1X)3 (1+β2 Y a/b)3 W2] dX dY -------- (15)
00
Here λ2 = 12ρ (1-ν 2) a2 / Eh02 ----------(16)
Equation (13) having the unknowns A1 & A2 arising due to the substitution of W from equation (9).
These two constants are to be determined from equation (13) as
∂(V* -λ2 p2 T*) /∂An = 0, n = 1, 2 --------(17)
After simplifying equation (17), one gets
bn1 A1 +bn2 A2 = 0, n =1 ,2 -------(18)
where bn1, bn2 (n=1,2) involve parametric constant and the frequency parameter.
For a non-trivial solution, the determinant of the coefficient of equation (18) must be zero. So one gets, the
frequency equation as
b11 b12
=0 --------- (19)
b21 b22
From equation (19), one can obtains a quadratic equation in p2 from which the two values of p2 can found. After
determining A1 & A2 from (18), one can obtain deflection function W as
W =[XY(a/b)(1-X)(1-Ya/b) ]2 [1 + (-b11/b12)X Y(a/b)(1-X)(1-Ya/b)] --------(20)
5. Time Functions of Visco-elastic Plates
Equation (2) is define as general differential equation of Time functions of free vibrations
~
of visco-elastic plate. It depends on visco-elastic operator D.
For Kelvin’s model, one have
~
D ≡ {1+ (η/G) (d/dt)} ------- (21)
After using equation (21) in equation (2), one obtains
T,tt + p2 (η/G ) T,t + p2 T = 0 ------(22)
Equation (22) is a differential equation of second order for time function T.
Solution of equation (22) will be [11] :
a t
T(t) = e 1 [ C1 Cosb1t + C2 Sinb1t ] ------(23)
where
a1 = - p2 η/2G & b1 = p √ 1 - (pη/2G )2 ------ (24)
and C1 ,C2 are constants which can be determined easily from initial conditions of the plate.
Assuming initial conditions as
T=1 & T,t = 0 at t=0 ------(25)
Using equation (25) in equation (23), one obtains
C1 = 1 & C2 = - a1/b1 ------ (26)
After using equation (26) in equation (23), one gets
a t
T(t) = e 1 [ Cosb1t +(- a1/b1) Sinb1t] -------(27)
Thus, deflection i.e. amplitude of vibrating mode w(x,y,t), which is equal to W(x,y)T(t), may be
expressed as
a t
w=[XY(a/b)(1-X)(1-Ya/b)]2[1+(-b11/b12)XY(a/b)(1-X)(1-Ya/b)]×[e 1 {Cosb1t+(-a1/b1)Sinb1t}] …(28)
by using equation (27) & equation (20).
Time period of the vibration of the plate is given by
K = 2 π/ p -----(29)
where p is frequency given by equation (19).
5. Result and Discussion
The values of time period (K) and deflection (w) for a isotropic visco-elastic rectangular plate for different
16
4. Advances in Physics Theories and Applications www.iiste.org
ISSN 2224-719X (Paper) ISSN 2225-0638 (Online)
Vol 4, 2012
values of aspect ratio a/b and taper constants β 1 & β2 at different points for first two modes of vibrations are
calculated. The following material parameters are used for calculation which is for DURALIUM reported
at [4]:
E = 7.08 × 1010 N/M2, G = 2.632 × 1010 N/M2, ν = 0.345, η =14.612 ×105 N.S/M2, ρ = 2.80 × 103
Kg/M3 . The thickness of the plate at the centre is taken as ho= 0.01 meter.
Computations have been made for calculating time period K and deflection w for different values of taper
constants β1 & β2 and aspect ratio a/b for first two modes of vibration.
Fig. 1 shows a steady decrease in time period K with increase of taper constant β1 for fixed aspect ratio
a/b(=1.5) and for two values of β2. It is simply seen that time period K decreases as taper constants increase
for both the modes of vibration.
Fig. 2 shows time period K for different values of aspect ratio a/b for both the modes of vibration for
uniform and non-uniform thickness having the following cases:
(i) β1 = β2 =0.0 (ii) β1 = β2 =0.6 ;
In both the above cases, one can note that time period K decreases as aspect ratio a/b increases for both the
modes of vibration.
Figs. 3, 4, 5 and 6respectively show the numerical values of deflection w for fixed aspect ratio a/b (=1.5)
for first two modes of vibration for different values of X for two values of Y i.e. Y=0.3 & Y=0.6 for the
following cases:
(i) Fig. 3: β1 = β2 =0.0 and Time is 0.K
(ii) Fig. 4: β1 = β2 =0.0 and Time is 5.K
(iii) Fig. 5: β1 = β2 =0.6 and Time is 0.K
(iv) Fig. 6: β1 = β2 =0.6 and Time is 5.K
For first and second mode of vibration in figs. 4, 5 and 6; separate figs. are given. In all above four figs.,
deflection w for first mode of vibration first increases and then decreases as X increases for different values
of Y (Y=0.3 & y=0.6) and for the second mode of vibration, deflection w first decreases and then increases
for Y=0.3 & Y=0.6.
References
B. Singh and V. Saxena (1996), “Transverse vibration of rectangular plate with bi-directional thickness
variation” Journal of Sound and Vibration 198, 51-65.
J.S. Tomar, and A. K. Gupta (1985), “Effect of thermal gradient on frequencies of an orthotropic
rectangular plate whose thickness varies in two directions”, J. Sound and Vibration 98, 257-262.
A. W. Leissa (1987), “Recent studies in plate vibration 1981-1985 part II, complicating effects”, The Shock
and Vibration Dig. 19, 10-24.
A.K.Gupta and A. Khanna (2007) “Vibration of visco-elastic rectangular plate with linearly thickness
variations in both directions”, J. Sound and Vibration.
A. W. Leissa (1969), “ Vibration of plate”, NASA SP-160.
Sanjay Kumar (2003), “Effect of thermal gradient on some vibration problems of orthotropic visco- elastic
plates of variable thickness”, Ph.D.Thesis, C.C.S.University, Meerut (India).
P. A. A. Laura, R. O. Grossi, and G. I. Carneiro (1979),” Transverse vibrations of rectangular plates with
thickness varying in two directions and with edges elastically restrained against rotation” , J.Sound and
Vibration 63, 499-505.
Gupta,A.K. and Khanna, Anupam (2008.), “Vibration of clamped visco-elastic rectangular plate with
parabolic thickness variations”, J. Shock and Vibration, USA,
17
5. Advances in Physics Theories and Applications www.iiste.org
ISSN 2224-719X (Paper) ISSN 2225-0638 (Online)
Vol 4, 2012
Gupta, A.K. and Kumar, Lalit (2008), “Thermal effect on vibration of non-homogenous visco-elastic
rectangular plate of linear varying thickness”, MECCANICA, ITALY,.
Fig. 1
610
a/b=1.5
510
410
K x 10-5 in sec.
At β2=0.2
Mode1
310 Mode2
210 At β2=0.6
Mode1
110 Mode2
10
0 0.2 0.4 0.6 0.8
β1
TIME PERIOD K Vs TAPER CONSTANT β1 OF
A CLAMPED VISCO-ELASTIC RECTANGULAR PLATE
Fig. 2
1800
At β1 =β2 =0.0
1600
Mode1
1400 Mode2
1200
K X 10-5 in Sec.
1000 At β1 =β2 =0.6
800
600 Mode1
Mode2
400
200
0
0.5 1 1.5 2
a/b
TIME PERIOD K Vs ASPECT RATIO a/b OF A
CLAMPED VISCO-ELASTIC RECTANGULAR PLATE
18
6. Advances in Physics Theories and Applications www.iiste.org
ISSN 2224-719X (Paper) ISSN 2225-0638 (Online)
Vol 4, 2012
Fig. 3 At
400 Y=0.6
350
Mode
1
300 Mode2
250 At
Y=0.3
200 Mode
w x 10-5
150 T=0.K, β1 = β2 = 1
Mode2
100
50
0
-50 0.2 0.4 0.6 0.8
-100
X
DEFLECTION w Vs X OF A
VISCO-ELASTIC RECTANGULAR PLATE
Fig.4a
180
160
Mode1
140 Y=0.6
120
Mode1
w x 10-5
100
Y=0.3
80
T=5.K, β1= β2 = 0.0, a/b=1.5
60
40
20
0
0.2 0.4 0.6 0.8
X
DEFLECTION w Vs X OF A CLAMPED
VISCO-ELASTIC RECTANGULAR PLATE
19
7. Advances in Physics Theories and Applications www.iiste.org
ISSN 2224-719X (Paper) ISSN 2225-0638 (Online)
Vol 4, 2012
Fig.4b
X
0
0.2 0.4 0.6 0.8
-2 Mode2
T=5.K, β1=β2=0.0, a/b=1.5 At Y=0.3
-4
Mode2
-6 At Y=0.6
w X 10-5
-8
-10
-12
-14
-16
DEFLECTION w Vs X OF A CLAMPED
VISCO-ELASTIC RECTANGULAR PLATE
Fig.5a
300
250
Mode1
At Y=0.6
200
Mode1
w X 10-5
At Y=0.3
150
100 T=0.K, β1=β2=0.6,a/b=1.5
50
0
0.2 0.4 X 0.6 0.8
DEFLECTION w Vs X OF A CLAMPED
VISCO-ELASTIC RECTANGULAR PLATE
cccc
20
8. Advances in Physics Theories and Applications www.iiste.org
ISSN 2224-719X (Paper) ISSN 2225-0638 (Online)
Vol 4, 2012
Fig.5b
X
0
0.2 0.4 0.6 0.8
-50
Mode2
-100 At Y=0.3
T=0.K, β1=β2=0.6,a/b=1.5
-150 Mode2
At Y=0.6
-200
w X 10-5
-250
-300
-350
-400
-450
-500
DEFLECTION w Vs X OF A CLAMPED
VISCO-ELASTIC RECTANGULAR PLATE
Fig.6a
60
50 Mode1
At Y=0.6
40 Mode1
At Y=0.3
w X 10-5
30
T=5.K, β1 = β2 =0.6,a/b=1.5
20
10
0
0.2 0.4 X 0.6 0.8
DEFLECTION w Vs X OF A CLAMPED
VISCO-ELASTIC RECTANGULAR
21
9. Advances in Physics Theories and Applications www.iiste.org
ISSN 2224-719X (Paper) ISSN 2225-0638 (Online)
Vol 4, 2012
Fig.6b
X
0
0.2 0.4 0.6 0.8
-10 Mode2
T=5.K, β1 = β2
At Y=0.3
=0.6, a/b=1.5
-20
Mode2
-30 At Y=0.6
w X 10-17
-40
-50
-60 DEFLECTION w
22
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