Undesired Graph for Transmissibility vs Frequency.

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Ankit Joshi
Ankit Joshi el 29 de Sept. de 2021
Comentada: Teja Narayana Reddy Peta el 14 de Nov. de 2022
Greetings All,
I've been wokring on a 4DOF model problem and I am not able to get the desired result for Transmissibility graph of the system. As it is a 4DOF system, the graph should have 4 peaks, but I'm only getting one peak.
The transmissibility if of the 4th system.
Following is the code:
clear all;clc;
% Displacement and Velocity Calculation
tspan = [0 4]; % Time (sec)
ic = [0.04 -0.02 0.05 -0.04 0 0 0 0]; % Initial conditions
[t,x]=ode45(@fourforceddamped,tspan,ic);
x_ = x(:,1:4); % All Displacement
xdot_ = x(:,5:8); % All Velocity
% Acceleration Calculation
m1 = 95; m2 = 945; m3 = 10; m4 = 80; % Mass(kg)
c1 = 800; c2 = 2000; c3 = 1200; c4 = 1200; % Damping Coefficient
k1 = 660000; k2 = 86000; k3 = 1000; k4 = 10000; % Stiffness
F = (m1+m2+m3+m4)*30; %Input force
M = [m1 0 0 0; 0 m2 0 0; 0 0 m3 0; 0 0 0 m4];
C = [c1+c2 -c2 0 0; -c2 c2+c3 -c3 0; 0 -c3 c3+c4 -c4; 0 0 -c4 c4];
K = [k1+k2 -k2 0 0; -k2 k2+k3 -k3 0; 0 -k3 k3+k4 -k4; 0 0 -k4 k4];
[e,d]=eig(K,M);
w=sqrt(abs(d));
a1 = (F)/M(1) -K(1)/M(1) * x(:,1) - K(2)/M(1) * x(:,2) -C(1)/M(1) * x(:,5) - C(2)/M(1) * x(:,6) ;
a2 = -K(5)/M(6) * x(:,1) - K(6)/M(6) * x(:,2) - K(7)/M(6) * x(:,3) -C(5)/M(6) * x(:,5) - C(6)/M(6) * x(:,6) - C(7)/M(6) * x(:,7) ;
a3 = -K(10)/M(11) * x(:,2) - K(11)/M(11) * x(:,3) - K(12)/M(11) * x(:,4) -C(10)/M(11) * x(:,6) - C(11)/M(11) * x(:,7) - C(12)/M(11) * x(:,8) ;
a4 = -K(15)/M(16) * x(:,3) - K(16)/M(16) * x(:,4) -C(15)/M(16) * x(:,7) - C(16)/M(16) * x(:,8) ;
z=c4/(2*sqrt(m4*k4));
om=0:1000;
fr1=om/w(1);
fr2=om/w(6);
fr3=om/w(11);
fr4=om/w(16);
T1=sqrt((1+(2.*fr1.*z).^2)./((1-fr1.^2).^2+(2.*fr1.*z).^2));
T2=sqrt((1+(2.*fr2.*z).^2)./((1-fr2.^2).^2+(2.*fr2.*z).^2));
T3=sqrt((1+(2.*fr3.*z).^2)./((1-fr3.^2).^2+(2.*fr3.*z).^2));
T4=sqrt((1+(2.*fr4.*z).^2)./((1-fr4.^2).^2+(2.*fr4.*z).^2));
plot(om,T1);
plot(om,T2);
plot(om,T3);
plot(om,T4);
hold on;
grid on;
% ODE Function
function dxdt = fourforceddamped(t,x)
m1 = 95; m2 = 945; m3 = 10; m4 = 80; % Mass(kg)
c1 = 800; c2 = 2000; c3 = 1200; c4 = 1200; % Damping Coefficient
k1 = 660000; k2 = 86000; k3 = 1000; k4 = 10000; % Stiffness
F = (m1+m2+m3+m4)*30;
M = [m1 0 0 0; 0 m2 0 0; 0 0 m3 0; 0 0 0 m4];
C = [c1+c2 -c2 0 0; -c2 c2+c3 -c3 0; 0 -c3 c3+c4 -c4; 0 0 -c4 c4];
K = [k1+k2 -k2 0 0; -k2 k2+k3 -k3 0; 0 -k3 k3+k4 -k4; 0 0 -k4 k4];
[e,d]=eig(K,M);
w=sqrt(abs(d));
dxdt = zeros(8,1) ;
% x(1),x(2),x(3)and x(4) are displacement of mass m1, m2, m3 & m4 respectively
dxdt(1) = x(5) ; % velocity of mass m1
dxdt(2) = x(6) ; % velocity of mass m2
dxdt(3) = x(7) ; % velocity of mass m3
dxdt(4) = x(8) ; % velocity of mass m4
dxdt(5) = (F)/M(1) -K(1)/M(1) * x(1) - K(2)/M(1) * x(2) -C(1)/M(1) * x(5) - C(2)/M(1) * x(6) ;
dxdt(6) = -K(5)/M(6) * x(1) - K(6)/M(6) * x(2) - K(7)/M(6) * x(3) -C(5)/M(6) * x(5) - C(6)/M(6) * x(6) - C(7)/M(6) * x(7) ;
dxdt(7) = -K(10)/M(11) * x(2) - K(11)/M(11) * x(3) - K(12)/M(11) * x(4) -C(10)/M(11) * x(6) - C(11)/M(11) * x(7) - C(12)/M(11) * x(8) ;
dxdt(8) = -K(15)/M(16) * x(3) - K(16)/M(16) * x(4) -C(15)/M(16) * x(7) - C(16)/M(16) * x(8) ;
end

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Sulaymon Eshkabilov
Sulaymon Eshkabilov el 30 de Sept. de 2021
This is how you should plot it in this way:
...
T4=sqrt((1+(2.*fr4.*z).^2)./((1-fr4.^2).^2+(2.*fr4.*z).^2));
loglog(om, T1+T2+T3+T4, 'b', 'linewidth', 2) % This is logarithmic scaled plot
grid on
xlabel('Frequency, Hz')
ylabel('|T|')
...
  3 comentarios
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Sulaymon Eshkabilov
Sulaymon Eshkabilov el 30 de Sept. de 2021
Most Welcome! Glad to help.
Teja Narayana Reddy Peta
Teja Narayana Reddy Peta el 14 de Nov. de 2022
what is the code for single dregree to find acceleration?
for k=152000000, c=32000 m=25400 y=0.01 driving frequency(w) = 157.079
need to find Max Acceleration.
graph for Displacement ratio (T.R.) versus frequency ratio • Force transmissibility versus frequency ratio . • Maximum acceleration versus frequency ratio. • Steady state displacement (xp(t)) versus time. Plot it for at least 5 periods of oscillation.
can any one please help me

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Sulaymon Eshkabilov
Sulaymon Eshkabilov el 29 de Sept. de 2021
You'd need to plot in this way:
plot(om,T1); hold on
plot(om,T2);
plot(om,T3);
plot(om,T4);
grid on;
hold off
OR
plot(om, [T1; T2; T3; T4])
  2 comentarios
Ankit Joshi
Ankit Joshi el 29 de Sept. de 2021
This happens, However, the transmissibility graph is usually one single line with 4 Peaks on it.
Ankit Joshi
Ankit Joshi el 29 de Sept. de 2021
Something Like this

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