The plot like a sine curve, maybe the code to calculate the deflecction of beam is incorrect.
I am unable to get the deflection of beam correctly and the plot is incorrect.Even when i am using the right code. Also i tryed to distribute my beam into sections.
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% Plot the bending of a beam with rectangular cross section
% The cross section is in the plane of y-z
% The longitudinal axis of the beam is parallel to the x axis
scale=50;
E= 1.999*10^11; % N/m2
nu = 0.3;
I= 7.74.*10^-7; % m^4
H = 0.0762;% m
R1 = 2224; % N
R2 = 2224; % N
P = 2224; % N
L = 3.0; % m
L1= 0.91; % m
L2= 2.09; %m
N=20;
x=(0:L/N:L);
DIM =size(x);
y= zeros(DIM);
figure(1)
plot(x,y,'.-')
axis equal
hold on
xlabel('Distance(m)')
ylabel('vertical deformation (m)')
title('Deformation of a beam')
xd=x;
yd=y;
for ii=1:length(x)
v=(1/E*I).*(2224*x(ii).^3/6)-(2208.021*x(ii)-(2224*(x(ii)-L1).^3/6)...
-(2224*(x(ii)-L2).^3/6));
yd(ii) = y(ii)+scale.*v;
end
figure(1)
plot(xd,yd,'o-')
axis equal
hold on
回答 (1 件)
VBBV
2024 年 2 月 12 日
編集済み: VBBV
2024 年 2 月 12 日
scale = 50;
E= 1.999*10^11; % N/m2
nu = 0.3;
I= 7.74.*10^-7; % m^4
H = 0.0762;% m
R1 = 2224; % N
R2 = 2224; % N
P = 2224; % N
L = 3.0; % m
L1= 0.91; % m
L2= 2.09; %m
N=50;
x=(0:L/N:L);
DIM =size(x);
y= zeros(DIM);
% figure(1)
% plot(x,y,'.-')
% axis equal
% yyaxis right
xd=x;
yd=y;
for ii=1:length(x)
v=(1/(E*I)).*((2224*x(ii)^3)/6-2208.021*x(ii)-(2224*(x(ii)-L1)^3)/6 ...
-(2224*(x(ii)-L2)^3)/6);
yd(ii) = y(ii)+scale.*v;
end
figure(1)
plot(xd,real(yd),'o-')
axis equal
xlabel('Distance(m)')
ylabel('vertical deformation (m)')
title('Deformation of a beam')
3 件のコメント
VBBV
2024 年 2 月 14 日
The code which you shared in question is modified to give outputs as shown in this thread. If you run the code, you would get a deflection curve shown from modified code with correct values. To obtain defelction in sections you need to split the equation as below
scale = 50;
E= 1.999*10^11; % N/m2
nu = 0.3;
I= 7.74.*10^-7; % m^4
H = 0.0762;% m
R1 = 2224; % N
R2 = 2224; % N
P = 2224; % N
L = 3.0; % m
L1= 0.91; % m
L2= 2.09; %m
N=50;
x=(0:L/N:L);
DIM =size(x);
y= zeros(DIM);
% figure(1)
% plot(x,y,'.-')
% axis equal
% yyaxis right
xd=x;
yd=y;
for ii=1:length(x)
v=(1/(E*I)).*((2224*x(ii)^3)/6-2208.021*x(ii)-(2224*(x(ii)-L1)^3)/6 ...
-(2224*(x(ii)-L2)^3)/6);
yd(ii) = y(ii)+scale.*v;
v1(ii) = (1/(E*I)).*(2224*x(ii)^3)/6; % section 1
v2(ii) = (1/(E*I)).*(-2208.021*x(ii)); % section 2
v3(ii) = (1/(E*I)).*(-2224*(x(ii)-L1)^3)/6; % section 3
v4(ii) = (1/(E*I)).*(-2224*(x(ii)-L2)^3)/6; % section 4
end
disp([v1.', v2.', v3.', v4.'])
figure(1)
plot(xd,real(yd),'o-')
axis equal
xlabel('Distance(m)')
ylabel('vertical deformation (m)')
title('Deformation of a beam')
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