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This code is plotting incorrectly. The plot in the x-axis should range from 0 to 1 and right now it is -1 to 1.
Also, no curve is being plotted with the code below.
clear; clc;
% Given data
E_f = 228000; % Elastic modulus of the fiber
E_m = 1325; % Elastic modulus of the matrix
G_f = 15000; % Shear modulus of the fiber
G_m = 400; % Shear modulus of the matrix
t_L = 1/10; % Aspect ratio of beam
% Fiber volume fraction
f_f = 0:100:1;
% 0 is 0% fiber and 1 is 100% fiber content
% points to be plotted
% Elastic modulus of the composite
E_3c = (E_f*f_f)+(E_m*(1-f_f)); % MPa
% Shear modulus of the composite
G_3c = (((f_f/E_f)+((1-f_f)/E_m))^-1); % MPa
% Contribution of the shear to the beam deflection, z
ds_db = ((6/5)*(E_3c/G_3c)*((t_L)^2));
% Plotting
plot(f_f,ds_db, 'Color', 'blue');
grid on;
title('Contribution of Shear to Beam Deflection vs. Fiber Volume Fraction')
xlabel('Volume fiber fraction, f_f')
ylabel('Contribution of Shear to Beam Deflection, ds/db [MPa]')
hold on
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Respuestas (2)
VBBV
el 26 de En. de 2022
clear; clc;
% Given data
E_f = 228000; % Elastic modulus of the fiber
E_m = 1325; % Elastic modulus of the matrix
G_f = 15000; % Shear modulus of the fiber
G_m = 400; % Shear modulus of the matrix
t_L = 1/10; % Aspect ratio of beam
% Fiber volume fraction
f_f = 0:0.1:1; % give p
% 0 is 0% fiber and 1 is 100% fiber content
% points to be plotted
% Elastic modulus of the composite
E_3c = (E_f*f_f)+(E_m*(1-f_f)) % MPa
% Shear modulus of the composite
G_3c = (((f_f/E_f)+((1-f_f)/E_m)).^-1) % MPa
% Contribution of the shear to the beam deflection, z
ds_db = ((6/5)*(E_3c./G_3c).*((t_L).^2))
% Plotting
plot(f_f,ds_db, 'Color', 'blue');
grid on;
title('Contribution of Shear to Beam Deflection vs. Fiber Volume Fraction')
xlabel('Volume fiber fraction, f_f')
ylabel('Contribution of Shear to Beam Deflection, ds/db [MPa]')
hold on
check with this
1 comentario
Star Strider
el 26 de En. de 2022
It plots correctly if ‘f_f’ is defined correctly. The middle value for colon-operator generated sequences is the ‘step’ value, so that the interval from one value to the next is the ‘step’ value. See colon,: for details.
Anyway, with that change, it works —
% clear; clc;
% Given data
E_f = 228000; % Elastic modulus of the fiber
E_m = 1325; % Elastic modulus of the matrix
G_f = 15000; % Shear modulus of the fiber
G_m = 400; % Shear modulus of the matrix
t_L = 1/10; % Aspect ratio of beam
% Fiber volume fraction
f_f = 0:0.0100:1;
% 0 is 0% fiber and 1 is 100% fiber content
% points to be plotted
% Elastic modulus of the composite
E_3c = (E_f*f_f)+(E_m.*(1-f_f)); % MPa
% Shear modulus of the composite
G_3c = (((f_f/E_f)+((1-f_f)/E_m)).^-1); % MPa
% Contribution of the shear to the beam deflection, z
ds_db = ((6/5)*(E_3c./G_3c)*((t_L)^2))
% Plotting
plot(f_f,ds_db, 'Color', 'blue');
grid on;
title('Contribution of Shear to Beam Deflection vs. Fiber Volume Fraction')
xlabel('Volume fiber fraction, f_f')
ylabel('Contribution of Shear to Beam Deflection, ds/db [MPa]')
hold on
.
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