i have a problem to find local stresses for [0 60 30 -45]. can i have a complete coding for it?
Composite Programme ABBD Matrix Trouble
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Hi guys,
I am trying to create ABBD matrices for this programme but I am having a lot of trouble in getting the thicknesses from the mid plane all into the one matrix so that I can index them from there and calculate the ABBD matrices
I anybody could provide me with the code or an answer I would be extremely greatful
Stephen
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clear all
%MatLab Programme by Stephen Trainor
%21/01/12
% PROGRAMME INPUTS%
%lay-up properties%
fibre_angle = [0 0 45 -45 -45 45 0 0];%angle of plies
thickness = [0.125 0.125 0.125 0.125 0.125 0.125 0.125 0.125];%ply thickness
material = [1 1 1 1 1 1 1 1];%material of ply %material properties%
El(1)=138*10^9; %pascals
Et(1)=10.4*10^9; %pascals
Glt(1)=4.84*10^9;%pascals vlt(1)=0.25;
%if other material properties, input as El(2), El(3)....etc
%Loading; input the predetermine stress OR strain
Sigma=[0;601927;6.01927];% Applied stress matrix
Eps=[0;0;0];% Applied strain matrix
Sigmastar=Sigma/thickness(1)%averaged laminate stresses
Epsstar=Eps/thickness(1); %averaged laminate strains
%Qstar Inputs%
x=2; %the fraction relating the number of times the angle is reoccurring
a=1; %fraction of first angle
b=0; %fraction of second angle
c=0; %fraction of third angle
d=1; %fraction if angle is 0
e=0; %fractin if angle is 90
%no more programme inputs
%%%%------------------------------------------------------------%%%%
%MAIN PROGRAMME%
%%%%------------------------------------------------------------%%%%
%calculating all parts of Q matrix
Q11 = El/(1-((vlt^2)*Et/El))
Q22 = Et/(1-((vlt^2)*Et/El))
Q12 = (vlt*Et)/(1-((vlt^2)*Et/El))
Q66 = Glt
Q=[Q11,Q12,0; Q12,Q22,0; 0,0,Q66];
%angles to radians%
fibre_radians=(3.14/180)*fibre_angle;
num=size(fibre_angle); %used in transformation loop
num=num(2); %number of plies in laminate
%creating equivalent laminate
hsize=size(thickness);
hisize=hsize(2);
h=zeros(1,hsize+1);
h=sum(thickness);
%Generate ABBD
A=zeros(3,3);
B=zeros(3,3);
D=zeros(3,3);
hh=zeros(1,hsize+1);
for ii=1:hsize+1;
hh(ii)=-(h-(ii-1)*thickness)+h/2;
end
for ii=1:3;
for jj=1:3;
for kk=1:nplies;
A(ii,jj)=A(ii,jj)+Qh(kk,ii,jj)*(hh(kk+1)-hh(kk));
B(ii,jj)=B(ii,jj)+(1/2)*Qh(kk,ii,jj)*(hh(kk+1)^2-hh(kk)^2);
D(ii,jj)=D(ii,jj)+(1/3)*Qh(kk,ii,jj)*(hh(kk+1)^3-hh(kk)^3);
end
end
end
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