Tripartite plot, How do I include the Spectral Velocity data points?

15 views (last 30 days)
frank Campbell
frank Campbell on 6 Feb 2019
Commented: philopateer metry on 13 Jun 2019
%**********************************************************
% to draw elastic design spectra from the earthquake data
% read the response spectrum values in this program
%**********************************************************
for k=.00001:.00001:.0001
x=0.01:1:100
t=log(2*pi*k)-log(x)
y=exp(t)
loglog(x,y,'k'),grid on
hold on
t=log(k*9.81/(2*pi))+log(x)
y=exp(t)
loglog(x,y,'k')
hold on
end
for k=.0001:.0001:.001
x=0.01:1:100
t=log(2*pi*k)-log(x)
y=exp(t)
loglog(x,y,'k'),grid on
hold on
t=log(k*9.81/(2*pi))+log(x)
y=exp(t)
loglog(x,y,'k')
hold on
end
for k=.001:.001:.01
x=0.01:1:100
t=log(2*pi*k)-log(x)
y=exp(t)
loglog(x,y,'k'),grid on
hold on
t=log(k*9.81/(2*pi))+log(x)
y=exp(t)
loglog(x,y,'k')
hold on
end
xlabel('period in secs')
ylabel('spectral velocity sv in cm/sec')
for k=.01:.01:.1
x=0.01:1:100
t=log(2*pi*k)-log(x)
y=exp(t)
loglog(x,y,'k'),grid on
hold on
t=log(k*9.81/(2*pi))+log(x)
y=exp(t)
loglog(x,y,'k')
hold on
end
for k=.1:.1:1
x=0.01:1:100
t=log(2*pi*k)-log(x)
y=exp(t)
loglog(x,y,'k'),grid on
hold on
t=log(k*9.81/(2*pi))+log(x)
y=exp(t)
loglog(x,y,'k')
hold on
end
for k=1:1:10
x=0.01:1:100
t=log(2*pi*k)-log(x)
y=exp(t)
loglog(x,y,'k'),grid on
hold on
t=log(k*9.81/(2*pi))+log(x)
y=exp(t)
loglog(x,y,'k')
hold on
end
for k=10:10:100
x=0.01:1:100
t=log(2*pi*k)-log(x)
y=exp(t)
loglog(x,y,'k'),grid on
hold on
t=log(k*9.81/(2*pi))+log(x)
y=exp(t)
loglog(x,y,'k')
hold on
end
for k=100:100:1000
x=0.01:1:100
t=log(2*pi*k)-log(x)
y=exp(t)
loglog(x,y,'k'),grid on
hold on
t=log(k*9.81/(2*pi))+log(x)
y=exp(t)
loglog(x,y,'k')
hold on
end
for k=1000:1000:10000
x=0.01:1:100
t=log(2*pi*k)-log(x)
y=exp(t)
loglog(x,y,'k'),grid on
hold on
t=log(k*9.81/(2*pi))+log(x)
y=exp(t)
loglog(x,y,'k')
end
axis([0.01 100 0.02 500])
% d=xlsread('svdata');
sv=xlsread('ELCENTRO.xlsx','Sheet1')
d=load(sv)
plot(d(:,1),100*d(:,2),'k')
plot(d(:,1),100*d(:,3),'k')
plot(d(:,1),100*d(:,4),'k')
plot(d(:,1),100*d(:,5),'k')
plot(d(:,1),100*d(:,6),'k')
text(0.2,0.02,'0.001');
text(0.6,0.1,'0.01');
text(2,0.3,'0.1');
text(7,1,'1');
text(20,3,'10');
text(80,10,'100')
text(20,1,'sd in cm')
xlabel(' period in sec')
ylabel('sv in cm/sec')
text(0.01,200,'100')
text(0.01,20,'10')
text(0.01,2,'1')
text(0.02,0.4,'0.1')
text(0.07,0.1,'0.01')
text(.02,0.8,'sa/g')
gtext(' no damping')
gtext(' damping=2%')
gtext(' damping=5%')
gtext(' damping=10%')
gtext(' damping=20%')
  1 Comment
philopateer metry
philopateer metry on 13 Jun 2019
first of all i would like to thank you for the code it was so helpfull, said that to answer your question you have to find the values of the pseudo velocity of the earthquake with two colomns the first is the period and the second colomn is in in/sec . if you are unable to do it send me the data and i'll do it for you.

Sign in to comment.

Sign in to answer this question.

Answers (0)

Categories

Find more on Earthquake Engineering in Help Center and File Exchange

Tags

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!