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plot_strength.m
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plot_strength.m
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%plot_strength
set(0,'DefaultAxesLineWidth',1,...
'DefaultAxesFontSize',12,...
'DefaultAxesColor','none');
collist=[0,0,0;1,0,0;0,1,0;0,0,1;1,1,0;0,1,1;1,0,1;...
0.75,0.25,0.25;0.25,0.75,0.25;0.25,0.25,0.75];
ncolor=10;
icolor=0;
nz=100;
figure (ifig)
clf
hold on
axst=gca;% plotting strength envelope
hold on
axth=axes; % plotting temperature profile
hold on
axgs=axes; % plotting grain size profile
hold on
% axab=axes;
% hold on
labels=[];
nstep=100;
Stotal=0;
%plot strength and a-b
icolor=0;in=0;
for il=1:nlayer;
for im=1:model(il).nrock
for is=1:model(il).rock(im).nstr;
in=in+1;
if model(il).rock(im).str(is).law<0; %brittle law
z=[model(il).rock(im).str(is).ztop,model(il).rock(im).str(is).zbot];
labels(in).text='Brittle';
else
z=linspace(model(il).rock(im).str(is).ztop,model(il).rock(im).str(is).zbot,nstep);
labels(in).text=rock(model(il).irock(im)).rheol(model(il).rock(im).str(is).law).name;
end
if isa(model(il).rock(im).gs,'function_handle');
%can't use vector for z
stress=z*0;
grain=stress;
for iz=1:numel(z)
stress(iz)=model(il).rock(im).str(is).s(z(iz),e);
grain(iz)=model(il).rock(im).gs(stress(iz));
end
else %use vector for z
stress=model(il).rock(im).str(is).s(z,e);
grain=model(il).rock(im).gs;
end
Stotal=Stotal+(sum(stress)-(stress(1)+stress(end))/2)*(z(end)-z(1))/(numel(z)-1);
icolor=icolor+1;
plot(stress/1e6,z/1000,'color',collist(icolor,:),'Parent',axst);
plot(grain*1e6,z/1000,'color',collist(icolor,:),'Parent',axgs);
%plot thermal profile
z=linspace(model(il).rock(im).str(is).ztop,model(il).rock(im).str(is).zbot,100);
T=model(il).Temperature(z)-Celsius;
% ztop=model(1).str(1).ztop;
% zbot=model(end).scomb(end).zbot;
% z=ztop+(zbot-ztop)*[0:nz-1]/(nz-1);
% T=calc_T(z,Ts,Ti,G,del,thid)-Celsius;
plot(T,z/1000,'color',collist(icolor,:),'linewidth',2,'parent',axth);
end
% z0=model(il).ztop;
% Ptop=model(il).Ptop;
% rhog=model(il).rhog;
% for icomb=1:model(il).ncomb;
% ztop=model(il).scomb(icomb).ztop;
% zbot=model(il).scomb(icomb).zbot;
% z=ztop+(zbot-ztop)*[0:nz-1]'/(nz-1);
% stress=z*0;
% S=[];f=[];B=[];n=[];QRn=[];
% for im=1:model(il).nrock;
% irh=model(il).irheol(im,model(il).scomb(icomb).laws(im));
% if irh<0 %brittle law
% [S,f]=byerlee(did,-irh);
% stress=stress+...
% model(il).Ci(im)*...
% calc_stress(z,1,irh,...
% S,f,z0,Ptop,rhog,...
% B,n,m,p,QRn,e,Ts,Ti,G,del,thid);
% else % ductile law
% n=rock(model(il).irock(im)).rheol(irh).n;
% m=rock(model(il).irock(im)).rheol(irh).m;
% p=rock(model(il).irock(im)).rheol(irh).p;
% B=(rock(model(il).irock(im)).rheol(irh).A*...
% model(il).gs(im)^(-m)).^(-1/n);
% % 2.^((1+(3/n))/2).*...
% % (rock(model(il).irock(im)).rheol(irh).A*...
% % model(il).gs(im)^(-m)).^(-1/n);
% QRn=rock(model(il).irock(im)).rheol(irh).QR/n;
% for iz=1:nz;
% stress(iz)=stress(iz)+...
% model(il).Ci(im)*...
% calc_stress(z(iz),1,irh,...
% S,f,z0,Ptop,rhog,...
% B,n,m,p,QRn,e,Ts,Ti,G,del,thid);
% end
% end
% end
% icolor=icolor+1;
% plot(stress/1e6,z/1000,'color',collist(icolor,:),'Parent',axst);
end
end
%
% %plot a-b
% plot([0,0],[ztop,zbot]/1000,'k');
% Tbot=calc_T(zbot,Ts,Ti,G,del,thid)-Celsius;
% zlast=ztop;
% Tlast=calc_T(zlast,Ts,Ti,G,del,thid)-Celsius;
% zt=spline(T,z,150);
% if zt>zlast
% if zt>zbot
% plot(-0.01-[Tlast-150,Tbot-150]*1.5e-4,[zlast,zbot]/1000,'parent',axab);
% else
% plot(-0.01-[Tlast-150,0]*1.5e-4,[zlast,zt]/1000,'parent',axab);
% zlast=zt;
% Tlast=calc_T(zlast,Ts,Ti,G,del,thid)-Celsius;
% end
% end
% zt=spline(T,z,400);
% if (zt>zlast)
% if zt>zbot
% plot(-0.01*[1,1],[zlast,zbot]/1000,'parent',axab);
% else
% plot(-0.01*[1,1],[zlast,zt]/1000,'parent',axab);
% zlast=zt;
% plot(-0.01+[0,Tbot-400]*4e-4,[zlast,zbot]/1000,'parent',axab);
% end
% end
axstpos=get(axst,'Position');
axthpos=axstpos;
axthpos(3)=axstpos(3)/2;
axstpos(1)=axthpos(1)+axthpos(3);
axstpos(3)=axthpos(3);
axgspos=axstpos;
% axabpos=axthpos;
set (axst,'Position',axstpos,...
'Ydir','reverse',...
'Xdir','normal',...
'XAxisLocation','bottom',...
'YAxisLocation','left',...
'Color','none',...
'Xcolor','k',...
'Ycolor','k',...
'TickDir','in',...
'YTickLabel','');
set (axth,'Position',axthpos,...
'Ydir','reverse',...
'Xdir','reverse',...
'XAxisLocation','bottom',...
'YAxisLocation','right',...
'Color','none',...
'Xcolor','k',...
'Ycolor','k',...
'TickDir','in');
set (axgs,'Position',axthpos,...
'Ydir','reverse',...% 'Xdir','reverse',...
'xscale','log',...
'XAxisLocation','top',...
'YAxisLocation','left',...
'Color','none',...
'Xcolor','k',...
'Ycolor','k',...
'TickDir','in');
% set (axab,'Position',axabpos,...
% 'Ydir','reverse',...
% 'Xdir','reverse',...
% 'XAxisLocation','top',...
% 'YAxisLocation','right',...
% 'Color','none',...
% 'Xcolor','k',...
% 'Ycolor','k',...
% 'TickDir','in',...
% 'YTickLabel','');
set(get(axst,'xlabel'),'string','Stress (MPa)');
set(get(axst,'ylabel'),'string','Depth (km)');
set(get(axth,'xlabel'),'string','Temperature (\circ C)');
set(get(axgs,'xlabel'),'string','Grain size (\mum)');
% set(get(axab,'xlabel'),'string','a-b');
legend(labels.text,'Location','NorthWest')
orient landscape