*PARAMETER TABLE TYPE,  NAME="CTE",  PARAMETER = 2
	 FLOAT
         FLOAT
*Material, name=cure_material
*ParameterTable, type="CTE", label="RESIN_CTE"
**cte_r, cte_g
178e-6,71e-6
*Density
1100
*Elastic,dependencies=1,moduli=instantaneous
**liquid
9.99e4,0.49,,0
9.99e4,0.49,,0.49
**solid glassy state(doc > 0.5)
2.6e9,0.38,,0.5
2.6e9,0.38,,1
*Viscoelastic, time=PRONY
0.113,,10
0.035,,200
0.102,,1369
0.092,,15e3
0.09,,15e4
0.249,,15e5
0.28,,15e6
2.06e-8,,15e7 
0.003,,15e8
0.018,,15e9
0.0002,,15e10
0.0003,,15e11
0.002,,15e12 
0.005,,15e13
*trs,definition=tabular,DEPENDENCIES=2
**rubbery, TGTdiff < 0
**glassy, TGTdiff > 0
-20,,,-100
-20,,,0
35,,,0.01
35,,,200
*expansion,user
*conductivity
0.3
*specific heat
991.35,40
1141.35,90
*Cure Kinetics, Definition=Kamal
274906.7,6601.65,0.25,1.01
*Cure Heat Generation
 482e3
*cure shrinkage
0.018
*cure glass transition temperature,definition=DIBENEDETTO
**Tg0,Tginf,lambda
-41,136,0.44
*User Defined Field, type=specified
 1, DOC
 2,TGTDIFF
*Material,name=fiber
*density
2540
*conductivity
1.0
*specific heat
800
*Elastic,type=isotropic
76e9,0.22
*expansion
4.9e-6
*Material, name=Mat0
*meanfieldhomogenization,formulation=mt
*constituent,type=matrix,name=mtmatrix,material=cure_material
*constituent,type=inclusion,material=fiber,name=fiber0,shape=cylinder,direction=fixed
0.55,,1,0,0
*Material, name=Mat90
*meanfieldhomogenization,formulation=mt
*constituent,type=matrix,name=mtmatrix90,material=cure_material
*constituent,type=inclusion,material=fiber,name=fiber90,shape=cylinder,direction=fixed
0.55,,0,0,1