Download - Hw4
HW (4)
Example (1):
Givens:
Em = Ef50
= 4.6 Gpa
E f = 230 GPa
Gm = Em2.6
= 1.769 GPa
Gf = Ef2.5
= 92 GPa
Req:
E1 ,E2 , G12 , ν12
Sol:
E1 = V f.E f + V.Em) = 0.4*230) + (0.6*4.6 = (94.7GPa
E2 = Ef . Em
V f . Em+V m . Ef =
230∗4.6(0.4∗4.6)+(230∗0.6) = 7.55GPa
ν12 = νm.V m + ν f.V f) = 0.3*0.6) + (0.25*0.4 = (0.26
G12 = Gm .G f
V f .Gm+V m .G f =
1.769∗92(0.4∗1.769)+(0.6∗92) = 2.9 GPa
Example (2):
Req:: E1 , E2 , G12 , ν12 for the following material combinations:V m = 0.45 and V f = 0.55
a))E-glass and polyester(isophthalic)
From table 2.1: E-glass E f = 72.345GPaν f = 0.22Gf = 3.45 GPa
From table 2.4:Polyester Em = 3.4GPaνm = 0.38Gm = 75.9 GPa
E1 = V f .E f + V m.Em = (0.55*72.345) + (0.45*3.4) = 41.32
E2 = Ef . Em
V f . Em+V m . Ef =
72.345∗3.4(0.55∗3.4)+(72.345∗0.45) = 7.145GPa
ν12 = νm.V m + ν f.V f = (0.38*0.55) + (0.22*0.45) = 0.308
G12 = Gm .G f
V f .Gm+V m .G f =
75.9∗3.45(0.55∗75.9)+(0.45∗3.45) = 6.047GPa
b))S-glass and epoxy9310:
From table 2.1: S-glass E f = 85GPaν f = 0.22Gf = 4.8 GPa
From table 2.4:Epoxy9310 Em = 3.12GPaνm = 0.38Gm = 75.8 GPa
E1 = V f .E f + V m.Em = (0.55*85) + (0.45*3.12) = 48.154
E2 = Ef . Em
V f . Em+V m . Ef =
85∗3.12(0.55∗3.12)+(85∗0.45) = 6.635GPa
ν12 = νm.V m + ν f.V f = (0.38*0.55) + (0.22*0.45) = 0.308
G12 = Gm .G f
V f .Gm+V m .G f =
75.8∗4.8(0.55∗75.8)+(0.45∗4.8) = 8.297GPa
c))Carbon T300 and vinyl esler:
From table 2.1: Carbon T300 E f = 230GPaν f = 0.2Gf = 3.53 GPa
From table 2.4:Vinyl esler Em = 3.4GPa
νm = 0.38Gm = 82.7 GPaE1 = V f .E f + V m.Em = (0.55*230) + (0.45*3.4) = 128.03
E2 = Ef . Em
V f . Em+V m . Ef =
230∗3.4(0.55∗3.4)+(230∗0.45) = 7.421GPa
ν12 = νm.V m + ν f.V f = (0.38*0.55) + (0.2*0.45) = 0.299
G12 = Gm .G f
V f .Gm+V m .G f =
82.7∗3.53(0.55∗82.7)+(0.45∗3.53) = 6.202GPa
Example (3)
Select a matrix, to obtain material with E1>30Gpa and E1
E2
<3.5
Using matlab for different fibers and matrices we find that to get these conditions we use:
D-glass as fiber and Bismaleiraide as a matrix
Matlab code:
clear;clc;closeall;Vm = 0.24;Vf = 1-Vm;Ef = 55;Em = 3.583;E1 = (Vf*Ef)+(Vm*Em)E2 = (Em*Ef)/((Vf*Em)+(Vm*Ef))F = E1/E2
Output:
E1 = 42.6599
E2 =12.3761
F =3.4470