chapter 3 micromechanical analysis of a lamina volume fractions, weight fractions, density, and void...
TRANSCRIPT
![Page 1: Chapter 3 Micromechanical Analysis of a Lamina Volume Fractions, Weight Fractions, Density, and Void Content Dr. Autar Kaw Department of Mechanical Engineering](https://reader033.vdocuments.mx/reader033/viewer/2022061423/5697bf9b1a28abf838c92b6e/html5/thumbnails/1.jpg)
EML 4230 Introduction to Composite Materials
Chapter 3 Micromechanical Analysis of a Lamina
Volume Fractions, Weight Fractions,Density, and Void Content
Dr. Autar KawDepartment of Mechanical Engineering
University of South Florida, Tampa, FL 33620
Courtesy of the TextbookMechanics of Composite Materials by Kaw
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Volume Fractions
and ,vv
c
f = V fv
v
c
m = V m
1 = V + V mf
v = v + v cmf
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Weight Fractions
and ,w
w = W
c
ff
w
w = Wc
mm
1 = W + W mf
w = w + w cmf
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Volume and Weight Fractions
www
ρ = w
, = w
, = w
mfc
mm
ff
cc
and,v
v
v
m
f
c
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Volume and Weight Fractions
and ,V = W f
c
ff
V = W m
c
mm
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Volume and Weight Fractions
V
V + V
= W f
mf
m
f
m
f
f
V
V + V - 1
1 = W m
mm
m
fm
)(
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Density
vvv mfc mfc + =
v
v
v
v
c
m
c
f mfc + =
V + V = mmffc
m
m
f
f
c
W + W =
1
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Example
Example 3.1
A Glass/Epoxy lamina consists of a 70% fiber volume fraction. Use properties of glass and epoxy from Tables 3.1 and 3.2, respectively to determine the
a) density of lamina
b) mass fractions of the glass and epoxy
c) volume of composite lamina if the mass of the lamina is 4 kg.
d) volume and mass of glass and epoxy in part (c).
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Example
Property
Units
Graphite
Glass
Aramid
Axial modulus
Transverse modulus
Axial Poisson's ratio
Transverse Poisson's ratio
Axial shear modulus
Axial coefficient of thermal expansion
Transverse coefficient of thermal expansion
Axial tensile strength
Axial compressive strength
Transverse tensile strength
Transverse compressive strength
Shear strength
Specific gravity
GPa
GPa
- - -
- - -
GPa
μm/m/0C
μm/m/0C
MPa
MPa
MPa
MPa
MPa
- - -
230
22
0.30
0.35
22
-1.3
7.0
2067
1999
77
42
36
1.8
85
85
0.20
0.20
35.42
5
5
1550
1550
1550
1550
35
2.5
124
8
0.36
0.37
3
-5.0
4.1
1379
276
7
7
21
1.4
Table 3.1 Typical Properties of Fibers (SI system of units)
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Example
Property
Units
Epoxy
Aluminum
Polyamide
Axial modulus
Transverse modulus
Axial Poisson's ratio
Transverse Poisson's ratio
Axial shear modulus
Coefficient of thermal expansion
Coefficient of moisture expansion
Axial tensile strength
Axial compressive strength
Transverse tensile strength
Transverse compressive strength
Shear strength
Specific gravity
GPa
GPa
- - -
- - -
GPa
μm/m/0C
m/m/kg/kg
MPa
MPa
MPa
MPa
MPa
- - -
3.4
3.4
0.3
0.3
1.308
63
0.33
72
102
72
102
34
1.2
71
71
0.30
0.30
27
23
0.00
276
276
276
276
138
2.7
3.5
3.5
0.35
0.35
1.3
90
0.33
54
108
54
108
54
1.2
Table 3.2 Typical Properties of Matrices (SI system of units)
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Example
Property
Units
Graphite
Glass
Aramid
Axial Modulus
Transverse modulus
Axial Poisson's ratio
Transverse Poisson's ratio
Axial shear modulus
Axial coefficient of thermal expansion
Transverse coefficient of thermal expansion
Axial tensile strength
Axial compressive strength
Transverse tensile strength
Transverse compressive strength
Shear strength
Specific gravity
Msi
Msi
- - -
- - -
Msi
μin/in/0F
μin/in/0F
ksi
ksi
ksi
ksi
ksi
- - -
33.35
3.19
0.30
0.35
3.19
-0.7222
3.889
299.7
289.8
11.16
6.09
5.22
1.8
12.33
12.33
0.20
0.20
5.136
2.778
2.778
224.8
224.8
224.8
224.8
5.08
2.5
17.98
1.16
0.36
0.37
0.435
-2.778
2.278
200.0
40.02
1.015
1.015
3.045
1.4
Table 3.3 Typical Properties of Fibers (USCS system of units)
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Example
Property
Units
Epoxy
Aluminum
Polyamide
Axial modulus
Transverse modulus
Axial Poisson's ratio
Transverse Poisson's ratio
Axial shear modulus
Coefficient of thermal expansion
Coefficient of moisture expansion
Axial tensile strength
Axial compressive strength
Transverse tensile strength
Transverse compressive strength
Shear strength
Specific gravity
Msi
Msi
- - -
- - -
Msi
μin/in/0F
in/in/lb/lb
ksi
ksi
ksi
ksi
ksi
- - -
0.493
0.493
0.3
0.3
0.1897
35
0.33
10.44
14.79
10.44
14.79
4.93
1.2
10.30
10.30
0.30
0.30
3.915
12.78
0.00
40.02
40.02
40.02
40.02
20.01
2.7
0.5075
0.5075
0.35
0.35
0.1885
50
0.33
7.83
15.66
7.83
15.66
7.83
1.2
Table 3.4 Typical Properties of Matrices (USCS system of units)
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Example
Example 3.1
a)
mkg/ 2110 =
0.31200 + 0.72500 = 3
c ))(())((
and ,mkg/ 2500 = 3f mkg/ 1200 = 3
m
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Example
.mkg/ 2500 = 3f
Example 3.1
b)
and ,8294
2500
0. =
0.3 2110
= W f
0.1706 =
0.3 2110
1200 = W m
1.000 =
0.1706 + 0.8294 = W + W mf
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Example
c)
Example 3.1
c
cc
w
ν
2110
4
3310896.1 m
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Example
Example 3.1
d) cff V
)10 896.1(7.0 3
3310 327.1 m
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Example
Example 3.1
d) cmm V
)10 1896.0(3.0 -3
3-3 10 5688.0 m
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Example
Example 3.1
d) fffw ν
)10327.1)(2500( 3
kg 318.3
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Example
Example 3.1
d) mmmw ν
)10 5688.0)(1200( 3kg 6826.0
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Void Content
FIGURE 3.2 Photomicrographs of cross-section of a lamina with voids.
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Void Content
ν
ν
c
vv = V
ν + ν + ν = ν vmfc
and ν ,w = ce
cc ct
cw = ν + ν mf
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Void Content
thenν , + w= w
ct
c
ce
c
ct
cect
ce
c - w = νν
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Void Content
ct
cect - =
ν
ν = Vc
νν
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Example
Example 3.2
A Graphite/Epoxy cuboid specimen with voids has dimensions of and its mass is Mc. After putting it in a mixture of sulphuric acid and hydrogen peroxide, the remaining graphite fibers have a mass Mf. From independent tests, the densities of graphite and epoxy are ρf and ρm, respectively. Find the volume fraction of the voids in terms of a, b, c, Mf, Mc, ρf, and ρm.
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Example
ν + ν + ν = ν vmfc
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Example
and νf ,M = f
f
m
fc M - M = νm
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Example
abc = cν
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Example
νν + M - M + M = abcm
fc
f
f
m
fc
f
f M - M + Mabc
1 - 1 =
abc = ν
V
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Example
Alternative Solution
)(' V - 1 + V = fmffct
matrix of volume + fibers of volume
fibers of volume = V f
m
fc
f
f
f
f
f
M - M + M
M
= V
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Example
Alternative Solution
matrix of volume + fibers of volume
fibers of volume = V f
m
fc
f
f
f
f
f
M - M + M
M
= V
abcM = c
ce
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Example
Alternative Solution
m
fc
f
fv
M - M + M abc
1 - 1 = V
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Example
Alternative Solution
w
ic
cc
w - w
w =
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Example
Alternative Solution
w
wsc
cc
w-w + w
w =
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