A [(02/90)2]s graphite–epoxy laminate is cured at 175°C and then cooled to room temperature (20°C). After cooling, the flat laminate is trimmed to in-plane dimensions of 300×150 mm and mounted in an assembly that provides type S4 simple supports along all four edges. The x axis is defined parallel

Question

A[latex] [(0_{2}/90)_{2}]_{s}[/latex] graphite–epoxy laminate is cured at 175°C and then cooled to room temperature (20°C). After cooling, the flat laminate is trimmed to in-plane dimensions of 300×150 mm and mounted in an assembly that provides type S4 simple supports along all four edges. The x axis is defined parallel to the 300 mm edge (i.e., a = 0.3 m; b = 0.15 m). The laminate is then subjected to a uniform in-plane tensile loading [latex]N_{xx} = N_{yy} = 50 kN/m[/latex] and uniform transverse loading q(x,y) = 100 kPa. The temperature remains constant and no change in moisture content occurs (ΔM = 0). Plot the out-of-plane dis-placements induced along the centerline defined by y = 0.075 m. Use the properties listed for graphite–epoxy in Table 3 of Chap. 3, and assume each ply has a thickness of 0.125 mm.

Table 3 Nominal Material Properties for Common Unidirectional Composites
Property	Glass/epoxy	Kevlar/epoxy	Graphite/epoxy
[latex]E_{11}[/latex]	55 GPa (8.0 Msi)	100 GPa (15 Msi)	170 GPa (25 Msi)
[latex]E_{22}[/latex]	16 GPa (2.3 Msi)	6 GPa (0.90 Msi)	10 GPa (1.5 Msi)
[latex]ν_{12}[/latex]	0.28	0.33	0.30
[latex]G_{12}[/latex]	7.6 GPa (1.1 Msi)	2.1 GPa (0.30 Msi)	13 GPa (1.9 Msi)
[latex]σ_{11}^{fT}[/latex]	1050 MPa (150 ksi)	1380 MPa (200 ksi)	1500 MPa (218 ksi)
[latex]σ_{11}^{fC}[/latex]	690 MPa (100 ksi)	280 MPa (40 ksi)	1200 MPa (175 ksi)
[latex]σ_{22}^{yT}[/latex]	45 MPa (5.8 ksi)	35 MPa (2.9 ksi)	50 MPa (7.25 ksi)
[latex]σ_{22}^{yC}[/latex]	120 MPa (16 ksi)	105 MPa (15 ksi)	100 MPa (14.5 ksi)
[latex]σ_{22}^{fT}[/latex]	55 MPa (7.0 ksi)	45 MPa (4.3 ksi)	70 MPa (10 ksi)
[latex]σ_{22}^{fC}[/latex]	140 MPa (20 ksi)	140 Msi (20 ksi)	130 MPa (18.8 ksi)
[latex]τ_{12}^{y}[/latex]	40 MPa (4.4 ksi)	40 MPa (4.0 ksi)	75 MPa (10.9 ksi)
[latex]τ_{12}^{f}[/latex]	70 MPa (10 ksi)	60 MPa (9 ksi)	130 MPa (22 ksi)
[latex]α_{11}[/latex]	6.7 μ/m °C (3.7 μin./in. °F)	-3.6 μm/m °C (-2.0 μin./in. °F)	-0.9 μm/m °C (-0.5 μin./in. °F)
[latex]α_{22}[/latex]	25 μ/m °C (14 μin./in. °F)	58 μm/m °C (32 μin./in. °F)	27 μm/m °C (15 μin./in. °F)
[latex]β_{11}[/latex]	100 μm/m %M (100 μin./in. %M)	175 μm/m %M (175 μin./in. %M)	50 μm/m %M (50 μin./in. %M)
[latex]β_{22}[/latex]	1200 μm/m %M (1200 μin./in. %M)	1700 μm/m %M (1700 μin./in. %M)	1200 μm/m %M (1200 μin./in. %M)

Accepted Answer

A [latex][(0_{2}/90)_{2}]_{s}[/latex] graphite–epoxy laminate was also considered in Sample Problem 1, and numerical values for the [ABD] matrix are listed there. As before, the 12-ply laminate has a total thickness t = 1.5 mm and aspect ratio R = a/b = 2.0.
The double-Fourier series expansion of a uniform transverse loading was discussed in Sec. 4 of Chap. 9. The coefficients in the Fourier series expansion were found to be:

[latex]q_{xx} = \frac{16 q_{o}}{π^{2} mn},[/latex] [latex] m,n =[/latex] odd integers

Combining these coefficients with Eq. (28c) allows prediction of out-of-plane displacements. A plot of these displacements along the centerline of the plate defined by y = b/2 = 0.075 m is shown in Fig. 7. Curves are shown based on a 1-term expansion (i.e., m,n = 1), a 4-term expansion (m,n = 1,3), and a 9- term expansion (m,n = 1,3,5). As would be expected due to symmetry, out-of-plane displacement is maximum at the center of the plate. The solution rapidly converges. The maximum displacement predicted on the basis of a 1-, 4-, and 9-term expansion equals 5.27, 4.71, and 4.78 mm, respectively. If 100 terms were used (m,n = 1,3,...,19), the maximum predicted displacement is 4.77 mm.

[latex]w(x,y) = \frac{R^{4}b^{4}}{\pi ^{4}} \sum\limits_{m=1}^{\infty }{\sum\limits_{n=1}^{\infty }} \frac{q_{mn} sin(m\pi x/a) sin(n\pi y/b)}{[D_{11} m^{4} + 2(D_{12} +2D_{66}) (mnR)^{2}+ D_{22}(nR)^{4} + \frac{a^{2}}{\pi ^{2}} \left\{N_{xx} m^{2} +N_{yy} (nR)^{2}\right\} ]} [/latex] (28c)

Question 10.S.P.4: A [(02/90)2]s graphite–epoxy laminate is cured at 175°C and ...

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