The material properties of the liner are as follows:
| Material Properties: Aluminum Liner | |
|---|---|
| Young's Modulus in x direction (MPa) | 72.0e9 |
| Poisson's ratio PRXY | 0.29 |
| Secant coefficients of thermal expansion | 5.0e-6 |
The material properties of the bonding matrix and reinforcing fibers are as follows:
| Material Properties: | Bonding Matrix | Reinforcing Fibers |
|---|---|---|
| Young's Modulus in x direction (MPa) | 8.82e9 | 161.3e9 - 8.82e9 |
| Young’s Modulus in y direction (MPa) | 8.82e9 | --- |
| Young’s Modulus in z direction (MPa) | 8.82e9 | --- |
| Poisson’s Ratio PRXY | 0.33 | --- |
| Poisson’s Ratio PRYZ | 0.33 | --- |
| Poisson’s Ratio PRXZ | 0.33 | --- |
| Secant coefficient of thermal expansion ALPX | --- | 1e-6 |
The fibers have a one-dimensional constitutive relation and are significantly stiffer than the bonding material. For simplicity, it is assumed that all materials in this problem are linear-elastic and temperature-independent.