Probabilistic simulation of multi-scale composite behavior
Abstract
A methodology is developed to computationally assess the probabilistic composite material properties at all composite scale levels due to the uncertainties in the constituent (fiber and matrix) properties and in the fabrication process variables. The methodology is computationally efficient for simulating the probability distributions of material properties. The sensitivity of the probabilistic composite material property to each random variable is determined. This information can be used to reduce undesirable uncertainties in material properties at the macro scale of the composite by reducing the uncertainties in the most influential random variables at the micro scale. This methodology was implemented into the computer code PICAN (Probabilistic Integrated Composite ANalyzer). The accuracy and efficiency of this methodology are demonstrated by simulating the uncertainties in the material properties of a typical laminate and comparing the results with the Monte Carlo simulation method. The experimental data of composite material properties at all scales fall within the scatters predicted by PICAN.
- Publication:
-
NASA STI/Recon Technical Report N
- Pub Date:
- June 1993
- Bibcode:
- 1993STIN...9328633L
- Keywords:
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- Computerized Simulation;
- Fiber Composites;
- Matrix Materials;
- Mechanical Properties;
- Polymer Matrix Composites;
- Probability Theory;
- Laminates;
- Random Variables;
- Structural Mechanics