Description
Advanced composites are being widely used in aerospace applications due to their high stiffness, strength and energy absorption capabilities. However, the assurance of structural reliability is a critical issue because a damage event will compromise the integrity of composite structures and lead to ultimate failure. In this dissertation a novel homogenization based multiscale modeling framework using semi-analytical micromechanics is presented to simulate the response of textile composites. The novelty of this approach lies in the three scale homogenization/localization framework bridging between the constituent (micro), the fiber tow scale (meso), weave scale (macro), and the global response. The multiscale framework, named Multiscale Generalized Method of Cells (MSGMC), continuously bridges between the micro to the global scale as opposed to approaches that are top-down and bottom-up. This framework is fully generalized and capable of modeling several different weave and braids without reformulation. Particular emphasis in this dissertation is placed on modeling the nonlinearity and failure of both polymer matrix and ceramic matrix composites.
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Details
Title
- Micromechanics based multiscale modeling of the inelastic response and failure of complex architecture composites
Contributors
- Liu, Guang (Author)
- Chattopadhyay, Aditi (Thesis advisor)
- Mignolet, Marc (Committee member)
- Jiang, Hanqing (Committee member)
- Li, Jian (Committee member)
- Rajadas, John (Committee member)
- Arizona State University (Publisher)
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
2011
Subjects
- Mechanics
- Materials Science
- Aerospace Engineering
- Ceramic Matrix
- Composites
- Micromechanics
- Multiscale modeling
- Polymeric Matrix
- Textile Composites
- Aerospace Engineering
- Composite materials--Fracture--Mathematical models.
- Composite Materials
- Stress-strain curves--Mathematical models.
- Stress-strain curves
- Polymeric composites--Fracture--Mathematical models.
- Polymeric composites
Resource Type
Collections this item is in
Note
- thesisPartial requirement for: Ph.D., Arizona State University, 2011
- bibliographyIncludes bibliographical references (p. 167-172)
- Field of study: Aerospace engineering
Citation and reuse
Statement of Responsibility
by Kuang Liu