Mechanism-Based Modeling of Long-Term Degradation

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Volume 22, Issue 3 (July 2000)

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ISSN: 0884-6804
Page Count: 7

Mechanism-Based Modeling of Long-Term Degradation
McManus, HL
Massachusetts Institute of Technology, MA

Foch, BJ
Space Systems/Loral, CA

Cunningham, RA
The Boeing Company, WA

Abstract

The use of composites in high-temperature, long-lifetime applications requires a basic understanding of composite degradation mechanisms, advances in analytical capabilities, and accurate accelerated and scaled tests. To advance all of these goals, models are proposed based on a variety of fundamental material mechanisms. Thermal, oxygen, and moisture diffusion, chemical reactions, composite micromechanics, modified laminated plate theory, and fracture mechanics based damage models are used. All models are designed to stay as simple and fundamental as possible. All are coupled, so that interactions between various effects are modeled implicitly. Ongoing efforts at MIT are reviewed here, with some reference to other work, but no attempt is made to do a comprehensive review. Mechanism-based models are yielding an understanding of the mechanisms behind observed degradation phenomena, helping to design accelerated tests, and are the first steps toward a predictive capability.

Keywords:
degradation, long-term degradation, modeling

Paper ID: CTR10634J
DOI: 10.1520/CTR10634J
ASTM International is a member of CrossRef.

Author Title Mechanism-Based Modeling of Long-Term Degradation Symposium , 0000-00-00 Committee D30

		Home Journals STPs Manuals Topics Subscriptions/Pricing Digital Library / Journal of Composites Technology and Research (JCTR) / Citation Page Volume 22, Issue 3 (July 2000) Click here to download this paper now for $25 PDF (432K) View License Agreement ISSN: 0884-6804 Page Count: 7 Mechanism-Based Modeling of Long-Term Degradation McManus, HL Massachusetts Institute of Technology, MA Foch, BJ Space Systems/Loral, CA Cunningham, RA The Boeing Company, WA Abstract The use of composites in high-temperature, long-lifetime applications requires a basic understanding of composite degradation mechanisms, advances in analytical capabilities, and accurate accelerated and scaled tests. To advance all of these goals, models are proposed based on a variety of fundamental material mechanisms. Thermal, oxygen, and moisture diffusion, chemical reactions, composite micromechanics, modified laminated plate theory, and fracture mechanics based damage models are used. All models are designed to stay as simple and fundamental as possible. All are coupled, so that interactions between various effects are modeled implicitly. Ongoing efforts at MIT are reviewed here, with some reference to other work, but no attempt is made to do a comprehensive review. Mechanism-based models are yielding an understanding of the mechanisms behind observed degradation phenomena, helping to design accelerated tests, and are the first steps toward a predictive capability. Keywords: degradation, long-term degradation, modeling Paper ID: CTR10634J DOI: 10.1520/CTR10634J ASTM International is a member of CrossRef. Author Title Mechanism-Based Modeling of Long-Term Degradation Symposium , 0000-00-00 Committee D30