The Durability of Fiber Composites—The Case for Mechanism-Based Models

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Volume 22, Issue 4 (October 2000)

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ISSN: 0884-6804
Page Count: 10

The Durability of Fiber Composites—The Case for Mechanism-Based Models
Spearing, SM
Esther and Harold E. Edgerton associate professor of Aeronautics and Astronautics, Massachusetts Institute of Technology, MA

Abstract

Long-duration durability (particularly fatigue) testing of composites is time consuming and expensive. There is, therefore, a stronger incentive to reduce reliance on such testing than in other areas of design. Mechanism-based models offer the potential to reduce the reliance on test programs. Such models have been derived for several fatigue damage mechanisms, notably: delamination, fiber-bridged cracking, and off-axis ply cracking. There has been less success at modeling fatigue processes at higher levels, such as at notches. Examples of existing models are presented from the literature, and their capabilities and deficiencies are discussed in the context of improving the processes of materials selection and design for durability. Key principles are advocated, including modeling damage propagation utilizing Paris-type expressions, the importance of length scales in modeling fatigue processes, and the need to improve the capability to model multiple, interacting, damage processes.

Keywords:
composites fatigue, composite damage, fatigue crack growth, mechanism-based models, notch tip damage

Paper ID: CTR10539J
DOI: 10.1520/CTR10539J
ASTM International is a member of CrossRef.

Author Title The Durability of Fiber Composites—The Case for Mechanism-Based Models 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 4 (October 2000) Click here to download this paper now for $25 PDF (632K) View License Agreement ISSN: 0884-6804 Page Count: 10 The Durability of Fiber Composites—The Case for Mechanism-Based Models Spearing, SM Esther and Harold E. Edgerton associate professor of Aeronautics and Astronautics, Massachusetts Institute of Technology, MA Abstract Long-duration durability (particularly fatigue) testing of composites is time consuming and expensive. There is, therefore, a stronger incentive to reduce reliance on such testing than in other areas of design. Mechanism-based models offer the potential to reduce the reliance on test programs. Such models have been derived for several fatigue damage mechanisms, notably: delamination, fiber-bridged cracking, and off-axis ply cracking. There has been less success at modeling fatigue processes at higher levels, such as at notches. Examples of existing models are presented from the literature, and their capabilities and deficiencies are discussed in the context of improving the processes of materials selection and design for durability. Key principles are advocated, including modeling damage propagation utilizing Paris-type expressions, the importance of length scales in modeling fatigue processes, and the need to improve the capability to model multiple, interacting, damage processes. Keywords: composites fatigue, composite damage, fatigue crack growth, mechanism-based models, notch tip damage Paper ID: CTR10539J DOI: 10.1520/CTR10539J ASTM International is a member of CrossRef. Author Title The Durability of Fiber Composites—The Case for Mechanism-Based Models Symposium , 0000-00-00 Committee D30