A Comparative Investigation of the use of Laminate-Level Meso-Scale and Fracture-Mechanics-Enriched Meso-Scale Composite-Material Models in Ballistic-Resistance Analyses
Abstract
A critical assessment is provided of the typical laminate-level, classical meso-scale, and fracture-mechanics enriched meso-scale material models for continuous-fiber reinforced polymer matrix composites. Suitability of these material models for the use in structural-mechanics and ballistic-resistance computational analyses of the composite laminates is investigated by carrying out a series of computational studies in which a composite laminate is either subjected to in-plane tension/compression or bending or used as a target plate and impacted by a solid right circular cylindrical projectile. The results obtained suggest that the fracture-mechanics enriched meso-scale composite laminate material model, in which the fracture-mechanics character of micro-cracking is included within a damagemechanics formulation, is currently the best compromise between computational efficiency and physical-reality/ fidelity.
Document Details
- Document Type
- Technical Report
- Publication Date
- Apr 06, 2010
- Accession Number
- ADA588417
Entities
People
- Bryan A. Cheeseman
- C.‐F. Yen
- H. Marvi
- Mica Grujicic
- Temple He
Organizations
- Clemson University