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Title: Matrix cracking of cross-ply ceramic composites

Journal Article · · Acta Metallurgica et Materialia; (United States)
;  [1]
  1. Harvard Univ., Cambridge, MA (United States). Division of Applied Sciences
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A micromechanics study is presented of the matrix cracking behavior of laminated, fiber-reinforced ceramic cross-ply composites when subject to tensile stressing parallel to fibers in the 0[degree] plies. Cracks extending across the 90[degree] plies are assumed to exist, having developed at relatively low tensile stresses by the tunnel cracking mechanism. The problem addressed in this study is the subsequent extension of these initial cracks into and across the 0[degree] plies. Of special interest is the relation between the stress level at which the matrix cracks are able to extend all the way through the 0[degree] plies and the well known matrix cracking stress for steady-state crack extension through a uni-directional fiber-reinforced composite. Depending on the initial crack distribution in the 90[degree] plies, this stress level can be as large as the uni-directional matrix cracking stress or it can be as low as about one half that value. The cracking process involves a competition between crack bridging by the fibers in the 0[degree] plies and interaction among multiple cracks. Crack bridging is modeled by a line-spring formulation where the nonlinear springs characterize the sliding resistance between fibers and matrix. Crack interaction is modeled by two representative doubly periodic crack patterns, one with collinear arrays and the other with staggered arrays. Material heterogeneity and anisotropy are addressed, and it is shown that a homogeneous, isotropic average approximation can be employed. In addition to conditions for matrix cracking, the study provides results which enable the tensile stress-strain behavior of the cross-ply to be predicted, and it provides estimates of the maximum stress concentration in the bridging fibers. Residual stress effects are included.

OSTI ID:
7028284
Journal Information:
Acta Metallurgica et Materialia; (United States), Vol. 42:6; ISSN 0956-7151
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
COMPOSITE MATERIALS
CRACK PROPAGATION
MATHEMATICAL MODELS
MATRIX MATERIALS
ORIENTATION
REINFORCED MATERIALS
STRESSES
THEORETICAL DATA
DATA
INFORMATION
MATERIALS
NUMERICAL DATA
360603* - Materials- Properties