Effect of interfacial adhesion and statistical fiber strength on tensile strength of unidirectional glass fiber/epoxy composites. Part. II: comparison with prediction

Abstract

Abstract An analytic model by Curtin and Takeda (Curtin WA, Takeda N. Tensile strength of fiber-reinforced composites: I. Model and effects of local fiber geometry. Journal of Composite Materials 1998;32(22):2042–59; Curtin WA, Takeda N. Tensile strength of fiber-reinforced composites: II. Application to polymer matrix composites. Journal of Composite Materials 1998;32(22):2060–81) is used to predict the ultimate tensile strength (UTS) of unidirectional (UD) glass fiber/epoxy composites with different interfacial adhesion and statistical fiber strength. Data for the fiber strength σc at the critical fiber length δc for five kinds of treated fibers are used for predicting UTS, which is obtained from both single fiber composite (SFC) and single fiber tension (SFT) tests. σc from SFC is attained using the Curtin theory on the fragmentation of SFC, while that from SFT is determined using a linear extrapolation of SFT data. Under good interface adhesion, the predicted UTS values based on the SFC data show the best agreement with measured ones at various fiber volume fractions, but a higher predicted value is obtained if the interface failure is matrix-controlled. For poor interfacial adhesion, the predicted UTS values are rather high compared to experimental ones due to the ineffective stress transfer. The predicted values based on the SFT data are much higher than the measured value for good interfacial adhesion.