Lengthscales as a Viable Tool for Investigating Damage in Composites

Abstract

The primary objective of this work is to investigate and identify lengthscale effects associated with damage in composite materials and their structures, and to determine how these lengthscales vary across levels of composites and can be used in assessing the overall response of composite structures. This is an advancement in a much larger pursuit towards developing a new methodology that utilizes composite failure and material data collected across all levels in order to predict the occurrence of damage and its effects at any operative level of composite structures. It is found that it is important to recognize two damage regimes, initiation and propagation, in characterizing lengthscales associated with damage modes. Identifying key lengthscales within each regime allows investigation of how the critical lengthscale(s) controlling the damage mode(s) change(s) across regimes. The concept of the “observable lengthscale” is identified as an important consideration when investigating lengthscales in experimental specimens and structures in that the observable lengthscale sets the ability to resolve damage and interactions of such. In a manner analogous to the “observable lengthscale,” key lengthscales of basic damage modes and of structural details need to be used when choosing the scale of finite element models so that models have a resolution at least as fine as the key lengthscale of the mode under investigation. The results of the work show that the concept of lengthscales is a viable tool to characterize the overall response of composite structures, particularly involving damage initiation, damage propagation, and overall failure. The determination of how these lengthscales vary across levels in composites provides an important tool that can be used to assess this overall response of composite structures.