Title :
An Exponential Damage Model for Strength of Fibrous Composite Materials
Author :
Owen, William J.
Author_Institution :
Richmond Univ., Richmond
Abstract :
When modeling experimental data observed from carefully performed tensile strength tests, statistical distributions are typically used to describe the strength of composite specimens. Recently, cumulative damage models derived for predicting tensile strength have been shown to be superior to other models when used to fit composite strength data. Here, an alternative model is developed which is based on an exponential cumulative damage approach. The model is shown to exhibit a similar structural form to the other models in the literature so that previous theory for cumulative damage models can be utilized to find parameter estimates.
Keywords :
Gaussian distribution; Weibull distribution; composite materials; failure analysis; parameter estimation; tensile strength; tensile testing; Gaussian distribution; Weibull distribution; cumulative damage model; exponential damage model; fibrous composite material; parameter estimation; statistical distribution; tensile strength test; Aerospace materials; Aircraft manufacture; Aluminum; Composite materials; Conducting materials; Gaussian distribution; Maximum likelihood estimation; Predictive models; Statistical distributions; Stress; Birnbaum-Saunders distribution; Weibull distribution; cumulative damage; inverse Gaussian distribution; size effect; tensile strength;
Journal_Title :
Reliability, IEEE Transactions on
DOI :
10.1109/TR.2007.903353
