Allen, D. H.; Harris, C. E.; Groves, S. E. A thermomechanical constitutive theory for elastic composites with distributed damage. I. Theoretical development. II. Application to matrix cracking in laminated composites. (English) Zbl 0634.73108 Int. J. Solids Struct. 23, 1301-1338 (1987). A continuum mechanics approach is utilized herein to develop a model for predicting the thermomechanical constitution of elastic composites subjected to both monotonic and cyclic fatigue loading. In this model the damage is characterized by a set of second-order tensor valued internal state variables representing locally averaged measures of specific damage states such as matrix cracks, fiber-matrix debonding, interlaminar cracking, or any other damage state. Locally averaged history dependent constitutive equations are posed utilizing constraints imposed from thermodynamics with internal state variables. In Part I the thermodynamics with internal state variables is constructed and it is shown that suitable definitions of the locally averaged field variables will lead to useful thermodynamic constraints on a local scale containing statistically homogeneous damage. Based on this result the Helmholtz free energy is then expanded in a Taylor series in terms of strain, temperature, and the internal state variables to obtain the stress-strain relation for composites with damage. In Part II the three-dimensional tensor equations developed in Part I are simplified using material symmetry constraints and are written in engineering notation. The resulting constitutive model is then cast into laminate equations and an example problem is solved and compared to experimental results. It is concluded that although the model requires further development and extensive experimental verification it may be a useful tool in characterizing the thermomechanical constitutive behavior of continuous fiber composites with damage. Cited in 12 Documents MSC: 74R99 Fracture and damage 74E30 Composite and mixture properties 74A20 Theory of constitutive functions in solid mechanics 74A15 Thermodynamics in solid mechanics Keywords:thermomechanical constitution; elastic composites; monotonic and cyclic fatigue loading; set of second-order tensor valued internal state variables; locally averaged measures; specific damage states; matrix cracks; fiber-matrix debonding; interlaminar cracking; thermodynamics with internal state variables; Helmholtz free energy; Taylor series; strain; temperature; stress-strain relation; three-dimensional tensor equations; material symmetry constraints PDFBibTeX XMLCite \textit{D. H. Allen} et al., Int. J. Solids Struct. 23, 1301--1338 (1987; Zbl 0634.73108) Full Text: DOI