Table of Contents
Cover
Title
Copyright
List of Figures
Acknowledgements
Preface
Introduction
1 Phenomenological Aspects of Thermo-oxidative Ageing of OMCs
1.1. Effect of thermo-oxidation on the local mechanical behavior of the polymer
1.2. Study of matrix shrinkage induced by thermo-oxidation in unidirectional OMCs
2 Modeling of Thermo-oxidative Ageing of OMCs
2.1. Thermodynamics of irreversible processes with internal variables
2.2. Development of an ageing-dependent behavior law for organic polymers
2.3. Taking into account the initial inelastic and chemical strains
3 Identification and Simulations
3.1. Identifying the behavior law of thermo-oxidized polymers through the inverse analysis of ultra-micro-indentation tests
3.2. Identification of inelastic strains of chemical origin by inverse analysis of matrix shrinkage in unidirectional OMCs
Conclusion and Perspectives
Bibliography
Index
End User License Agreement
List of Tables
1 Phenomenological Aspects of Thermo-oxidative Ageing of OMCs
Table 1.1. Characteristic times τ
1
and τ
2
according to the partial pressure of oxygen (see also [GIG 16a, MIN 13, MIN 14])
Table 1.2. Local fiber volume fraction in zones A, B, C and D and the nominal value of the plate (see also [GIG 16b, GIG 16c])
2 Modeling of Thermo-oxidative Ageing of OMCs
Table 2.1. Values of the parameters of the evolutive law of γ for ageing in air at atmospheric pressure or under 2 bar O
2
. (see also [GIG 16a, MIN 13, MIN 14])
3 Identification and Simulations
Table 3.1. Parameters identified for the local behavior law of the virgin TACTIX polymer (see also [GIG 16a, MIN 13, MIN 14])
Table 3.2. Total inelastic strains identified by the Rayleigh–Ritz method and by the FE model (see also [GIG 16b, GIG 16c])