A thermodynamics-based critical state constitutive model for methane hydrate bearing sediment

Indexed by:Journal Papers

Journal:JOURNAL OF NATURAL GAS SCIENCE AND ENGINEERING

Included Journals:SCIE、EI、Scopus

Volume:27

Page Number:1024-1034

ISSN No.:1875-5100

Key Words:Constitutive model; Thermodynamics; Hydrate; Dilatancy; Yield surface

Abstract:A constitutive model is proposed to analyze the mechanical behavior of methane hydrate-bearing sediment (MHBS) based on thermodynamic principles and the critical state concept. This new model is developed based on a more generalized mechanical dissipation hypothesis compared to conventional models and describes more significant mechanical properties of MHBS, such as the non-elliptical yield surface and different slopes of the critical line in different deviatoric stress directions, by introducing two spacing ratios. The non-associated flow rule is based on Ziegler's orthogonality condition instead of a plastic potential function, which guarantees that the model does not violate the laws of thermodynamics. The shape of the yield surface governed by the spacing ratios gamma and alpha influences the stress strain curve and dilatancy behavior. It is necessary to provide a precise description of the spacing ratio and the shape of the yield surface. The model can predict the stress softening and dilatancy during the drained shearing process for specimens with different hydrate saturations and different hydrate accumulation habits. The satisfactory performance of the model is demonstrated. (C) 2015 Elsevier B.V. All rights reserved.

Date of Publication:2015-11-01