Study on Modified Dynamic Constitutive Model for Calcareous Sand considering Particle Breakage

Calcareous sand is special sand widely distributed in the South China Sea, which is characterized by the irregular particle shape, high porosity, easy-breaking, etc. Through a series of dynamic triaxial tests, this paper will study the influence of particle breakage on the dynamic deformation charac...

Full description

Saved in:
Bibliographic Details
Published inGeofluids Vol. 2022; pp. 1 - 11
Main Authors Chen, Huibin, Hou, Heying, Jiang, Pengming, Nong, Zhenzhen, Li, Tianxiang, Wang, Qing, Pan, Zhuojie
Format Journal Article
LanguageEnglish
Published Chichester Hindawi 26.04.2022
Hindawi Limited
Wiley
Subjects
Analysis
Breakage
Constitutive models
Crushing
Deformation
Dynamic characteristics
Effective stress
Irregular particles
Mathematical models
Mechanical properties
Modelling
Particle shape
Particle size
Porosity
Sand
Sand & gravel
Shear modulus
Stress state
Triaxial tests
Viscoelasticity
South China Sea
Online AccessGet full text

Cover

More Information
Summary:Calcareous sand is special sand widely distributed in the South China Sea, which is characterized by the irregular particle shape, high porosity, easy-breaking, etc. Through a series of dynamic triaxial tests, this paper will study the influence of particle breakage on the dynamic deformation characteristics of calcareous sand and explore a modified dynamic constitutive model considering particle breakage suitable for calcareous sand. The research shows that the dynamic deformation characteristics of calcareous sand can be described by the Hardin-Drnevich model. The maximum dynamic shear modulus and average effective stress of calcareous sand obey Janbu empirical formula, with approximate a linear relationship. Through screening experiment, it is found that there is a linear relationship between particle crushing rate and effective confining pressure. On the basis of Hardin-Drnevich, the dynamic constitutive model of calcareous sand considering the influence of particle breakage is established by introducing relative crushing rate Br and constitutive model parameters. By comparing with the experimental data, it is found that the relative error between the calculated value and the experimental value of the model is no more than 12%, and the average error is no more than 8%, indicating that the modified dynamic constitutive model can better predict the dynamic characteristics of calcareous sand.
ISSN:1468-8115
1468-8123
DOI:10.1155/2022/2755102