Modeling the long-term performance of granular materials under cyclic loading conditions is still a challenge and a better understanding could provide a large benefit for the design of foundations. One typical application example are the foundations of wind turbines, for which the evolution of the soil mechanical behavior could lead to irreversible strain accumulation (with tilting and settlement) and dynamic resonance problems [1]. In this framework the Discrete Element Method [2] can provide useful information starting from a micromechanical point of view: It may allow engineers to increase their knowledge on the evolution of the mechanical behavior and to optimize the long-term design of these structures [3]. The present paper presents t...
Using a series of true triaxial simulations, this study shows that the particulate discrete-element ...
A constitutive theory is developed for granular material undergoing arbitrarily large deformations. ...
Under cyclic loading, most soils change their characteristics. Cyclic behaviour (change of shear mod...
Modeling the long-term performance of granular materials under cyclic loading conditions is still a ...
<p>The present paper presents the capability of Discrete Element Method (DEM) to simulate a long-ter...
Abstract. While there have been many discrete element method (DEM) publications considering the micr...
Discrete Element Modeling (DEM) of cyclic behavior of granular material has been attempted to unders...
When discrete element method (DEM) simulations are carefully coupled with equivalent physical experi...
International audienceAn advanced understanding of the strain accumulation phenomenon in granular so...
Dynamic properties of the soil such as shear modulus and damping ratio are important parameters in t...
Dynamic properties of the soil such as shear modulus and damping ratio are important parameters in t...
Offshore wind turbine foundations are subject to 107 to 108 cycles of loadings in their designed ser...
© 2020, Springer Nature Switzerland AG. This paper presents the discrete element method (DEM) simula...
This paper summarises the potential of the Discrete Element Method (DEM) to simulate the behaviour o...
he soil experiences millions of load cycle from nature, i.e., earthquake or many geo-engineering str...
Using a series of true triaxial simulations, this study shows that the particulate discrete-element ...
A constitutive theory is developed for granular material undergoing arbitrarily large deformations. ...
Under cyclic loading, most soils change their characteristics. Cyclic behaviour (change of shear mod...
Modeling the long-term performance of granular materials under cyclic loading conditions is still a ...
<p>The present paper presents the capability of Discrete Element Method (DEM) to simulate a long-ter...
Abstract. While there have been many discrete element method (DEM) publications considering the micr...
Discrete Element Modeling (DEM) of cyclic behavior of granular material has been attempted to unders...
When discrete element method (DEM) simulations are carefully coupled with equivalent physical experi...
International audienceAn advanced understanding of the strain accumulation phenomenon in granular so...
Dynamic properties of the soil such as shear modulus and damping ratio are important parameters in t...
Dynamic properties of the soil such as shear modulus and damping ratio are important parameters in t...
Offshore wind turbine foundations are subject to 107 to 108 cycles of loadings in their designed ser...
© 2020, Springer Nature Switzerland AG. This paper presents the discrete element method (DEM) simula...
This paper summarises the potential of the Discrete Element Method (DEM) to simulate the behaviour o...
he soil experiences millions of load cycle from nature, i.e., earthquake or many geo-engineering str...
Using a series of true triaxial simulations, this study shows that the particulate discrete-element ...
A constitutive theory is developed for granular material undergoing arbitrarily large deformations. ...
Under cyclic loading, most soils change their characteristics. Cyclic behaviour (change of shear mod...