An overview on advances in computational fracture mechanics of rock
Due to its complexities, rock fracturing process still poses many pressing challenges despite
intense research efforts. With the rapid development of computational mechanics, numerical …
intense research efforts. With the rapid development of computational mechanics, numerical …
Implementation of extrinsic cohesive zone model (ECZM) in 2D finite-discrete element method (FDEM) using node binding scheme
The combined finite-discrete element method (FDEM) has been widely used for rock
fracturing simulations. Conventionally, FDEM is realized using the intrinsic cohesive zone …
fracturing simulations. Conventionally, FDEM is realized using the intrinsic cohesive zone …
Simulations of interaction between flow and a thin elastic beam using CIP-based model with adaptive mesh
Y Zong, CH Yu, X Zhao - Ocean Engineering, 2023 - Elsevier
The simulation of interaction between flow and the elastic structure is a complicated fluid-
solid interaction problem, involving the structure's large deformation and fluid interface …
solid interaction problem, involving the structure's large deformation and fluid interface …
Fluid interface detection technique based on neighborhood particles centroid deviation (NPCD) for particle methods
Particle‐based CFD methods are powerful approaches to investigate free surface,
multiphase flows, and fluid structure interaction problems because of their ability of tracking …
multiphase flows, and fluid structure interaction problems because of their ability of tracking …
A numerical study of the effects of bottom and sidewall stiffeners on sloshing behavior considering roll resonant motion
In the present study, aiming to provide practical guidance for the structural design, the effects
of the small bottom and sidewall stiffeners on sloshing loads in shallow and intermediate …
of the small bottom and sidewall stiffeners on sloshing loads in shallow and intermediate …
Three‐dimensional weakly compressible moving particle simulation coupled with geometrically nonlinear shell for hydro‐elastic free‐surface flows
A three‐dimensional fluid–structure interaction solver based on an improved weakly
compressible moving particle simulation (WC‐MPS) method and a geometrically nonlinear …
compressible moving particle simulation (WC‐MPS) method and a geometrically nonlinear …
Numerical study on performance of perforated breakwater for green water
In this work, the influence of the geometry of lightweight perforated breakwaters on its
performance against green water impact loads is investigated systematically through a …
performance against green water impact loads is investigated systematically through a …
3D WC-MPS coupled with geometrically nonlinear shell for hydro-elastic free-surface flows
A 3D fluid-structure interaction solver based on an improved weakly-compressible moving
particle simulation (WC-MPS) method and a geometrically nonlinear shell structural model is …
particle simulation (WC-MPS) method and a geometrically nonlinear shell structural model is …
Numerical study on performance of perforated breakwater for green water
In this work, the influence of the geometry of lightweight perforated breakwaters on their
performance against green water impact loads is investigated systematically through a …
performance against green water impact loads is investigated systematically through a …
Moving particle simulation with solid-solid contact
RA Amaro Junior, PHS Osello… - … V: proceedings of the V …, 2017 - upcommons.upc.edu
Problems of fluid-structure interaction with free surface flow and multi-body interactions are
highly nonlinear and complex phenomena, which is challenging for computational modeling …
highly nonlinear and complex phenomena, which is challenging for computational modeling …