AbstractHigh strain rate events, such as high velocity impacts and high explosive detonation, require the use of first principles physics based codes to accurately predict the formation of debris during material fracture and fragmentation. However, material fracture behavior is a very complex phenomenon to model due to its stochastic nature and the variability in material properties under dynamic loading conditions (versus static). In addition, physics based codes present challenges in predicting debris pieces that are smaller than the mesh resolution for a large problem domain with a finite number of elements. Yet, these characteristics are important in applications for missile intercepts, satellite collisions and warhead fragmentation, wh...
The fracture of the target and projectile during normal penetration is described using a model of ch...
Studies on shear-plug formation and on double-layered steel plates impacted by blunt-nosed hardened ...
A Lagrangian finite element method of fracture and fragmentation in brittle materials is developed. ...
AbstractHigh strain rate events, such as high velocity impacts and high explosive detonation, requir...
The Grady-Kipp fragmentation model provides a physically based method for determining the fracture a...
The modeling of fragmentation has historically been linked to the weapons industry where the main go...
The catastrophic fragmentation of finite targets is examined both in the laboratory and using a nume...
A time-dependent, two-dimensional, finite-difference code can be used to model fragmenting cylinders...
AbstractThe ability to predict the natural fragmentation of an explosively loaded metal casing would...
This thesis is written in relation to the current research at SIMLab in the field of impact engineer...
The simulation of high-rate deformation and failure of metals is has traditionally been performed us...
A two dimensional hydrocode based on 2-D SALE was modified to include strength effects and fragmenta...
Natural fragmentation of warheads that detonates causes the casing of the warhead to split into vari...
This work investigates the difference in the fragmentation characteristics between the microscopic a...
AbstractThere has been increasing interest in numerical simulations of fragmentation of expanding wa...
The fracture of the target and projectile during normal penetration is described using a model of ch...
Studies on shear-plug formation and on double-layered steel plates impacted by blunt-nosed hardened ...
A Lagrangian finite element method of fracture and fragmentation in brittle materials is developed. ...
AbstractHigh strain rate events, such as high velocity impacts and high explosive detonation, requir...
The Grady-Kipp fragmentation model provides a physically based method for determining the fracture a...
The modeling of fragmentation has historically been linked to the weapons industry where the main go...
The catastrophic fragmentation of finite targets is examined both in the laboratory and using a nume...
A time-dependent, two-dimensional, finite-difference code can be used to model fragmenting cylinders...
AbstractThe ability to predict the natural fragmentation of an explosively loaded metal casing would...
This thesis is written in relation to the current research at SIMLab in the field of impact engineer...
The simulation of high-rate deformation and failure of metals is has traditionally been performed us...
A two dimensional hydrocode based on 2-D SALE was modified to include strength effects and fragmenta...
Natural fragmentation of warheads that detonates causes the casing of the warhead to split into vari...
This work investigates the difference in the fragmentation characteristics between the microscopic a...
AbstractThere has been increasing interest in numerical simulations of fragmentation of expanding wa...
The fracture of the target and projectile during normal penetration is described using a model of ch...
Studies on shear-plug formation and on double-layered steel plates impacted by blunt-nosed hardened ...
A Lagrangian finite element method of fracture and fragmentation in brittle materials is developed. ...