Add to ORKGKey words: particle finite element methods, contact interfaces, forming processes. Summary. The paper focuses the application of the Particle Finite Element Methods (PFEM) to modeling forming processes in solid mechanics. The fundamentals of the PFEM are briefly introduced, and, then, a contact modeling strategy, based on the anticipation of the contacting boundaries and the construction of a contact interface, is described. Application to filling and machining processes is finally presented.
Metal cutting process is a nonlinear dynamic problem that includes geometrical, material, and contac...
The simulation of cutting process challenges established methods due to large deformations and topol...
This work presents the development of the Particle Finite Element Method (PFEM) for the modelling of...
In this work a Lagrangian nite element approach for simulation of metalforming is presented, based o...
In this work a Lagrangian nite element approach for simulation of metalforming is presented, based o...
In this work a Lagrangian nite element approach for simulation of metalforming is presented, based o...
In this work a Lagrangian nite element approach for simulation of metalforming is presented, based o...
The Particle Finite Element Method is a numerical tool that has been introduced more than a decade a...
This work introduces the advances in the Particle Finite Element Method (PFEM) for the modeling of c...
This work introduces the advances in the Particle Finite Element Method (PFEM) for the modeling of c...
The formation of chips in cutting processes is characterised by large deformations and large configu...
Although machining is a well established method in manufacturing, the numerical modeling is complica...
Metal cutting process is a nonlinear dynamic problem that includes geometrical, material, and contac...
Metal cutting process is a nonlinear dynamic problem that includes geometrical, material, and contac...
Metal cutting process is a nonlinear dynamic problem that includes geometrical, material, and contac...
Metal cutting process is a nonlinear dynamic problem that includes geometrical, material, and contac...
The simulation of cutting process challenges established methods due to large deformations and topol...
This work presents the development of the Particle Finite Element Method (PFEM) for the modelling of...
In this work a Lagrangian nite element approach for simulation of metalforming is presented, based o...
In this work a Lagrangian nite element approach for simulation of metalforming is presented, based o...
In this work a Lagrangian nite element approach for simulation of metalforming is presented, based o...
In this work a Lagrangian nite element approach for simulation of metalforming is presented, based o...
The Particle Finite Element Method is a numerical tool that has been introduced more than a decade a...
This work introduces the advances in the Particle Finite Element Method (PFEM) for the modeling of c...
This work introduces the advances in the Particle Finite Element Method (PFEM) for the modeling of c...
The formation of chips in cutting processes is characterised by large deformations and large configu...
Although machining is a well established method in manufacturing, the numerical modeling is complica...
Metal cutting process is a nonlinear dynamic problem that includes geometrical, material, and contac...
Metal cutting process is a nonlinear dynamic problem that includes geometrical, material, and contac...
Metal cutting process is a nonlinear dynamic problem that includes geometrical, material, and contac...
Metal cutting process is a nonlinear dynamic problem that includes geometrical, material, and contac...
The simulation of cutting process challenges established methods due to large deformations and topol...
This work presents the development of the Particle Finite Element Method (PFEM) for the modelling of...