International audienceTo solve fast dynamic problems, an explicit method is the most adapted. But for slower dynamics, an implicit method is more stable. The industrial problems are governed by high frequency (impact, …) during short time intervals and slower dynamics (spring-back, …) during other time intervals. The optimal solution is then to have both implicit algorithm and explicit methods readily available in the same code and to be able to switch automatically from one to another. Criteria that decide when to shift from a method to another have been developed here. Implicit balanced restarting conditions that annihilate numerical oscillations resulting for an explicit calculation are also proposed
The paper deals with suitability of use of the explicit and implicit method in heavily nonlinear sei...
A new time integration scheme is presented for solving the differential equation of motion with nonl...
The primary objectives of the present exposition are to provide: (i) a generalized unified mathemati...
peer reviewedTo solve fast dynamic problems, an explicit method is the most adapted. But for slower ...
In order to solve fast dynamic problems, an explicit method is the most adapted. But for slower dyna...
In order to solve fast dynamic problems, an explicit method is the most adapted. But for slower dyna...
In this paper a new method is proposed for direct time integration of nonlinear structural dynamics ...
International audienceIn order to simulate an industrial process, an explicit method, which is condi...
Recent developments have proved the advantage of combining both time implicit and time explicit inte...
This research addresses the time history analysis of structures subjected to dynamic loads using hig...
A new family of higher-order implicit, one-step integration algorithms has been developed and evalua...
[[abstract]]In the area of crash impact, research is urgently required on the development and evalua...
International audienceWhen an implicit integration scheme is used, variable step strategies are espe...
Most finite element packages use the Newmark algorithm for time integration of structural dynamics. ...
New dissipative time integration algorithms are presented for solving systems of second-order ordina...
The paper deals with suitability of use of the explicit and implicit method in heavily nonlinear sei...
A new time integration scheme is presented for solving the differential equation of motion with nonl...
The primary objectives of the present exposition are to provide: (i) a generalized unified mathemati...
peer reviewedTo solve fast dynamic problems, an explicit method is the most adapted. But for slower ...
In order to solve fast dynamic problems, an explicit method is the most adapted. But for slower dyna...
In order to solve fast dynamic problems, an explicit method is the most adapted. But for slower dyna...
In this paper a new method is proposed for direct time integration of nonlinear structural dynamics ...
International audienceIn order to simulate an industrial process, an explicit method, which is condi...
Recent developments have proved the advantage of combining both time implicit and time explicit inte...
This research addresses the time history analysis of structures subjected to dynamic loads using hig...
A new family of higher-order implicit, one-step integration algorithms has been developed and evalua...
[[abstract]]In the area of crash impact, research is urgently required on the development and evalua...
International audienceWhen an implicit integration scheme is used, variable step strategies are espe...
Most finite element packages use the Newmark algorithm for time integration of structural dynamics. ...
New dissipative time integration algorithms are presented for solving systems of second-order ordina...
The paper deals with suitability of use of the explicit and implicit method in heavily nonlinear sei...
A new time integration scheme is presented for solving the differential equation of motion with nonl...
The primary objectives of the present exposition are to provide: (i) a generalized unified mathemati...