Recent developments, in non-linear structural dynamics, have led to a new kind of implicit algorithms: the energy-momentum conserving algorithm (EMCA) and the energy-dissipative, momentum-conserving algorithm. Contrarily to commonly used algorithms, such as the explicit central difference or the alpha-generalized method, the stability of those algorithms is always ensured in the non-linear range. Thanks to this unconditional stability the only requirement on the time step size is that it must be small enough to capture the physics. This requirement is less restrictive than a conditional stability. In previous works, we have developed a new formulation of the internal forces for a hypoelastic model, that leads to an EMCA. In this paper, we w...
Traditional time integration algorithms for finite-element discretization are numerically stable onl...
AbstractA new unconditionally stable explicit time-integration method is proposed herein, which can ...
It is now well established that discrete energy conservation/dissipation plays a key-role for the un...
International audienceRecent developments, in non-linear structural dynamics, have led to a new kind...
International audienceRecently, robust implicit energy and momentum conserving algorithms have been ...
When studying impact problems, time integration of the equations of evolution occurs in the non-line...
Recently, robust implicit energy and momentum conserving algorithms have been developed in the non-l...
Recently, robust implicit energy and momentum conserving algorithms have been developed in the non-l...
Recent developments have proved the advantage of combining both time implicit and time explicit inte...
Variable step strategies are specially well suited to deal with problems characterized by high non-l...
In order to solve fast dynamic problems, an explicit method is the most adapted. But for slower dyna...
Although they are the most widely used time integration algorithms for finite-element discretization...
In order to solve fast dynamic problems, an explicit method is the most adapted. But for slower dyna...
Most finite element packages use the Newmark algorithm for time integration of structural dynamics. ...
peer reviewedThis paper presents an extension of the energy momentum conserving algorithm, developed...
Traditional time integration algorithms for finite-element discretization are numerically stable onl...
AbstractA new unconditionally stable explicit time-integration method is proposed herein, which can ...
It is now well established that discrete energy conservation/dissipation plays a key-role for the un...
International audienceRecent developments, in non-linear structural dynamics, have led to a new kind...
International audienceRecently, robust implicit energy and momentum conserving algorithms have been ...
When studying impact problems, time integration of the equations of evolution occurs in the non-line...
Recently, robust implicit energy and momentum conserving algorithms have been developed in the non-l...
Recently, robust implicit energy and momentum conserving algorithms have been developed in the non-l...
Recent developments have proved the advantage of combining both time implicit and time explicit inte...
Variable step strategies are specially well suited to deal with problems characterized by high non-l...
In order to solve fast dynamic problems, an explicit method is the most adapted. But for slower dyna...
Although they are the most widely used time integration algorithms for finite-element discretization...
In order to solve fast dynamic problems, an explicit method is the most adapted. But for slower dyna...
Most finite element packages use the Newmark algorithm for time integration of structural dynamics. ...
peer reviewedThis paper presents an extension of the energy momentum conserving algorithm, developed...
Traditional time integration algorithms for finite-element discretization are numerically stable onl...
AbstractA new unconditionally stable explicit time-integration method is proposed herein, which can ...
It is now well established that discrete energy conservation/dissipation plays a key-role for the un...