In this paper a new method is proposed for the direct time integration method for structural dynamics problems. The proposed method assumes second order variations of the acceleration at each time step. Therefore more terms in the Taylor series expansion were used compared to other methods. Because of the increase in order of variations of acceleration, this method has higher accuracy than classical methods. The displacement function is a polynomial with five constants and they are calculated using: two equations for initial conditions (from the end of previous time step), two equations for satisfying the equilibrium at both ends of the time step, and one equation for the weighted residual integration. Proposed method has higher stability a...
In this work, a new time marching procedure is proposed for structural dynamics analyses. In this no...
The paper considers direct methods for integrating nonlinear equations of dynamics. Two approaches h...
A computer procedure for economically time-integrating large structural dynamics problems is present...
In this paper a new method is proposed for the direct time integration method for structural dynamic...
A new time integration method is proposed for solving a differential equation of motion of structura...
A new time integration scheme is presented for solving the differential equation of motion with nonl...
In this paper a new method is proposed for direct time integration of nonlinear structural dynamics ...
Purpose – In structural, earthquake and aeronautical engineering and mechanical vibration, the solut...
In this paper, a time step integration method for resolving the differential equation of motion of d...
Adaptive strategies are specially well suited to deal with problems characterized by high non-linear...
This paper presents a weighted residual method with several weight functions for solving differentia...
A time integration scheme is proposed for dynamic analysis of linear elastic problems. This method a...
General procedures are presented for the use of higher-order approximations of a system\u27s dynamic...
A time integration scheme is proposed for dynamic analysis of linear elastic problems. This method a...
A simple explicit solution technique for problems in structural dynamics, based on a Modified Trapez...
In this work, a new time marching procedure is proposed for structural dynamics analyses. In this no...
The paper considers direct methods for integrating nonlinear equations of dynamics. Two approaches h...
A computer procedure for economically time-integrating large structural dynamics problems is present...
In this paper a new method is proposed for the direct time integration method for structural dynamic...
A new time integration method is proposed for solving a differential equation of motion of structura...
A new time integration scheme is presented for solving the differential equation of motion with nonl...
In this paper a new method is proposed for direct time integration of nonlinear structural dynamics ...
Purpose – In structural, earthquake and aeronautical engineering and mechanical vibration, the solut...
In this paper, a time step integration method for resolving the differential equation of motion of d...
Adaptive strategies are specially well suited to deal with problems characterized by high non-linear...
This paper presents a weighted residual method with several weight functions for solving differentia...
A time integration scheme is proposed for dynamic analysis of linear elastic problems. This method a...
General procedures are presented for the use of higher-order approximations of a system\u27s dynamic...
A time integration scheme is proposed for dynamic analysis of linear elastic problems. This method a...
A simple explicit solution technique for problems in structural dynamics, based on a Modified Trapez...
In this work, a new time marching procedure is proposed for structural dynamics analyses. In this no...
The paper considers direct methods for integrating nonlinear equations of dynamics. Two approaches h...
A computer procedure for economically time-integrating large structural dynamics problems is present...