Add to ORKGA full 2D dynamic model of a single-stage planetary gear system with backlash and time varying stiffness is considered here. This dynamic model is time variant and non-smooth, due to the presence of time varying meshing stiffness and backlash for all sun- planets and ring-planets meshes; moreover, bearing compliance is accounted for. The linear averaged equations of motion are solved to obtain the natural frequencies; conversely, the fully nonlinear equations of motion are analyzed numerically to study the effect of time varying stiffness and backlash and to point out the nonlinear dynamics of the system. The complex dynamics is deeply investigated over the meaningful mesh frequency ranges. The dynamic scenario is obtained by means of bifu...
Effect of dynamic backlash and rotational speed is investigated on the six-degree-of-freedom model o...
Time-varying mesh stiffness in gears has been found to be the primary cause for vibration in gears. ...
In this study, the dynamic responses of a planetary gear are analyzed when component gears have time...
A full 2D dynamic model of a single-stage planetary gear system with backlash and time varying stiff...
A non-linear 2D lumped mass model of a single-stage spur planetary gear system with ...
A non-linear 2D lumped mass model of a single-stage spur planetary gear system with ...
A nonlinear 2D lumped mass model of planetary gear system with time varying mesh stiffness, bearing ...
A nonlinear 2D lumped mass model of planetary gear system with time varying mesh stiffness, bearing ...
A nonlinear 2D lumped mass model of planetary gear system with time varying mesh stiffness, bearing ...
The goal of the present paper was a com- plete analysis of the dynamic scenario of planetary gears. ...
The goal of the present paper was a com- plete analysis of the dynamic scenario of planetary gears. ...
The nonlinear torsional model of a multistage gear transmission system which consists of a planetary...
Abstract: A discrete non-linear torsional vibration model of a single-stage planetary set is pro-pos...
Dynamics models of planetary gear sets (PGSs) are usually established to predict their dynamic behav...
Dynamics models of planetary gear sets (PGSs) are usually established to predict their dynamic behav...
Effect of dynamic backlash and rotational speed is investigated on the six-degree-of-freedom model o...
Time-varying mesh stiffness in gears has been found to be the primary cause for vibration in gears. ...
In this study, the dynamic responses of a planetary gear are analyzed when component gears have time...
A full 2D dynamic model of a single-stage planetary gear system with backlash and time varying stiff...
A non-linear 2D lumped mass model of a single-stage spur planetary gear system with ...
A non-linear 2D lumped mass model of a single-stage spur planetary gear system with ...
A nonlinear 2D lumped mass model of planetary gear system with time varying mesh stiffness, bearing ...
A nonlinear 2D lumped mass model of planetary gear system with time varying mesh stiffness, bearing ...
A nonlinear 2D lumped mass model of planetary gear system with time varying mesh stiffness, bearing ...
The goal of the present paper was a com- plete analysis of the dynamic scenario of planetary gears. ...
The goal of the present paper was a com- plete analysis of the dynamic scenario of planetary gears. ...
The nonlinear torsional model of a multistage gear transmission system which consists of a planetary...
Abstract: A discrete non-linear torsional vibration model of a single-stage planetary set is pro-pos...
Dynamics models of planetary gear sets (PGSs) are usually established to predict their dynamic behav...
Dynamics models of planetary gear sets (PGSs) are usually established to predict their dynamic behav...
Effect of dynamic backlash and rotational speed is investigated on the six-degree-of-freedom model o...
Time-varying mesh stiffness in gears has been found to be the primary cause for vibration in gears. ...
In this study, the dynamic responses of a planetary gear are analyzed when component gears have time...