The following pages link to José L. Escalona (Q331244):
Displaying 17 items.
- A nonlinear approach for modeling rail flexibility using the absolute nodal coordinate formulation (Q331245) (← links)
- An approach for modeling long flexible bodies with application to railroad dynamics (Q655940) (← links)
- (Q701851) (redirect page) (← links)
- Efficient evaluation of the elastic forces and the Jacobian in the absolute nodal coordinate formulation (Q701853) (← links)
- A bicycle model for education in multibody dynamics and real-time interactive simulation (Q762899) (← links)
- Stability analysis of vehicles on circular motions using multibody dynamics (Q841759) (← links)
- A new locking-free shear deformable finite element based on absolute nodal coordinates (Q842220) (← links)
- Three-dimensional formulation of rigid-flexible multibody systems with flexible beam elements (Q941677) (← links)
- A new numerical method for the dynamic analysis of impact loads in flexible beams. (Q1301149) (← links)
- Formulation of three-dimensional joint constraints using the absolute nodal coordinates (Q1415680) (← links)
- Influence of reference conditions on the analysis of impact-induced elastic waves (Q1610804) (← links)
- Flexible multibody modeling of reeving systems including transverse vibrations (Q1722651) (← links)
- Describing rigid-flexible multibody systems using absolute coordinates (Q1826408) (← links)
- On the use of the restitution condition in flexible body dynamics (Q1866122) (← links)
- Comparison of numerical and computational aspects between two constraint-based contact methods in the description of wheel/rail contacts (Q2131109) (← links)
- Railway multibody simulation with the knife-edge-equivalent wheel-rail constraint equations (Q2181832) (← links)
- Wheel-rail contact simulation with lookup tables and KEC profiles: a comparative study (Q2247230) (← links)