Calculation of stresses in the coating of a vibrating beam

The model for the analysis of stresses in the coating of a straight beam performing transverse vibrations is presented. The developed numerical procedure is based on the technique of conjugate approximation with smoothing adapted for this specific problem. Relative error norms are calculated and their relationship with the required smoothing is determine

Calculation of stresses in the coating of a vibrating beam

The model for the analysis of stresses in the coating of a straight beam performing transverse vibrations is presented. The developed numerical procedure is based on the technique of conjugate approximation with smoothing adapted for this specific problem. Relative error norms are calculated and their relationship with the required smoothing is determine

Validation of vibration analysis using photo-elastic coatings

The analysis of vibrations is performed using a plate bending element assuming that a coating has no effect to the motion of the plate. The stresses in the coating are calculated by using the procedure of conjugate approximation. Then the relative error norms for the finite elements are determined. They are represented graphically and serve for validation of the results of calculations in hybrid experimental - numerical procedures

Validation of vibration analysis using photo-elastic coatings

The analysis of vibrations is performed using a plate bending element assuming that a coating has no effect to the motion of the plate. The stresses in the coating are calculated by using the procedure of conjugate approximation. Then the relative error norms for the finite elements are determined. They are represented graphically and serve for validation of the results of calculations in hybrid experimental - numerical procedures

Calculation of stresses in the coating of a vibrating beam

The model for the analysis of stresses in the coating of a straight beam performing transverse vibrations is presented. The developed numerical procedure is based on the technique of conjugate approximation with smoothing adapted for this specific problem. Relative error norms are calculated and their relationship with the required smoothing is determine