Free vibration analysis and optimal design of adhesively bonded

Free Vibration Frequency Prediction to Design Optimum Adhesively Bonded Composite Double Lap Joint

Maximum shear stress versus normalized void size, x, for bonded joints

Damage (delamination and crack) effect on frequency and strain energy release rate (SERR) in adhesively bonded multi-material single lap joint—an experimental verification

Study on forced vibration behavior of adhesively bonded single-lap joint - Extrica

The free vibration analysis and optimal design of an adhesively bonded functionally graded single lap joint - ScienceDirect

Free vibration analysis and optimal design of adhesively bonded double-strap joints by using artificial neural networks. - Document - Gale OneFile: Informe Académico

Maximum shear stress versus normalized void size, x, for bonded joints

PDF) Free vibration analysis and optimal design of adhesively bonded double-strap joints by using artificial neural networks

Free vibration analysis and optimal design of adhesively bonded double-strap joints by using artificial neural networks. - Document - Gale OneFile: Informe Académico

Numerical and experimental vibration analysis of different types of adhesively bonded joints - ScienceDirect

Optimization and Prediction of Transverse Shear Property of the Bioinspired Cell Core Using PSO and ANN

Effect of the void size on the rst natural frequency of the bonded

Polymers, Free Full-Text

Configuration of: (a) an adhesively bonded double-strap joint and (b)

Optimization and Prediction of Transverse Shear Property of the Bioinspired Cell Core Using PSO and ANN