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

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

The free vibration analysis and optimal design of an adhesively

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

Experimental analysis and prediction of strength of adhesive

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

Free vibration analysis of bio-inspired helicoid laminated

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

Free Vibration Frequency Prediction to Design Optimum Adhesively

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

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

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

Materials, Free Full-Text

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

Modelling and prediction of free vibration response of adhesive

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

Free Vibration Frequency Prediction to Design Optimum Adhesively

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

Free Vibration Frequency Prediction to Design Optimum Adhesively

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

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

The free vibration analysis and optimal design of an adhesively

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

Free Vibration Frequency Prediction to Design Optimum Adhesively

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

Materials, Free Full-Text

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