The Effects of Large Vibration Amplitudes on the Mode Shapes and Natural Frequencies of Thin Elastic Structures, Part II: Fully Clamped Rectangular Isotropic Plates

The Effects Of Large Vibration Amplitude

The Effects Of Large Vibration Amplitudes On The Mode Shapes And Natural Frequencies Of Thin Elastic Structures, Part III: Fully Clamped Rectangular Isotropic Plates—Measurements Of The Mode Shape Amplitude Dependence And The Spatial Distribution Of Harmonic Distortion

✍ R. Benamar; M.M.K. Bennouna; R.G. White 📂 Article 📅 1994 🏛 Elsevier Science 🌐 English ⚖ 658 KB

In this work, the amplitude dependence of the resonance frequency and the spatial distribution of the first and second harmonic components of the dynamic response of a fully clamped rectangular homogeneous plate have been investigated experimentally. By using electrodynamic point excitation at the c

COMMENTS ON “THE EFFECTS OF LARGE VIBRAT

COMMENTS ON “THE EFFECTS OF LARGE VIBRATION AMPLITUDES ON THE MODE SHAPES AND NATURAL FREQUENCIES OF THIN ELASTIC SHELLS, PART I:...”

✍ M. AMABILI; M.P. PAÏDOUSSIS; F. PELLICANO 📂 Article 📅 2001 🏛 Elsevier Science 🌐 English ⚖ 122 KB

THE EFFECTS OF LARGE VIBRATION AMPLITUDE

THE EFFECTS OF LARGE VIBRATION AMPLITUDES ON THE MODE SHAPES AND NATURAL FREQUENCIES OF THIN ELASTIC SHELLS, PART I: COUPLED TRANSVERSE-CIRCUMFERENTIAL MODE SHAPES OF ISOTROPIC CIRCULAR CYLINDRICAL SHELLS OF INFINITE LENGTH

✍ Moussaoui, F. (author);Benamar, R. (author);White, R. G. (author) 📂 Article 📅 2000 🏛 Academic Press 🌐 English ⚖ 317 KB

The e!ects of large vibration amplitudes on the "rst and second coupled radial-circumferential mode shapes of isotropic circular cylindrical shells of in"nite length are examined. A theoretical model based on Hamilton's principle and spectral analysis developed previously for clamped}clamped beams a

THE EFFECTS OF LARGE VIBRATION AMPLITUDE

THE EFFECTS OF LARGE VIBRATION AMPLITUDES ON THE MODE SHAPES AND NATURAL FREQUENCIES OF THIN ELASTIC SHELLS, PART I: COUPLED TRANSVERSE-CIRCUMFERENTIAL MODE SHAPES OF ISOTROPIC CIRCULAR CYLINDRICAL SHELLS OF INFINITE LENGTH

✍ Moussaoui, F. (author);Benamar, R. (author);White, R. G. (author) 📂 Article 📅 2000 🏛 Academic Press 🌐 English ⚖ 317 KB

THE EFFECTS OF LARGE VIBRATION AMPLITUDE

THE EFFECTS OF LARGE VIBRATION AMPLITUDES ON THE MODE SHAPES AND NATURAL FREQUENCIES OF THIN ELASTIC SHELLS. PART II: A NEW APPROACH FOR FREE TRANSVERSE CONSTRAINED VIBRATION OF CYLINDRICAL SHELLS

✍ F. MOUSSAOUI; R. BENAMAR; R.G. WHITE 📂 Article 📅 2002 🏛 Elsevier Science 🌐 English ⚖ 494 KB

The non-linear dynamic behaviour of in"nitely long circular cylindrical shells in the case of plane strains is examined and results are compared with previous studies. A theoretical model based on Hamilton's principle and spectral analysis previously developed for non-linear vibration of thin straig

IMPROVEMENT OF THE SEMI-ANALYTICAL METHO

IMPROVEMENT OF THE SEMI-ANALYTICAL METHOD, FOR DETERMINING THE GEOMETRICALLY NON-LINEAR RESPONSE OF THIN STRAIGHT STRUCTURES: PART II—FIRST AND SECOND NON-LINEAR MODE SHAPES OF FULLY CLAMPED RECTANGULAR PLATES

✍ M. EL KADIRI; R. BENAMAR 📂 Article 📅 2002 🏛 Elsevier Science 🌐 English ⚖ 375 KB

## ¹" 1 2 y \*w H \*y \*w I \*x \*w J \*x # \*w I \*y \*w J \*y dx dy (10) and indices i, j, k and l are summed over 1, 2 , n. The dynamic behaviour of the structure may be obtained by Lagrange's equations for a conservative system, which leads to ! \* \*t \*¹ \*qR P # \*¹ \*q P ! \*< \*q P