Detection of transversal cracks in prismatic cantilever beams with weak clamping using machine learning

David, Luminiţa; Tufiși, Cristian; Gillich, Gilbert-Rainer; Ardeljan, Mario

doi:10.14232/analecta.2022.1.122-128

Cited by 3 publications

(1 citation statement)

References 13 publications

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“…They can be caused by a lot of factors. It can be mentioned: improper manufacturing conditions, loosening of joints due to shocks and excessive vibrations, degradation caused by environmental conditions, material fatigue and exceeding the expected operating demands [1]. In the literature, there are a limited number of analytical equations to calculate the dynamic behavior of a soft clamped-type support for the beams.…”

Section: Introductionmentioning

confidence: 99%

An analytical method for evaluating the dynamic behavior of a soft clamped-type support

Praisach,

Pîrșan,

Harea

et al. 2023

Vib. proced.

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Analytical equations that describe the dynamic behavior of beams with a soft clamped end are very little treated in the literature. The paper aims to solve this problem by introducing a stiffness in the hinged end of the beam, respectively by comparing the bending moment in the clamped end with the slope in the hinge of the same end of the beam. The other end of the beam is permanently hinged. The characteristic equation for determining the eigenvalues and the modal function is deduced. The results show the first four vibration modes for seven stiffness values and the eigenvalues for eleven cases of soft clamped end.

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Section: Introductionmentioning

confidence: 99%

An analytical method for evaluating the dynamic behavior of a soft clamped-type support

Praisach,

Pîrșan,

Harea

et al. 2023

Vib. proced.

View full text Add to dashboard Cite

show abstract

The strain energy in loosening the clamped end of a beam (part I)

STAN,

PRAISACH,

GILLICH

et al. 2023

Studia UBB Engineering

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Using analytical equations, the paper aims to solve the dynamic behaviour of beams where a clamped end of the beam does not respect the ideal boundary conditions by introducing a weakening coefficient. In the paper, the characteristic equation for determining the eigenvalues and the relationship of the modal function and strain energy are derived. The results show the first six vibration modes for different values of the weakening coefficient which is considered in the clamped end and the evolution of the strain energy.

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The strain energy in loosening the clamped end of a beam (part II)

PÎRȘAN,

PRAISACH,

GILLICH

et al. 2023

Studia UBB Engineering

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In the second part of the paper, the dynamic behavior of a doubly clamped beam is presented, where the right clamped end of the beam is weakened by introducing a weakening coefficient. The analytical calculation is based on the determination of the bending moment from the weakened clamped end expressed as a function of slope, after which the modal function, strain energy and the characteristic equation are determined to obtain the eigenvalues of the first six vibration modes depending on the weakened coefficient of the clamped end. The obtained mode shapes and strain energies are determined for seven values of the weakened coefficient.

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Detection of transversal cracks in prismatic cantilever beams with weak clamping using machine learning

Cited by 3 publications

References 13 publications

An analytical method for evaluating the dynamic behavior of a soft clamped-type support

An analytical method for evaluating the dynamic behavior of a soft clamped-type support

The strain energy in loosening the clamped end of a beam (part I)

The strain energy in loosening the clamped end of a beam (part II)

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