Utilizing Macro Fiber Composite to Control Rotating Blade Vibrations

Hamed, Y. S.; Kandil, Ali; Machado, J. A. Tenreiro

doi:10.3390/sym12121984

Cited by 11 publications

(4 citation statements)

References 29 publications

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“…Piezoelectric effect: the application of an electrical voltage results in the change in length of a material (e.g. a-quartz SiO 2 ) [40]. Magnetostrictive effect: the application of a magnetic field leads to a change in the length of a material (e.g.…”

Section: Discussionmentioning

confidence: 99%

Monitoring and meaning of vibrations in robot polishing

Schneckenburger¹,

Hoefler²,

Boerret³

et al. 2023

J. Eur. Opt. Society-Rapid Publ.

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Robot polishing is increasingly used in the production of high-end glass work pieces such as astronomy mirrors, lithography lenses, laser gyroscopes or high-precision coordinate measuring machines. The quality of optical components such as lenses or mirrors can be described by shape errors and surface roughness. Whilst the trend towards sub nanometre level surfaces finishes and features progresses, matching both form and finish coherently in complex parts remains a major challenge. With larger or more precise optics, the influence of process instabilities on the quality of the optics to be polished has a greater impact. Vibrations at a polishing head have a negative influence on the polishing result. These vibrations are caused by bearing damage, motors and other excitations (e.g. gears, belts). The aim of this work is the determination of vibrations at a polishing head and their avoidance strategies. Different bearing conditions are considered: new and perfect bearing, a bearing that has been in contact with polish (rust) and a bearing with repeatable damage (groove milled on the running surface). It can be shown that the frequencies of bearings affect the polishing tool. Furthermore, reasons for and against vibrations in the process are discussed. For the case of vibrationless machining, avoidance strategies were presented.

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Section: Discussionmentioning

confidence: 99%

Monitoring and meaning of vibrations in robot polishing

Schneckenburger¹,

Hoefler²,

Boerret³

et al. 2023

J. Eur. Opt. Society-Rapid Publ.

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show abstract

“…We have chosen it according to the previously published Refs. [15,20,25,29] for its good results in reducing the vibrations efficiently. Herein, it is applied to minimize the car's unwanted oscillations.…”

Section: Mathematical Modeling Of the Mass-damper-spring Combination With A Control Unitmentioning

confidence: 99%

“…Awrejcewicz et al [24] analyzed the probable internal resonance between a linear oscillator coupled to an absorber at primary resonance. Hamed et al [25,26] utilized the macro fiber composite in order to apply active control schemes for attenuating the rotating blade's unwanted vibrations. Liu et al [27] investigated the chaos and resonance of MEMS and NEMS where the time delay effects were shown for achieving a safe operation.…”

Section: Introductionmentioning

confidence: 99%

2D and 3D Visualizations of the Mass-Damper-Spring Model Dynamics Controlled by a Servo-Controlled Linear Actuator

et al. 2021

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“…Te authors reported issues of internal resonance, mode shape shift, frequency veering, and dynamics stifness efect among modes. Kandil and Kamel [16][17][18] explored the efect of Hopf points on the stability of time-delayed control of a vibratory rotating beam. Tey have concluded and plotted Hopf curves in order to give a boundary of the safe stable region of operation.…”

Section: Introductionmentioning

confidence: 99%

Multiple Time-Scales Analysis to Predict the Quasiperiodic Oscillatory Response of a Thin-Walled Beam Subjected to $1 : 1 : 1$ Simultaneous Resonance

Kandil,

Hamed,

Awrejcewicz

et al. 2023

Shock and Vibration

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This paper introduces a study on the horizontal and vertical deflections of the cross section of a thin-walled rotating beam. These deflections are governed by a system of two ordinary differential equations in order to describe their Cartesian directions. Based on multiple time-scales analysis, truncated asymptotic expansions are assumed to be approximate solutions to the given problem. Furthermore, an extracted autonomous system of differential equations governs the change rate of the amplitudes and phases of the beam deflections. The beam’s rotation speed is adjusted to be in the neighborhood of both of the natural frequencies of the deflections such that the beam is subjected to 1 : 1 : 1 simultaneous resonance. A stability test is conducted according to the first method of Lyapunov in order to determine whether the equilibrium point is asymptotically stable or not. The beam’s deflections turn unstable once its speed is in the neighborhood of its modal natural frequencies. There exists a multistable solution at some values of the beam’s speed depending on the hysteresis manner of the model according to forward or backward sweeping of this speed. Furthermore, a range of centrifugal forces of the rotating hub can make the beam’s deflections exhibit quasiperiodic responses which are confirmed by time response, orbital map, and amplitude spectrum. Eventually, some remarks are recommended for the external excitation frequency in order that the beam stays in the periodic behavior.

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Utilizing Macro Fiber Composite to Control Rotating Blade Vibrations

Cited by 11 publications

References 29 publications

Monitoring and meaning of vibrations in robot polishing

Monitoring and meaning of vibrations in robot polishing

2D and 3D Visualizations of the Mass-Damper-Spring Model Dynamics Controlled by a Servo-Controlled Linear Actuator

Multiple Time-Scales Analysis to Predict the Quasiperiodic Oscillatory Response of a Thin-Walled Beam Subjected to $1 : 1 : 1$ Simultaneous Resonance

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Utilizing Macro Fiber Composite to Control Rotating Blade Vibrations

Cited by 11 publications

References 29 publications

Monitoring and meaning of vibrations in robot polishing

Monitoring and meaning of vibrations in robot polishing

2D and 3D Visualizations of the Mass-Damper-Spring Model Dynamics Controlled by a Servo-Controlled Linear Actuator

Multiple Time-Scales Analysis to Predict the Quasiperiodic Oscillatory Response of a Thin-Walled Beam Subjected to 1 : 1 : 1 Simultaneous Resonance

Contact Info

Product

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Multiple Time-Scales Analysis to Predict the Quasiperiodic Oscillatory Response of a Thin-Walled Beam Subjected to $1 : 1 : 1$ Simultaneous Resonance