Composite Shafting for Naval Propulsion Systems

Wilhelmi, G.; Appleman, William M.; Loo, F. T. C.

doi:10.1111/j.1559-3584.1986.tb03464.x

Cited by 15 publications

(2 citation statements)

References 1 publication

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“…In [33], a large-diameter composite propulsion shaft was developed to fulfil navy-standard performance requirements. This study claimed that advanced composite material can improve the marine propulsion shafting system in terms of vibration damping.…”

Section: Composite Propulsion Systemsmentioning

confidence: 99%

A Review of the Dynamic Analysis of Axial Vibrations in Marine Propulsion Shafting System Due to Propeller Excitation

Amirudin

Kamarumtham

Haripriyono

et al. 2022

AEJ

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Over the past decades, the attenuation of axial vibration due to propeller excitation has long been a complex problem due to the coupling dynamics of the propeller-shafting system. As axial vibration is often the cause of fatigue damage to the propulsion shaft components as well as the root cause to acoustical radiation along a hull of a ship, there has been continuous interest in understanding the complex dynamic characteristics of the coupled propeller-shaft system and the methods to suppress the axial vibration in the system. Therefore, several studies have been conducted to solve this vibration problem on the longitudinal axis of the marine propulsion shafting system. This paper aims to provide the theoretical foundations of this problem by reviewing the modelling techniques of this coupled dynamic problem and cover the vibration reduction strategies that are proposed by the cited studies.

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Section: Composite Propulsion Systemsmentioning

confidence: 99%

A Review of the Dynamic Analysis of Axial Vibrations in Marine Propulsion Shafting System Due to Propeller Excitation

Amirudin

Kamarumtham

Haripriyono

et al. 2022

AEJ

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show abstract

“…(1948) reduced the noise by increasing the number of the blades. Instead of using traditional metal materials, Wilhelmi (1986) used an advanced composite material to minimize the longitudinal vibration of the shaft. Li et al.…”

Section: Introductionmentioning

confidence: 99%

Application of a dynamic antiresonant vibration isolator to minimize the vibration transmission in underwater vehicles

Liu

Yin

et al. 2017

Journal of Vibration and Control

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Harmonic axial force resulting from a propeller’s first vibration mode is a major cause of tonal sound radiation of an underwater vehicle. To reduce the harmonic force, we employ a dynamic antiresonant vibration isolator (DAVI) in parallel with thrust bearing of the shafting system to attenuate vibration transmitted to the hull. The methods of transfer matrices and substructure synthesis are used to create a semi-analytical dynamic model of the propeller–shaft–hull system with DAVI. In this model, the elastic properties of the propeller and foundation are taken into consideration. The force transmissibility and power flow are then used to evaluate the isolation performance of the DAVI. For the purpose of comparison, a resonance changer (RC) proposed in the published literature is also used to reduce the axial vibration transmission. It is demonstrated numerically that by using DAVI, the vibration and power flow of the underwater vehicle are greatly attenuated at the designed frequency without obviously changing the axial fundamental resonance frequency of the shafting system, which is superior to the RC isolator.

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Nanomaterials-Enabled Lightweight Military Platforms

Kumar

Dixit

2019

Nanotechnology for Defence Applications

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Composite Shafting for Naval Propulsion Systems

Cited by 15 publications

References 1 publication

A Review of the Dynamic Analysis of Axial Vibrations in Marine Propulsion Shafting System Due to Propeller Excitation

A Review of the Dynamic Analysis of Axial Vibrations in Marine Propulsion Shafting System Due to Propeller Excitation

Application of a dynamic antiresonant vibration isolator to minimize the vibration transmission in underwater vehicles

Nanomaterials-Enabled Lightweight Military Platforms

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