Ultrasonic measurement of self-loosening in bolted joints

Marshall, Matthew; Lewis, Roger; Howard, Thomas P.; Brunskill, Henry

doi:10.1177/0954406211429758

Cited by 14 publications

(17 citation statements)

References 21 publications

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“…Ultrasonic techniques have also been used to study contact pressure distribution at the clamped interface of bolted joints [11,12]. It was further shown that ultrasonic reflections from the clamped interface could be used to estimate the progress of relaxation in bolted joints [13]. The ultrasonic method provides a better accuracy compared to the torque wrench, and also determines bolt tension without any impact on the joint stiffness, as opposed to strain gauges.…”

Section: Introductionmentioning

confidence: 99%

Estimating bolt tightness using transverse natural frequencies

Sah

Thomsen

Brøns

et al. 2018

Journal of Sound and Vibration

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Section: Introductionmentioning

confidence: 99%

Estimating bolt tightness using transverse natural frequencies

Sah

Thomsen

Brøns

et al. 2018

Journal of Sound and Vibration

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“…When the ultrasonic wavelength is long compared to the scale of the air gaps in the interface, the interface as a whole behaves like a reflector. Marshall et al use the reflection coefficient of the ultrasonic for measuring the contact pressure relaxation in bolted joints [25].…”

Section: Piezoelectric Active Sensing Methodsmentioning

confidence: 99%

Review of Bolted Connection Monitoring

Wang

Song

Liu

et al. 2013

International Journal of Distributed Sensor Networks

134

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This paper reviews the research of monitoring technologies for bolted structural connections. The acoustoelastic effect based method, the piezoelectric active sensing method, and the piezoelectric impedance method are the three commonly used to monitor bolted connections. The basic principle and the applications of these three methods are discussed in detail in this paper. In addition, this paper presents a comparison of these methods and discusses their suitability for in situ or real-time bolt connection monitoring.

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“…Additional work was carried out by Dwyer-Joyce to further understand the relationship between surface roughness and stiffness [15], [16]. This work has been continued and numerous static ultrasonic contact measurements have been carried out using a scanning system to investigate machine element interfaces, such as Marshall et al [17], [18] investigating the contact between bolted plates, interference fits [19] and the static contact pressure and area between a sectioned railroad vehicle wheel and rail [20]. The technique involves pulsing an ultrasonic pressure wave towards the contact interface and deriving information from reflected signals.…”

Section: Measurement Of Contact Pressure and Areamentioning

confidence: 99%

“…By monitoring the phase and amplitude of the reflected wave, it is possible to understand a great deal about the host material and the interface. This technique has been successfully employed to measure contact pressure [3], [16], [17], [18], [19], [20], [21], [22], [23], but also lubricant film thickness [25], viscosity [26], and wear [27].…”

Section: Introductionmentioning

confidence: 99%

An evaluation of ultrasonic arrays for the static and dynamic measurement of wheel–rail contact pressure and area

Brunskill

Hunter

Zhou

et al. 2020

Proceedings of the Institution of Mechanical Engineers, Part J:

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The interfacial contact conditions between a railway vehicle wheel and the rail are paramount to the lifespan, safety and smooth operation of any rail network. The wheel–rail interface contact pressure and area conditions have been estimated, calculated and simulated by industry and academia for many years, but a method of accurately measuring dynamic contact conditions has yet to be realised. Methods using pressure-sensitive films and controlled air flow have been employed, but both are limited. Ultrasonic reflectometry is the term given to active ultrasonics in which an ultrasonic transducer is mounted on the outer surface of a component and a sound wave is generated. This ultrasonic wave packet propagates through the host medium and reflects off the contacting interface of interest. The reflected waveform is then detected and contact area and interfacial stiffness information can be extracted from the signal using the quasi-static spring model. Stiffness can be related to contact pressure by performing a simple calibration procedure. Previous contact pressure measurement work has relied on using a focusing transducer and a two-dimensional scanning arrangement which results in a high-resolution image of the wheel–rail contact, but is limited to static loading of a specimen cut from a wheel and rail. The work described in this paper has assessed the feasibility of measuring a dynamic wheel–rail contact patch using an array of 64 ultrasonic elements mounted in the rail. Each element is individually pulsed in sequence to build up a linear cross-sectional pressure profile measurement of the interface. These cross-sectional, line measurements are then processed and collated resulting in a two-dimensional contact pressure profile. Measurements have been taken at different speeds and loads.

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Ultrasonic measurement of self-loosening in bolted joints

Cited by 14 publications

References 21 publications

Estimating bolt tightness using transverse natural frequencies

Estimating bolt tightness using transverse natural frequencies

Review of Bolted Connection Monitoring

An evaluation of ultrasonic arrays for the static and dynamic measurement of wheel–rail contact pressure and area

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