Novel vibration structural health monitoring technology for deep foundation piles by non‐stationary higher order frequency response function

Gelman, Len; Kırlangıç, Ahmet Serhan

doi:10.1002/stc.2526

Cited by 17 publications

(11 citation statements)

References 41 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The proposed method could be extended for other rotating machinery and structures (e.g., gearboxes, 40 engines, 41 and civil engineering structures 42 ) and make an influence on vibration‐based health monitoring of rotating machinery and structures under nonstationary conditions.…”

Section: Discussionmentioning

confidence: 99%

Vibration health monitoring of rolling bearings under variable speed conditions by novel demodulation technique

Zhao

Gelman

Chu

et al. 2020

Struct Control Health Monit

Self Cite

View full text Add to dashboard Cite

Section: Discussionmentioning

confidence: 99%

Vibration health monitoring of rolling bearings under variable speed conditions by novel demodulation technique

Zhao

Gelman

Chu

et al. 2020

Struct Control Health Monit

Self Cite

View full text Add to dashboard Cite

“…is popular techniques to examine bond strength of steel fibers, 3 study interface between steel fiber and cementitious matrix, 4 characterize internal microstructure, 5 and evalaute behavior of bridge connections 6 . NDT based on vibration methods, imaging techniques, and nonlinear ultrasonic testing has been successfully applied to monitor deep foundation piles, 7 diagnose nonlinear effects in aircraft engines, 8 understand the behavior of transmission line conductors in field conditions by evaluating natural frequencies, 9 detect damage in fiber‐reinforced polymer‐bonded structures, 10 and describe modulated sidebands in metallic and carbon fiber‐reinforced polymer specimens 11 . A combination of SDT and NDT is also integrated in numerous research to study collapse mechanisms of wood masonry heritage buildings, 12 predict strength and stiffness of reinforced concrete shear walls, 13 and estimate moisture content in brick wall 14 …”

Section: Introductionmentioning

confidence: 99%

Smart monitoring of strengthened beams made of ultrahigh performance concrete using integrated and nonintegrated acoustic emission approach

Prem

Verma

Murthy

et al. 2021

Struct Control Health Monit

View full text Add to dashboard Cite

Summary Ultrahigh performance concrete (UHPC) is one of the recent advancements in construction building materials and popularly used as a precast applications or strengthening material. The current paper attempts to improve understanding about fracture and failure mechanisms of UHPC application as a strengthening material using acoustic emission (AE) technique. The paper proposes an integrated and nonintegrated approach to relate the mechanical energy with AE energy for (i) undamaged reinforced concrete (RC) beams and (ii) damaged RC beams strengthened with UHPC. The integrated approach evaluates the damage mechanisms by evaluating sentry function (logarithmic ratio of mechanical and acoustic energy), while nonintegrated approach considers superimposition of flexure and AE response, load versus AE energy behavior and damage index. To validate the proposed approach, experiments are conducted on (i) control RC beams and (ii) RC beams strengthened with UHPC layers of t, 1.5t, and 2t thickness (where t = 10 mm). From the study, it is found that analysis of structures using both the approaches can overcome corresponding limitations. Hence, to completely characterize the damage, both methods are recommended.

show abstract

“…The chirp Fourier HOS [48,49] and the chirp Wigner-based HOS [50] are introduced for the analysis of spectral components, exhibiting variations in the instantaneous frequency. In further research, the chirp Fourier HOS are applied for combustion instability detection [51].…”

Section: Introductionmentioning

confidence: 99%

Novel Instantaneous Wavelet Bicoherence for Vibration Fault Detection in Gear Systems

2021

Self Cite

View full text Add to dashboard Cite

Higher order spectra exhibit a powerful detection capability of low-energy fault-related signal components, buried in background random noise. This paper investigates the powerful nonlinear non-stationary instantaneous wavelet bicoherence for local gear fault detection. The new methodology of selecting frequency bands that are relevant for wavelet bicoherence fault detection is proposed and investigated. The capabilities of wavelet bicoherence are proven for early-stage fault detection in a gear pinion, in which natural pitting has developed in multiple pinion teeth in the course of endurance gearbox tests. The results of the WB-based fault detection are compared with a stereo optical fault evaluation. The reliability of WB-based fault detection is quantified based on the complete probability of correct identification. This paper is the first attempt to investigate instantaneous wavelet bicoherence technology for the detection of multiple natural early-stage local gear faults, based on comprehensive statistical evaluation of the industrially relevant detection effectiveness estimate—the complete probability of correct fault detection.

show abstract

Novel vibration structural health monitoring technology for deep foundation piles by non‐stationary higher order frequency response function

Cited by 17 publications

References 41 publications

Vibration health monitoring of rolling bearings under variable speed conditions by novel demodulation technique

Vibration health monitoring of rolling bearings under variable speed conditions by novel demodulation technique

Smart monitoring of strengthened beams made of ultrahigh performance concrete using integrated and nonintegrated acoustic emission approach

Novel Instantaneous Wavelet Bicoherence for Vibration Fault Detection in Gear Systems

Contact Info

Product

Resources

About