Detection of high stress concentration zone using magnetic flux leakage method-Reference-Cited by-同舟云学术

Detection of high stress concentration zone using magnetic flux leakage method

Published:2020-04-15 Issue:4 Volume:11 Page:615-624
ISSN:1757-9864
Container-title:International Journal of Structural Integrity
language:en
Short-container-title:IJSI

Author:

Firdaus Syed Muhamad,Arifin Azli,Sahadan Siti Norbaya,Abdullah Shahrum

Abstract

PurposeA tower crane mainly ensures the success or efficiency of building construction. Fatigue crack analysis is important for tower crane components to prevent any accidents to workers in construction sites caused by component failure and to ease the maintenance or replacement of failed components. This work aimed to characterise the damage of failed components, analyse the relationship between the metal magnetic memory (MMM) result and the damage of failed components, and to validate the relationship between MMM and finite element analysis (FEA).Design/methodology/approachMMM was used in this work to detect any irregularities or early failure on the basis of the high stress concentration zone of ferromagnetic steel using magnetic flux leakage. Magnetic flux leakage was used on the MMM device to achieve the first objective using the MMM system by detecting the irregularities. The results of MMM analysis were validated through comparison with FEA results by determining their relationship.FindingsMMM results show that the position of defects on the tower crane pulley is within the stress area shown on FEA.Originality/valueHence, MMM method is a potential tool in monitoring failure mechanism in construction site.

Publisher

Emerald

Subject

Mechanical Engineering,Mechanics of Materials,Civil and Structural Engineering

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3. Evaluating the Damage Mechanism Characteristics for Tower Crane Pulley Using Magnetic Flux Polar Mapping Distribution;Journal of Failure Analysis and Prevention;2021-11-11