Damage Assessment of Glass-Fibre-Reinforced Plastic Structures under Quasi-Static Indentation with Acoustic Emission

Osa-uwagboe, Norman; Udu, Amadi Gabriel; Silberschmidt, Vadim V.; Baxevanakis, Konstantinos P.; Demirci, Emrah

doi:10.3390/ma16145036

Cited by 10 publications

(7 citation statements)

References 45 publications

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“…The conical indenter geometry led to an early onset of damage, while the seawater induced plasticisation and swelling of the epoxy matrix, affecting the adhesive bonding between the constituents of the FRPSS. At the microscale, this deterioration was characterized by a weaker fibre/matrix interface, as well as reduced intra- and interlaminar bonding, and debonding between the face sheet and the core at the macroscale [ 30 ]. In the case of indentation with larger contact areas, such as with hemispherical and flat indenters, the GSV samples were the most affected by the seawater exposure, experiencing decreases in the failure load of 38.8% and 46.1%, respectively.…”

Section: Resultsmentioning

confidence: 99%

“…Similarly, maintaining a constant pH level was crucial to prevent chemical reactions with the samples. Moisture absorption in composite structures occurs through three mechanisms: (i) moisture ingress into manufacturing-induced defects [ 25 ]; (ii) capillary/wicking along the fibre/matrix interface; (iii) combination of water molecules and hydrophilic resin groups [ 30 ]. Gravimetric measurements were conducted to determine the moisture gain in the exposed samples [ 15 ].…”

Section: Materials Experiment and Methodologymentioning

confidence: 99%

“…During the test, the indenter was aligned with the centre of the specimen with an offset of no more than 0.01 mm and was then applied until complete perforation of the sample. Further details regarding the QSI methodology employed can be found in our previous study [ 30 ].…”

Section: Materials Experiment and Methodologymentioning

confidence: 99%

“…The challenge of k -means++ is usually the need to specify the number of clusters a priori [ 23 , 35 , 36 ]. It is noteworthy that the optimum clusters for the k -means++ were identified in the previous work [ 30 ] using two cluster-validity indices, namely the normalized Calinski–Harabasz index and the Davies–Bouldin index.…”

Section: Materials Experiment and Methodologymentioning

confidence: 99%

“…This is based on the direct correlation between the damage to the material, its susceptibility to moisture ingress, and the variation in the AE features during loading. Although four damage modes were identified in a previous study and were shown to be influenced by specific indenter geometries [ 30 ], the novelty of this work is its analysis of the effects of seawater on the structural health of FRPSS.…”

Section: Introductionmentioning

confidence: 99%

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Effects of Seawater on Mechanical Performance of Composite Sandwich Structures: A Machine Learning Framework

Osa-uwagboe,

Udu,

Silberschmidt

et al. 2024

Materials

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Sandwich structures made with fibre-reinforced plastics are commonly used in maritime vessels thanks to their high strength-to-weight ratios, corrosion resistance, and buoyancy. Understanding their mechanical performance after moisture uptake and the implications of moisture uptake for their structural integrity and safety within out-of-plane loading regimes is vital for material optimisation. The use of modern methods such as acoustic emission (AE) and machine learning (ML) could provide effective techniques for the assessment of mechanical behaviour and structural health monitoring. In this study, the AE features obtained from quasi-static indentation tests on sandwich structures made from E-glass fibre face sheets with polyvinyl chloride foam cores were employed. Time- and frequency-domain features were then used to capture the relevant information and patterns within the AE data. A k-means++ algorithm was utilized for clustering analysis, providing insights into the principal damage modes of the studied structures. Three ensemble learning algorithms were employed to develop a damage-prediction model for samples exposed and unexposed to seawater and were loaded with indenters of different geometries. The developed models effectively identified all damage modes for the various indenter geometries under different loading conditions with accuracy scores between 86.4 and 95.9%. This illustrates the significant potential of ML for the prediction of damage evolution in composite structures for marine applications.

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Section: Resultsmentioning

confidence: 99%

Section: Materials Experiment and Methodologymentioning

confidence: 99%

Section: Materials Experiment and Methodologymentioning

confidence: 99%

Section: Materials Experiment and Methodologymentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Effects of Seawater on Mechanical Performance of Composite Sandwich Structures: A Machine Learning Framework

Osa-uwagboe,

Udu,

Silberschmidt

et al. 2024

Materials

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Review on Mechanical Performance of Fibre-Reinforced Plastics in Marine Environments

Osa-uwagboe,

Silberschmidt,

Demirci

2024

Appl Compos Mater

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Fibre-reinforced plastics (FRPs) are increasingly popular in marine applications, such as boats, offshore wind-power installations, as well as oil and gas offshore systems thanks to their high stiffness, light weight, and damage resistance. This paper aims to examine the recent developments in the investigation of the effects of moisture uptake on the mechanical performance of FRP for maritime applications, to identify the gaps in the literature, and to suggest likely future research directions in this area. While the review is limited to recent studies—within the last two decades, it discusses in detail the current advances in the experimental investigations of moisture uptake on critical mechanical performance including tensile, flexural, shear and viscoelastic properties, thus covering the major quasi-static and dynamic regimes of FRPs subjected to seawater exposure.

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Effect of water absorption, hardness, and acoustic properties on sandwich syntactic foam composite for structural and marine applications

Afolabi,

Mohan,

Kanny

2024

Discov Mater

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In this study, a sandwich composite structure was fabricated with core syntactic foam composites (SFC) reinforced with face-sheets of combined kenaf and glass fibers. The core SFC was made from hollow glass microsphere (HGM)/epoxy resin mixture. The focus of this study is to design a suitable material for marine, automobile, and structural applications by investigating the water absorption capacity, hardness, buoyancy, and acoustic resistance level of the sandwich composite. Four sequences of face-sheet reinforcement [e.g. kenaf-kenaf(KK); glass-glass(GG); glass-kenaf(GK), and kenaf-glass(KG)] were adopted. The results show that the KK sandwich absorbed more water, with buoyancy level of 0.329% than other sequence. GK shows the highest sandwich in hardness strength with 58Hv, and 35% more than the KK, while there was no significant difference in the sound pressure level of the sandwich composite.

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Damage Assessment of Glass-Fibre-Reinforced Plastic Structures under Quasi-Static Indentation with Acoustic Emission

Cited by 10 publications

References 45 publications

Effects of Seawater on Mechanical Performance of Composite Sandwich Structures: A Machine Learning Framework

Effects of Seawater on Mechanical Performance of Composite Sandwich Structures: A Machine Learning Framework

Review on Mechanical Performance of Fibre-Reinforced Plastics in Marine Environments

Effect of water absorption, hardness, and acoustic properties on sandwich syntactic foam composite for structural and marine applications

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