Fragmentation model for the tensile response of unidirectional composites based on the critical number of fiber breaks and the correction of the fiber-matrix interfacial strength.

Vanegas-Jaramillo, Juan D.; Patiño-Arcila, Iván D.

doi:10.1590/1679-78255326

Cited by 3 publications

(7 citation statements)

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“…For the last fiber mixing ratio, α=0.75 (Figure 6h), ultimate tensile strength of CNB+τ* model is in the range of the other two models (FEM and FPM), but the ultimate strain is overpredicted. The CNB+τ* model was previously validated in [36] with experimental results for non-hybrid composites. In total, 25 experimental works were considered, obtaining an average relative difference of 5.01%.…”

Section: Comparison Of a Proposed Numerical Model With Previous Numerical Resultsmentioning

confidence: 99%

“…Given the advantage of GLS-based models to provide fast results, a model to accurately predict the ultimate tensile strength of unidirectional composites within a GLS framework, named CNB+τ* model, was previously developed [35], [36]. According to that model, the failure of the composite occurs when a critical density of fiber breaks, depending entirely on the constituent properties, is reached; when such happens, the fiber breaks interaction becomes significant to create 'avalanches events' of broken fibers that bring about the failure.…”

Section: Prediction Of Composite Tensile Behavior By Cnb+τ* Modelmentioning

confidence: 99%

“…• (1 − ), respectively, the critical number of breaks per unit length �Λ C �, ultimate tensile strength � + * � and corrected fiber-matrix interfacial strength ( * ) for each sub-composite are computed using the CNB+τ* model [36]. Thereupon, the final mechanical response of the hybrid composite can be obtained for any value of α as it was described in section 3.3.…”

Section: Obtaining the Optimum Fiber Mixing Ratio α Optmentioning

confidence: 99%

“…Other approaches have focused on the local fiber arrangement, where the proportion, as well as the thickness of the constituents, plays an important role in obtaining a pseudo-ductile response [9], [11], [12], [32]- [34]. In previous works [35], [36], we developed a Global Load Sharing (GLS)-based model, named CNB+τ* model, to obtain the stress-strain curves of glass and carbon unidirectional composites considering the critical number of fiber breaks and the correction of the fiber-matrix interfacial strength. The accuracy of CNB+τ* model was assessed by comparing the ultimate tensile strengths with the experimental ones reported in the literature.…”

Section: Introductionmentioning

confidence: 99%

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Fragmentation model for tensile behavior of intermingled hybrid composites and optimal mixing ratio

Jaramillo

Cruz

Patiño-Arcila

2021

Rev.Fac.Ing.Univ.Antioquia

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A numerical fragmentation model is proposed to predict the mechanical response of intermingled, unidirectional hybrid composites under tensile loads. The model is based on a previously developed for unidirectional composites considering the critical number of fiber breaks and the correction of the fiber-matrix interfacial strength. Hybrids comprising two reinforcements are considered, and the energetic contribution of reinforcements is evaluated during the damage process. Additionally, the pseudo-ductile strain, yield strength, and the level of degradation of each reinforcement are estimated. The present model is compared with a progressive failure model and micromechanical finite element simulations, obtaining some similarities in the stress-strain behavior. Results show that both low elongation and high elongation fiber sub-composite experience a linear tensile response where fibers remain intact (IF), and fragmentation (FM) where breaking appears. The sliding/separation phenomenon (SS) occurs in one of the sub-composites when crack saturation is obtained, and failure occurs when the other one undergoes the crack saturation. Results also show that the IF, FM, and SS phenomena are conditioned by the fiber mixing ratio, α. The model allows estimating the optimal value of α for which the highest pseudo-ductile strain and hybrid effect are reached.

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Section: Comparison Of a Proposed Numerical Model With Previous Numerical Resultsmentioning

confidence: 99%

Section: Prediction Of Composite Tensile Behavior By Cnb+τ* Modelmentioning

confidence: 99%

Section: Obtaining the Optimum Fiber Mixing Ratio α Optmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Fragmentation model for tensile behavior of intermingled hybrid composites and optimal mixing ratio

Jaramillo

Cruz

Patiño-Arcila

2021

Rev.Fac.Ing.Univ.Antioquia

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“…However, GF-PP had the lowest GF content in comparison to CPW-PP and GF-CPW-PP. Previous studies reported that [30][31][32][33] composite failure mechanisms may be represented as follows: when there is no load disruption by the reinforcement break under mechanical testing, the load is uniformly distributed among the fibres next to the break fibre resulting in a degree of concentrated stress developing on those fibres and damaging the surrounding matrix. Therefore, the presence of intense moisture increased vulnerability and decreased the tensile strength of the composites.…”

Section: Morphologymentioning

confidence: 99%

Structure Property Investigation of Glass-Carbon Prepreg Waste-Polymer Hybrid Composites Degradation in Water Condition

et al. 2020

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The limited shelf life of carbon prepreg waste (CPW) from component manufacturing restricts its use as a composite reinforcement fibre on its own. However, CPW can be recycled with glass fibre (GF) reinforcement to develop a unique remediate material. Therefore, this study fabricated (1) a glass fibre-carbon prepreg waste reinforced polymer hybrid composite (GF-CPW-PP), (2) a polypropylene composite (PP), (3) a carbon prepreg waste reinforced composite (CPW-PP), and (4) a glass fibre reinforced composite (GF-PP) and reported their degradation and residual tension properties after immersion in water. The polymer hybrid composites were fabricated via extrusion technique with minimum reinforce glass-carbon prepreg waste content of 10 wt%. The immersion test was conducted at room temperature using distilled water. Moisture content and diffusion coefficient (DC) were determined based on water adsorption values recorded at 24-h intervals over a one-week period. The results indicated that GF-PP reinforced composites retained the most moisture post-168 h of immersion. However, hardness and tensile strength were found to decrease with increased water adsorption. Tensile strength was found to be compromised since pores produced during hydrolysis reduced interfacial bonding between glass fibre and prepreg carbon reinforcements and the PP matrix.

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Παρασκευή τροποποιημένων προτύπων σύνθετων υλικών ινών άνθρακα/εποξειδικής ρητίνης και μελέτη της διεπιφάνειας με χρήση φασματοσκοπίας Raman

Κουτρουμάνης¹

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Τις τελευταίες δεκαετίες οι ίνες άνθρακα χρησιμοποιούνται όλο και περισσότερο ως μέσο ενίσχυσης συνθέτων υλικών σε προηγμένες τεχνολογικές εφαρμογές, λόγω των εξαιρετικών μηχανικών ιδιοτήτων τους. H κυριότερη παράμετρος που καθορίζει τη μηχανική συμπεριφορά ενός συνθέτου υλικού είναι η ποιότητα του διεπιφανειακού δεσμού μεταξύ του μητρικού υλικού και του μέσου ενίσχυσης. Πολλές μέθοδοι έχουν αναπτυχθεί για την επιφανειακή επεξεργασία των ινών άνθρακα, στοχεύοντας κυρίως στην επιφανειακή τροποποίηση τους μέσω της χημικής οξείδωσης, με τη χρήση ηλεκτρολυτικών μεθόδων, επεξεργασίας με πλάσμα κ.α. Με αυτό τον τρόπο επιτυγχάνεται βελτίωση της αλληλεπίδρασης μεταξύ της φάσης ενίσχυσης με τη μήτρα, με την ανάπτυξη κατάλληλων χημικών δεσμών ή την αύξηση της επιφανειακής τους τραχύτητας. Σκοπός της εργασίας αυτής είναι ο μηχανικός και φασματοσκοπικός χαρακτηρισμός τροποποιημένων σύνθετων υλικών ινών άνθρακα/εποξειδικής ρητίνης, με την ανάπτυξη μιας νέας, εύχρηστης και φιλικής προς το περιβάλλον επιφανειακής τροποποίησης (εποξείδωση) των ινών. Πιο συγκεκριμένα, παρουσιάζεται αρχικώς η μικρομηχανική μελέτη που έλαβε χώρα μέσω της χρήσης πρότυπων συνθέτων υλικών μονής ίνας, με σκοπό (α) τη μελέτη της πρόσφυσης των επιμέρους φάσεων που απαρτίζουν το σύνθετο υλικό (μήτρα και μέσο ενίσχυσης) και (β) την καταγραφή της εξέλιξης της διεπιφανειακής βλάβης που μπορεί να παρατηρηθεί στο σύνθετο υλικό όταν αυτό υπόκεινται σε μηχανική καταπόνηση. Κατόπιν γίνεται η αξιολόγηση των μακροσκοπικών ιδιοτήτων μακροσκοπικών συνθέτων (Vf ~ 60 %) μετά από τη χημική κατεργασία. Ο χαρακτηρισμός των δειγμάτων πραγματοποιήθηκε με τη χρήση διαφορετικών τεχνικών όπως τη φασματοσκοπία φωτοηλεκτρονίων ακτίνων-Χ (XPS), την ηλεκτρονική μικροσκοπία σάρωσης (SEM), τη φασματοσκοπία Raman και διαφόρων μηχανικών δοκιμών. Τέλος, παρουσιάζεται η διαδικασία παρασκευής και ο μηχανικός χαρακτηρισμός υβριδικών σύνθετων υλικών ινών άνθρακα και πολυμερικής μήτρας (πρότυπα και πλήρους κλίμακας) στην οποία πραγματοποιήθηκε εισαγωγή διδιάστατων υλικών, όπως το γραφένιο, με στόχο την έρευνα της επίδρασης των 2D υλικών στις μηχανικές ιδιότητες του τελικού συνθέτου υλικού.

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Fragmentation model for the tensile response of unidirectional composites based on the critical number of fiber breaks and the correction of the fiber-matrix interfacial strength.

Cited by 3 publications

References 53 publications

Fragmentation model for tensile behavior of intermingled hybrid composites and optimal mixing ratio

Fragmentation model for tensile behavior of intermingled hybrid composites and optimal mixing ratio

Structure Property Investigation of Glass-Carbon Prepreg Waste-Polymer Hybrid Composites Degradation in Water Condition

Παρασκευή τροποποιημένων προτύπων σύνθετων υλικών ινών άνθρακα/εποξειδικής ρητίνης και μελέτη της διεπιφάνειας με χρήση φασματοσκοπίας Raman

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