Thermomechanical Characterization of CFRPs under Elevated Temperatures for Strengthening Existing Structures

Papadimitriou, Christina; Melidis, Lazaros; Kotoulas, Lambros; Makris, Nikolaos; Katakalos, Konstantinos

doi:10.3390/fib9120080

Cited by 5 publications

(6 citation statements)

References 26 publications

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“…Higher values of strength and elongation were reported for specimens after ethylene oxide sterilization. Temperature-induced sterilization contributes to scission of the polymer chain, which results in reduced tensile strength and elongation (Otaguro et al , 2010; Papadimitriou et al , 2021).…”

Section: Resultsmentioning

confidence: 99%

Experimental study on the effect of selected sterilization methods on mechanical properties of polylactide FFF specimens

Andrzejewska

2022

RPJ

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Purpose Biodegradable polymers are widely used in personalized medical devices or scaffolds for tissue engineering. The manufacturing process should be finished with sterilization procedure. However, it is not clear how the different sterilization methods have an impact on the mechanical strength of the three-dimensional (3D)-printed parts, such as bone models or personalized mechanical devices. This paper aims to present the results of mechanical testing of polylactide-based bone models before and after sterilization. Design/methodology/approach Polylactide specimens prepared in fused filament fabrication technology were sterilized with different sterilization methods: ultraviolet (UV) and ethylene oxide. Mechanical properties were determined by testing tensile strength, Young’s modulus and toughness. Findings The tensile strength of material after sterilization was significantly higher after ethylene oxide sterilization compared to the UV sterilization, but in both sterilization methods, the specimens characterized lower tensile strength and Young’s modulus when compared to the control. In comparison of toughness results, there was no statistically significant differences. The findings are particularly significant in the perspective of using individual implants, bone grafts and dental guides. Originality/value Although fused filament fabrication (FFF) 3D printing devices equipped with UV light sterilization options are available, experimental results of the effect of selected sterilization methods on the mechanical strength of additively manufactured parts have not been described. This paper completes the present state of the art on the problem of sterilization of FFF parts from biodegradable materials.

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Section: Resultsmentioning

confidence: 99%

Experimental study on the effect of selected sterilization methods on mechanical properties of polylactide FFF specimens

Andrzejewska

2022

RPJ

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“…This ideal elastic-brittle law is capable to replicate FRP's mechanical response with a rupture limit stress. The FRP sheets with thickness 0.13mm per sheet have a young's modulus 260GPa and a rupture stress equal to 2400MPa, according to experimental measurements available over the literature [9]. Again, the models are subjected to 3-point bending and the predicted behavior is compared with the virgin model (C0) in terms of load versus deflection curve, bending moment capacity and mode of failure.…”

Section: Methodsmentioning

confidence: 99%

“…Shell elements were used to represent the FRP sheets bonded to the concrete surface using cohesive interfaces. The FRP mechanical properties were derived by material testing [9], while the interface behavior was calibrated according to available information over the literature [2,6]. The validation of the numerical methodology used here is verified by a number of other publications [2,5,6,10].…”

Section: Introductionmentioning

confidence: 98%

Numerical Investigation of R/C Columns Before and After FRP Strengthening Under Seismic Type Loadings Utilizing a Novel Anchoring System

Kotanidou,

Melidis,

Katakalos

2023

Proceedings of the 8th International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering (COM

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The behavior of R/C columns before and after strengthening using FRP sheets is discussed here. The study focuses on the bending failure of columns. In particular, three numerical models of RC columns were developed representing a structural subassembly of a RC frame structure. One unstrengthened column and two strengthened with 1 FRP sheet and different bond strength. The numerical models employed all the mechanical properties of the materials explicitly, representing the concrete volume as solid finite elements, the steel reinforcement as wire elements and the FRP sheets as shell elements together with nonlinear interfaces capable to simulate the debonding mode of failure. The seismic type loads are applied as a monotonic horizontal load at the floor's slab level. Furthermore, as the structural upgrade is limited due to the delamination of the strengthening coating, a mechanical anchoring system is investigated and two more models are developed, with the FRP layers ideally anchored. The numerical predictions exhibited a significant increase of bearing capacity, over 50%, when FRP sheets are mechanically anchored. Finally, the novel anchoring system is fully simulated with all its details.

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“…Many studies showed that softening polymer matrix at elevated temperatures is the main reason causing the decrease in the mechanical properties of its composites. [26][27][28][29][30][31] Moreover, when the ambient temperature exceeds the T g , the mechanical properties of polymer composites degrade strongly because the polymer matrix losses robustly the strength and stiffness. As presented above, the T g of the CF/PA laminate is lower than 60°C.…”

Section: Temperature-dependent Compressive Properties Of the Cf/pa Co...mentioning

confidence: 99%

“…[25][26][27] The reduction in the mechanical properties of CFRPs at high temperatures can cause large deformations, the loss of reinforcement, and the eventual collapse of the CFRP structure. 28,29 Therefore, the time-temperature dependent behavior of CFRPs at elevated temperatures needs to be examined for their applications. [30][31][32] Nevertheless, most research on time-and temperature-dependent properties of CFRP laminates have been investigated under tensile and bending tests.…”

Section: Introductionmentioning

confidence: 99%

Time-and temperature-dependent compressive behavior of woven carbon fabric reinforced polyamide composite laminate

Nam

Goto

Tobata

et al. 2022

Journal of Composite Materials

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Plain woven carbon fabric reinforced polyamide (CF/PA) composite laminate was developed using hot-pressed processing with a vacuum-assisted system. Temperature-dependent mechanical properties of the CF/PA composite laminate under longitudinal compressive loading were examined. The compressive mechanical properties of the composite laminate decreased considerably with increasing the temperature to 120°C. The compressive strength and strain at maximal stress reduced rapidly below 80°C, while the compressive modulus declined slightly underneath 50°C. The glass transition temperature of the CF/PA composite was found to be about 50°C by the differential scanning calorimetry, which almost corresponded to the slight reduction of the elastic modulus at temperatures below 50°C. The time-dependent creep behavior of the CF/PA laminate under compressive loading at isotherms between 25°C and 50°C was studied. Creep strains of the CF/PA composite samples increased with rising temperature. The smooth creep compliance master curve of the CF/PA composite was obtained by shifting short-term creep compliance curves using the time–temperature superposition principle. The master curve provided a creep prediction to 961.6 days with the measured data in only 12.5 days.

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Thermomechanical Characterization of CFRPs under Elevated Temperatures for Strengthening Existing Structures

Cited by 5 publications

References 26 publications

Experimental study on the effect of selected sterilization methods on mechanical properties of polylactide FFF specimens

Experimental study on the effect of selected sterilization methods on mechanical properties of polylactide FFF specimens

Numerical Investigation of R/C Columns Before and After FRP Strengthening Under Seismic Type Loadings Utilizing a Novel Anchoring System

Time-and temperature-dependent compressive behavior of woven carbon fabric reinforced polyamide composite laminate

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