Thermal and dynamic mechanical behavior of epoxy composites reinforced with post‐consumed yerba mate

Neves, Roberta Motta; Vanzetto, Andrielen Braz; Lazzari, Lídia Kunz; Zattera, Ademir J.

doi:10.1002/app.50438

Cited by 10 publications

(20 citation statements)

References 53 publications

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“…[35][36][37] However, it is noteworthy to mention that a rougher and a high number of holes are formed when the composite is cryogenically fractured with a greater reinforcement content (e/YM 10% and 20%), due to the pull-out mechanism. 38 This result might be related to the non-chemical interaction between epoxy resin and YM particles, observed in a previous work 39 where it was shown in FTIR spectra that the incorporation of YM onto epoxy did not altered the spectrum. Moreover, when particulate fillers are used above their saturation, the surface touching each other starts to be more pronounced in the polymer matrix, decreasing the adhesion and filler/matrix interface area.…”

Section: Surface Morphologymentioning

confidence: 78%

“…Since the aim was to verify the influence of YM content in the glassy region, therefore the tests were performed between 30 and 90°C, based on the storage modulus curves of the composites. 1 Creep tests were performed based on previous studies. 14,17,33 The temperature was set at 30°C and three different loads were applied: 1.5, 3.0, and 6.0 MPa, using a pre-load force of 0.1 N. The tests were carried out in creep mode and each load was applied at the center of the sample, through the sample thickness, for 30 min, aiming to reach equilibrium.…”

Section: Characterizationmentioning

confidence: 99%

“…Brazil plays an important role in YM production and consumption since they produced around 390 thousand tons, of which 80% was destined for the internal market, in 2018. 1,2 It is estimated that the per capita consumption of yerba mate in Brazil lays around 1.2–5 kg per year. 3 Due to its high consumption, a huge amount of waste is produced.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Modeling of the creep behavior of epoxy/yerba-mate residue composites

Neves

Kerche

Monticeli

et al. 2022

Journal of Composite Materials

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This work presents the short-term creep behavior of novel epoxy composites reinforced by post-consumed yerba-mate (YM). Particulate composites were manufactured using 5, 10, and 20 wt.% of YM. The composite morphologies were related to the dynamic mechanical and creep behavior at the glassy state (∼30°C). Creep tests were performed using three different stress loads (1.5, 3.0, and 6.0 MPa). Weibull model, Artificial Neural Network (ANN) approach and Response Surface Methodology (RSM) were used to fit the experimental curves and to predict results. A better fit was obtained using the ANN approach than the Weibull model due to the capability of ANN to learn from own data and in fitting complex nonlinear data. The RSM approach proved to be an intelligent and reliable technique to access a higher range of results, reducing experimental time and cost and keeping statistical significance. Also, the present methodology can be extended to model and predict other properties and/or optimize parameters.

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Section: Surface Morphologymentioning

confidence: 78%

Section: Characterizationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Modeling of the creep behavior of epoxy/yerba-mate residue composites

Neves

Kerche

Monticeli

et al. 2022

Journal of Composite Materials

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“…Table 1 summarizes the main temperatures related to the curing of the epoxy and epoxy IL-treated AP composites. No significant differences on T onset and T peak are presented for all composites or neat epoxy, which means that AP does not influence on the beginning of epoxy curing [31]. On the other hand, the heat realized (ΔH) during the cure presents a slight increment, when AP is used, which may be attributed to the catalytic effect of AP in the ring opening reaction of epoxy, by the presence of amine groups on the AP surface [32].…”

Section: Treated Aramid Pulp/epoxy Composites' Properties 321 Curing Kineticmentioning

confidence: 80%

“…All samples presented an exothermic peak during curing, indicating the formation of a high crosslinking density, as expected. Moreover, according McCoy et al [30], the curing kinetic of a DGEBA epoxy resin is a complex reaction system and the use of fillers may promote different events in the DSC curve shape [31]. Table 1 summarizes the main temperatures related to the curing of the epoxy and epoxy IL-treated AP composites.…”

Section: Treated Aramid Pulp/epoxy Composites' Properties 321 Curing Kineticmentioning

confidence: 99%

Epoxy-based composites reinforced with imidazolium ionic liquid-treated aramid pulp

Kerche

Silva

Fonseca

et al. 2021

Polymer

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Two types of physisorbed imidazolium ionic liquids (IL), 1-n-butyl-3-methylimidazolium chloride (C 4 MImCl) or 1-n-butyl-3-methylimidazolium acetate (C 4 MImAc), were used for the surface treatment of polyaramid pulp (AP), aiming to enhance the interaction with an epoxy matrix. The treatments promoted a greater defibrillation of AP, which was most likely due to an interference of IL in the hydrogen bonding network of polyaramid. Composites of AP/epoxy (0.2, 0.4 or 0.6 parts per hundred of resin (phr)) were prepared, and those with 0.4 phr of IL-treated AP presented enhanced mechanical properties, compared to the neat or the untreated AP composites. Better homogeneity and stronger bonding between AP and the epoxy matrix were also observed, especially in the case of AP treated with C 4 MImCl. Moreover, the AP surface treatment increased the glass transition temperature and the storage moduli in both glassy and rubbery regions. The fracture toughness improvement of the composites was also achieved with the addition of the IL-treated AP.

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Effect of cure temperature on the thermal degradation, mechanical, microstructural and moisture absorption behavior of vacuum‐only, carbon‐fiber reinforced phenolic composites

Zaldivar

Ferrelli

Arredondo

et al. 2022

J of Applied Polymer Sci

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Phenolic resin is the material of choice used for composite liners in solid rocket motor nozzles. We investigate the effect of the cure conditions (94, 116, and 155 C) on vacuum only (VO) processed composite mechanical, thermal, and microstructural changes. Although the T g 's correlated with the processing conditions, mechanical properties showed unexpected non-linear degradation after 94 C processing. This difference is primarily due to the lower cure state of the

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Thermal and dynamic mechanical behavior of epoxy composites reinforced with post‐consumed yerba mate

Cited by 10 publications

References 53 publications

Modeling of the creep behavior of epoxy/yerba-mate residue composites

Modeling of the creep behavior of epoxy/yerba-mate residue composites

Epoxy-based composites reinforced with imidazolium ionic liquid-treated aramid pulp

Effect of cure temperature on the thermal degradation, mechanical, microstructural and moisture absorption behavior of vacuum‐only, carbon‐fiber reinforced phenolic composites

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