The Effects of Reprocessing and Fiber Treatments on the Properties of Polypropylene-Sugarcane Bagasse Biocomposites

Correa-Aguirre, Juan P; Luna-Vera, Fernando; Caicedo, Carolina; Vera-Mondragón, Bairo; Hidalgo-Salazar, Miguel A.

doi:10.3390/polym12071440

Cited by 27 publications

(19 citation statements)

References 44 publications

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“…They show that fique powder and fique fibers improve the thermal stability of EP. These results have been reported for several biocomposites materials based on thermoplastic 5,24,25 and thermosetting matrices 3,11 and can be considered as an advantage in the performance and service temperature of these materials.…”

Section: Resultssupporting

confidence: 75%

Effect of fique fibers and its processing by-products on morphology, thermal and mechanical properties of epoxy based biocomposites

Centeno-Mesa

Lombana-Toro

Correa-Aguirre

et al. 2022

Sci Rep

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This work examines the morphology, mechanical and thermal properties of biocomposites based on epoxy resin-EP and fique (Furcraea andina), a native crop of South America. The EP-fique biocomposites were prepared using fique powder-FP an industrial waste generated during fique processing, nonwoven fique fiber mats-NWF and unidirectional fique fiber mats-UF oriented at 0° and 90°. The addition of fique into EP matrix restricts EP macromolecule chains movement and enhance the thermal stability of EP. SEM images showed that fique form used (powder or fiber) and mat arrangement can generate changes in the biocomposites morphology. Mechanical characterization show that fique powder and fique fibers oriented at 90° acts as fillers for the epoxy matrix while the fique fibers oriented at 0° reinforce EP matrix increasing the tensile and flexural modulus up to 5700 and 1100% respectively and tensile and flexural strength up to 277% and 820% in comparison with neat EP. The obtained results can increase the interest in researching and developing products from fique Powders and other natural fibers processing byproducts thus reducing the abundance of waste in soil and landfills and environmental concerns and suggest that the EP-fique biocomposites are promising to be used in the automotive sector.

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Section: Resultssupporting

confidence: 75%

Effect of fique fibers and its processing by-products on morphology, thermal and mechanical properties of epoxy based biocomposites

Centeno-Mesa

Lombana-Toro

Correa-Aguirre

et al. 2022

Sci Rep

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“…With the aim of investigating the effect of plasticizer content on the PLA molecular structure, Cole–Cole diagrams were used ( Figure 4 ). These diagrams are obtained by plotting the imaginary viscosity (η″) against the dynamic viscosity (η′) [ 38 ]. The Cole–Cole graph of a homogeneous material with a melt relaxation behavior described by a single relaxation time will form a semicircle [ 39 ].…”

Section: Resultsmentioning

confidence: 99%

Effect of Extrusion Screw Speed and Plasticizer Proportions on the Rheological, Thermal, Mechanical, Morphological and Superficial Properties of PLA

et al. 2020

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One of the critical processing parameters—the speed of the extrusion process for plasticized poly (lactic acid) (PLA)—was investigated in the presence of acetyl tributyl citrate (ATBC) as plasticizer. The mixtures were obtained by varying the content of plasticizer (ATBC, 10–30% by weight), using a twin screw extruder as a processing medium for which a temperature profile with peak was established that ended at 160 °C, two mixing zones and different screw rotation speeds (60 and 150 rpm). To evaluate the thermo-mechanical properties of the blend and hydrophilicity, the miscibility of the plasticizing and PLA matrix, Fourier transform infrared spectroscopy (FT-IR), thermogravimetric analysis (TGA) and differential scanning calorimetry (DSC), oscillatory rheological analysis, Dynamic Mechanical Analysis (DMA), mechanical analysis, as well as the contact angle were tested. The results derived from the oscillatory rheological analysis had a viscous behavior in the PLA samples with the presence of ATBC; the lower process speed promotes the transitions from viscous to elastic as well as higher values of loss modulus, storage modulus and complex viscosity, which means less loss of molecular weight and lower residual energy in the transition from the viscous state to the elastic state. The mechanical and thermal performance was optimized considering a greater capacity in the energy absorption and integration of the components.

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“…As can be seen in Figure a, the variations of storage modulus for the samples were similar to the changes in complex viscosity, with sample PP-0.5-270 having the greatest modulus. The higher storage modulus in the terminal zone indicates a melt with a longer relaxation time and more elastic behavior. − The slopes of G′ against angular frequencies at terminal regions as a measure of melt elasticity are determined in Figure b. By decreasing the slope G′, the melt elastic behavior is less dependent on the deformation in the terminal region and is more elastic.…”

Section: Resultsmentioning

confidence: 99%

Self-Assembly of Temperature Sensitive Additives in Polypropylene Melt and Its Influence on Viscoelasticity

Farahani

Jahani

Kakanejadifard

et al. 2022

Ind. Eng. Chem. Res.

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The use of a temperature-sensitive nucleating agent (NA) for polypropylene (PP), besides its influence on the crystallization characteristic, provides a platform to affect the rheology of molten PP by controlling its self-assembly behavior. In this study, in order to clarify the dependence of the melt rheology properties on the self-assembly behavior of N,N′,N′′-tricyclohexyl-1,3,5-benzenetricarboxylamid, changes in the NA content and final process temperatures (T f ) were used to control the selfassembly behavior of the NA molecules. The morphological and rheological behavior of samples were studied at 180 °C and evaluated by using central composite designresponse surface methodology (CCD-RSM). The polarized optical microscopy results showed a fibril shape structure with a length in the range of 26−94 μm and diameter of 3−11 μm. The regression analysis models revealed that the increase in NA wt % and T f favored the formation of larger fibrils in length and diameter, and the impact of NA wt % was more significant than T f . Shear rheometry results indicated that the fiber size and its distribution were both directly related to an increase in complex viscosity and storage modulus. The study of the zero shear viscosity, crossover frequency, Cole−Cole plot, and also ANOVA analysis indicated that the optimal value for T f is 270 °C and for NA is 0.5 wt %.

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The Effects of Reprocessing and Fiber Treatments on the Properties of Polypropylene-Sugarcane Bagasse Biocomposites

Cited by 27 publications

References 44 publications

Effect of fique fibers and its processing by-products on morphology, thermal and mechanical properties of epoxy based biocomposites

Effect of fique fibers and its processing by-products on morphology, thermal and mechanical properties of epoxy based biocomposites

Effect of Extrusion Screw Speed and Plasticizer Proportions on the Rheological, Thermal, Mechanical, Morphological and Superficial Properties of PLA

Self-Assembly of Temperature Sensitive Additives in Polypropylene Melt and Its Influence on Viscoelasticity

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