Tensile Properties of Polypropylene Composites Reinforced with Mechanical, Thermomechanical, and Chemi-Thermomechanical Pulps from Orange Pruning

Reixach, Rafel; Espinach, Francesc X.; Arbat, Gerard; Julián, Fernando; Delgado-Aguilar, Marc; Puig, Josep; Mutjé, Pere

doi:10.15376/biores.10.3.4544-4556

Cited by 29 publications

(32 citation statements)

References 34 publications

(54 reference statements)

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“…For SB fibers, it is probable that surface hydroxyl group density increased due to the progressive elimination of a small fraction of lignin and extractives. Reixach et al (2013bReixach et al ( , 2015 obtained yields of 99.1% for MP, 94.7% for TMP, and 90.1% for CTMP for orange tree pruning. These values are comparable to those achieved with SB.…”

Section: Resultsmentioning

confidence: 99%

“…This behavior is similar to that observed in other natural fiber-reinforced composites. Compared with SGW-reinforced composites, the elongation at the break was 4.2% and was 4% for MP orange pruning fibers, where in all cases 30% reinforcement and 6% MAPP were added to the composite Reixach et al 2015). Toughness is associated with the stress and strain at break as well as the shape of the stress-strain curve.…”

Section: Tensile Strength Propertiesmentioning

confidence: 99%

“…Consequently, the material with the highest properties will not always be the best because the importance of the relative property must be weighed against the process yield. Recently, the differences in yield did not justify marginal improvements in the tensile strength of CTMP-reinforced composites, such that MP-reinforced composites were favored (Reixach et al 2015). In any case, when the matrix is a polypropylene, the use of MAPP is essential for obtaining a good interphase between the matrix and the reinforcement/filler; this requirement is independent of the nature of the fibers.…”

Section: Introductionmentioning

confidence: 99%

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Tensile Strength Assessment of Injection-Molded High Yield Sugarcane Bagasse-Reinforced Polypropylene

et al. 2016

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Sugarcane bagasse was treated to obtain sawdust, in addition to mechanical, thermomechanical, and chemical-thermomechanical pulps. The obtained fibers were used to obtain reinforced polypropylene composites prepared by injection molding. Coupling agent contents ranging from 2 to 10% w/w were added to the composite to obtain the highest tensile strength. All the composites included 30% w/w of reinforcing fibers. The tensile strength of the different sugarcane bagasse fiber composites were tested and discussed. The results were compared with that of other natural fiber-or glass fiber-reinforced polypropylene composites. Pulp-based composites showed higher tensile strength than sawdust-based composites. A micromechanical analysis showed the relationship of some micromechanical properties to the orientation angle, critical length, the intrinsic tensile strength, and the interfacial shear strength. The pulps showed similar intrinsic tensile strengths and were higher than that of sawdust. The properties of the sugarcane bagasse composites compared well with other natural fiber-reinforced composites.

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Section: Resultsmentioning

confidence: 99%

Section: Tensile Strength Propertiesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Tensile Strength Assessment of Injection-Molded High Yield Sugarcane Bagasse-Reinforced Polypropylene

et al. 2016

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“…However, the MP, TMP, and CTMP were expected to noticeably increase tensile strengths. The aforementioned statement is only true when the other parameters affecting the tensile strength of a composite, particularly a good interphase, are guaranteed (Reixach et al 2013(Reixach et al , 2015.…”

Section: Morphological Characterization Of the Fibersmentioning

confidence: 99%

“…Strategies based on economic performance may attempt to reduce the weight percentage of expensive matrices by adding cheap fillers (Gu et al 2016). The property-based point of view is more interested in achieving higher tensile strengths or stiffness by introducing reinforcements (Vallejos et al 2012;Reixach et al 2015;Granda et al 2016). However, the environmental strategy focuses on replacing one or all the phases of a composite with more environmentally friendly components (Serrano et al 2014).…”

Section: Introductionmentioning

confidence: 99%

Starch-Based Biopolymer Reinforced with High Yield Fibers from Sugarcane Bagasse as a Technical and Environmentally Friendly Alternative to High Density Polyethylene

Jiménez¹,

Espinach²,

Delgado-Aguilar³

et al. 2016

BioResources

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Greener composites, as alternatives to more common materials, should also achieve technical and economic feasibility to be commercially competitive. This study presents the results obtained from using a biodegradable starch-based matrix, and a natural fiber reinforcement coming from sugarcane bagasse, currently an agro-waste. The sugarcane bagasse biomass was treated to obtain four kinds of fibers with different morphological and chemical properties. The fibers were used to obtain composite materials, which were then tested for tensile properties. The results showed that some of the composites were suitable to replace high density polyethylene, from a technical and environmental point of view. The comparatively higher cost of the biobased matrices hinders the substitution, but the higher the fiber content, the lower the economic disadvantage. A micromechanical test and a sensitivity analysis showed that the fiber orientation had the highest impact on the tensile strength, followed by the fibers mean length and the quality of the interphase between the fibers and the matrix.

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Use of Composite Materials in the Design of a Ventilation Grille Attending to Eco-Sustainability Factors

Orús

Pérez

Alcalà

et al. 2020

Lecture Notes in Mechanical Engineering

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Tensile Properties of Polypropylene Composites Reinforced with Mechanical, Thermomechanical, and Chemi-Thermomechanical Pulps from Orange Pruning

Cited by 29 publications

References 34 publications

Tensile Strength Assessment of Injection-Molded High Yield Sugarcane Bagasse-Reinforced Polypropylene

Tensile Strength Assessment of Injection-Molded High Yield Sugarcane Bagasse-Reinforced Polypropylene

Starch-Based Biopolymer Reinforced with High Yield Fibers from Sugarcane Bagasse as a Technical and Environmentally Friendly Alternative to High Density Polyethylene

Use of Composite Materials in the Design of a Ventilation Grille Attending to Eco-Sustainability Factors

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