Reinforcing mechanisms in compression of LDPE/HDPE foams by the incorporation of ethylene plasma-treated B 4 C

The role of the incorporation and ethylene plasma surface modification of B 4 C to reinforce foams based on low-density (LDPE) and high-density (HDPE) polyethylene blends, under compression, is investigated herein. Characterization of B 4 C was achieved through scanning electron microscopy (SEM), X-...

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Veröffentlicht in:	Journal of reinforced plastics and composites 2023-12
Hauptverfasser:	Ku-Herrera, José de Jesús, Soriano-Corral, Florentino, Soria-Arguello, Gustavo, Castro, Ricardo H. R., Jiménez-Barrera, Rosa Martha, Bolaina-Lorenzo, Ena Deyla, Amparán-Estrada, Ana Cristina, Durón-Sánchez, Lyndon Humberto Israel, Martínez-López, Katia Dafne Daniela, Hernández-Murillo, Christian Geovanni, Escalera-Velasco, Luis Alberto, Vega-Carrillo, Héctor René
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container_title	Journal of reinforced plastics and composites
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creator	Ku-Herrera, José de Jesús Soriano-Corral, Florentino Soria-Arguello, Gustavo Castro, Ricardo H. R. Jiménez-Barrera, Rosa Martha Bolaina-Lorenzo, Ena Deyla Amparán-Estrada, Ana Cristina Durón-Sánchez, Lyndon Humberto Israel Martínez-López, Katia Dafne Daniela Hernández-Murillo, Christian Geovanni Escalera-Velasco, Luis Alberto Vega-Carrillo, Héctor René
description	The role of the incorporation and ethylene plasma surface modification of B 4 C to reinforce foams based on low-density (LDPE) and high-density (HDPE) polyethylene blends, under compression, is investigated herein. Characterization of B 4 C was achieved through scanning electron microscopy (SEM), X-ray diffraction, and X-ray photoelectron spectroscopy. Composite foams, containing 0.5, 1.0, and 2.0 wt% of B 4 C, were characterized by SEM, differential scanning calorimetry, and compression testing. The increase of C-C bonds and the disappearance of oxygen-containing functional groups upon surface treatment confirmed that ethylene polymerizes on B 4 C forming strong chemical interactions. Both pristine and plasma-treated B 4 C in LDPE/HDPE foams act as nucleation agents yielding smaller cell size ( d), higher cell density ( N c ), and higher crystallinity ( X c ). The reinforcing mechanisms were analyzed considering N c , X c, and the B 4 C-matrix interactions. The foams reinforced with 2.0 wt% of plasma-treated B 4 C exhibited the highest improvements, with increments of ∼190% in the elastic modulus, 200% in the yielding strength, and 150% in the toughness at 50% of deformation, retaining the lightweight of the foams without B 4 C. This study presents valuable insights for developing advanced lightweight foams with improved mechanical properties, particularly for applications in cushioning automotive components, consumer goods, and biomedical devices.
doi_str_mv	10.1177/07316844231225072
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R. ; Jiménez-Barrera, Rosa Martha ; Bolaina-Lorenzo, Ena Deyla ; Amparán-Estrada, Ana Cristina ; Durón-Sánchez, Lyndon Humberto Israel ; Martínez-López, Katia Dafne Daniela ; Hernández-Murillo, Christian Geovanni ; Escalera-Velasco, Luis Alberto ; Vega-Carrillo, Héctor René</creator><creatorcontrib>Ku-Herrera, José de Jesús ; Soriano-Corral, Florentino ; Soria-Arguello, Gustavo ; Castro, Ricardo H. R. ; Jiménez-Barrera, Rosa Martha ; Bolaina-Lorenzo, Ena Deyla ; Amparán-Estrada, Ana Cristina ; Durón-Sánchez, Lyndon Humberto Israel ; Martínez-López, Katia Dafne Daniela ; Hernández-Murillo, Christian Geovanni ; Escalera-Velasco, Luis Alberto ; Vega-Carrillo, Héctor René</creatorcontrib><description>The role of the incorporation and ethylene plasma surface modification of B 4 C to reinforce foams based on low-density (LDPE) and high-density (HDPE) polyethylene blends, under compression, is investigated herein. Characterization of B 4 C was achieved through scanning electron microscopy (SEM), X-ray diffraction, and X-ray photoelectron spectroscopy. Composite foams, containing 0.5, 1.0, and 2.0 wt% of B 4 C, were characterized by SEM, differential scanning calorimetry, and compression testing. The increase of C-C bonds and the disappearance of oxygen-containing functional groups upon surface treatment confirmed that ethylene polymerizes on B 4 C forming strong chemical interactions. Both pristine and plasma-treated B 4 C in LDPE/HDPE foams act as nucleation agents yielding smaller cell size ( d), higher cell density ( N c ), and higher crystallinity ( X c ). The reinforcing mechanisms were analyzed considering N c , X c, and the B 4 C-matrix interactions. The foams reinforced with 2.0 wt% of plasma-treated B 4 C exhibited the highest improvements, with increments of ∼190% in the elastic modulus, 200% in the yielding strength, and 150% in the toughness at 50% of deformation, retaining the lightweight of the foams without B 4 C. 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Characterization of B 4 C was achieved through scanning electron microscopy (SEM), X-ray diffraction, and X-ray photoelectron spectroscopy. Composite foams, containing 0.5, 1.0, and 2.0 wt% of B 4 C, were characterized by SEM, differential scanning calorimetry, and compression testing. The increase of C-C bonds and the disappearance of oxygen-containing functional groups upon surface treatment confirmed that ethylene polymerizes on B 4 C forming strong chemical interactions. Both pristine and plasma-treated B 4 C in LDPE/HDPE foams act as nucleation agents yielding smaller cell size ( d), higher cell density ( N c ), and higher crystallinity ( X c ). The reinforcing mechanisms were analyzed considering N c , X c, and the B 4 C-matrix interactions. 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title	Reinforcing mechanisms in compression of LDPE/HDPE foams by the incorporation of ethylene plasma-treated B 4 C
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