2022
DOI: 10.1007/s10965-022-03342-6
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Natural fiber reinforced biomass-derived poly(ester-urethane–acrylate) composites for sustainable engineering applications

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Cited by 5 publications
(1 citation statement)
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“…Equilibrium water absorption is achieved, through competitive weight gain and weight loss, the moisture content remains virtually constant over time. On the one hand, RFPR undergoes chemical degradation of small resin molecules and ramie fibers under high temperatures and high-humidity conditions, such as the loss of pectin, hemicellulose and some cellulose with poor crystallization, resulting in a decrease in sample weight [ 31 ], while these damages provide extra space for water absorption, resulting in increased water absorption. On the other hand, the high moisture content of the RFRP sample (saturated moisture content is approximately 5.2%) leads to fiber swelling, leading to resin cracking or interfacial debonding between the fiber and the resin matrix, which also provides more space for the absorption of water molecules [ 32 ].…”
Section: Resultsmentioning
confidence: 99%
“…Equilibrium water absorption is achieved, through competitive weight gain and weight loss, the moisture content remains virtually constant over time. On the one hand, RFPR undergoes chemical degradation of small resin molecules and ramie fibers under high temperatures and high-humidity conditions, such as the loss of pectin, hemicellulose and some cellulose with poor crystallization, resulting in a decrease in sample weight [ 31 ], while these damages provide extra space for water absorption, resulting in increased water absorption. On the other hand, the high moisture content of the RFRP sample (saturated moisture content is approximately 5.2%) leads to fiber swelling, leading to resin cracking or interfacial debonding between the fiber and the resin matrix, which also provides more space for the absorption of water molecules [ 32 ].…”
Section: Resultsmentioning
confidence: 99%