2017
DOI: 10.15376/biores.12.1.1826-1834
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Adding Aluminum Hydroxide to Plant Fibers Using In Situ Precipitation to Improve Heat Resistance

Abstract: Plant fiber is an environmentally friendly, renewable natural resource. It has several excellent properties such as a low density and high softness. These properties make it an especially good raw material for applications such as paper and construction. However, plant fiber has poor resistance to heat, which limits its application in high temperature conditions. Adding aluminum sulfate solution to plant fiber first, and then adding sodium hydroxide solution enables aluminum hydroxide to be distributed uniform… Show more

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Cited by 14 publications
(11 citation statements)
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“…The inflection point of both nanocomposite films occurred at around 330°C, given a weight loss of around 60% in the case of MFC-ATH40, and around 40% for MFC-AMH20 films, while, for the pure MFC sample, this temperature was at around 350°C with * 59% of weight loss. The addition of ATH/AMH nanoparticles also had a noticeable effect on the amount of residue after thermal decomposition, which increased from * 1.8% for pure MFC film to around 10% already with 0.09 wt% addition of ATH40 and AMH20, and further, to even * 20-23% for films containing the highest (0.15 wt%) NP concentrations, which is comparable with the other cellulose based materials containing different ATH nanoparticles (Gorgieva et al 2020;Zhang et al 2017;Yang et al 2017). The higher residue amount means that the ATH/AMH nanoparticles had suppressed the film' degradation successfully with the dilution of radicals in flame, while the residue of alumina formed the protective layer (Hull et al 2011).…”
Section: Mechanical Properties Of the Filmssupporting
confidence: 56%
“…The inflection point of both nanocomposite films occurred at around 330°C, given a weight loss of around 60% in the case of MFC-ATH40, and around 40% for MFC-AMH20 films, while, for the pure MFC sample, this temperature was at around 350°C with * 59% of weight loss. The addition of ATH/AMH nanoparticles also had a noticeable effect on the amount of residue after thermal decomposition, which increased from * 1.8% for pure MFC film to around 10% already with 0.09 wt% addition of ATH40 and AMH20, and further, to even * 20-23% for films containing the highest (0.15 wt%) NP concentrations, which is comparable with the other cellulose based materials containing different ATH nanoparticles (Gorgieva et al 2020;Zhang et al 2017;Yang et al 2017). The higher residue amount means that the ATH/AMH nanoparticles had suppressed the film' degradation successfully with the dilution of radicals in flame, while the residue of alumina formed the protective layer (Hull et al 2011).…”
Section: Mechanical Properties Of the Filmssupporting
confidence: 56%
“…The in ection point of both nanocomposite lms occurred at around 330°C, given a weight loss of around 60% in the case of MFC-ATH40w, and around 40% for MFC-ATH20p lms, while, for the pure MFC sample, this temperature was at around 350°C with 59% of weight loss. The addition of ATH nanoparticles also had a noticeable effect on the amount of residue after thermal decomposition, which increased from ∼1.8% for pure MFC lm to around 10% already with 30 w/w% addition of ATH40w and ATH20p, and further, to even ∼20-23% for lms containing the highest (50 w/w%) ATH concentrations, which is comparable with the other cellulose based materials containing different ATH nanoparticles (Gorgieva et al 2020;Zhang et al 2017;Yang et al 2017). The higher residue amount means that the ATH nanoparticles had suppressed the lm' degradation successfully with the dilution of radicals in ame, while the residue of alumina formed the protective layer (Hull et al 2011).…”
Section: Mechanical Properties Of the Lmssupporting
confidence: 53%
“…One of them was a placement of AH on the surfaces and inside walls of fibers. By implementing the method, AH was successfully distributed evenly on the inside and surfaces [24]. During exposure to high temperatures, AH starts to decompose while absorbing heat sourced from the radiant energy of the laser and eliminating water.…”
Section: Literature Reviewmentioning
confidence: 99%
“…This mechanism leads to the improvement of the thermal properties of the modified fibers and paper. Based on the Yang, F. et al study [24], the paper samples modified with AH content succeeded in resisting the heat by determining its thermal properties using the thermal gravimetric analysis (TGA). However, their study did not link with the application of laser irradiation process or discussed any thermal process [16].…”
Section: Literature Reviewmentioning
confidence: 99%
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