Investigating Thermal Stability and Flame Retardant Properties of Synthesized Halloysite Nanotubes (HNT)/Ethylene Propylene Diene Monomer (EPDM) Nanocomposites

Azarmgin, S.; Kaffashi, Babak; Davachi, Seyed Mohammad

doi:10.3139/217.2789

Cited by 14 publications

(4 citation statements)

References 28 publications

(33 reference statements)

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“…52 Therefore, the samples are expected to show higher crystallinity and T m as compared to the previous samples. Based on the mechanical properties, a high content of lignin and silica together activates the paste effect and for the lower amounts, lignin may act as a plasticizer, as a result, for lower filler content, both T m and H c show a sensible drop in their values compared with the PSRS0 and RS or HWRS-filled samples, although by increasing the filler content silica would actively act as a nucleating agent 53 and somehow reciprocate the lignin plastication effect. The effect of silica is obvious in X t , as the value is increased from 10.91 to 14.32%.…”

Section: Thermal Analysismentioning

confidence: 99%

Investigating the Effect of Treated Rice Straw in PLLA/Starch Composite: Mechanical, Thermal, Rheological, and Morphological Study

Davachi

Bakhtiari

Pouresmaeel-Selakjani

et al. 2015

Adv Polym Technol

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ABSTRACT:The aim of this work is to use lignocellulosic wastes as low price additives in biodegradable polymers. The rice straw (RS) was treated by means of different methods, and then it was introduced to the poly(lactic acid)/starch composites. The effects of different treatments on RS properties were investigated using the Fourier transform infrared, tensile, charpy, hardness, differential scanning calorimetry, rheology, contact angle, and scanning electron microscopy. It was found that 5-10% of all the differently treated RS increases the overall properties. Moreover, silica and lignin were mainly affected by such treatments; however, a balance between silica and lignin shows the best results. The modified alkali-treated rice straw (ARS treatment) prevented cellulose from degradation by creating a balance between silica and lignin, which controls the opposing effects of lignin including paste-like and plasticating effects. Finally, the ARS-filled samples show improved overall properties among the other samples. The obtained composites with optimum filler content may be used in the biomembranes and food packaging applications. C 2015 Wiley Periodicals, Inc. Adv Polym Technol 2018, 37, 21634; View this article online at wileyonlinelibrary.com.

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Section: Thermal Analysismentioning

confidence: 99%

Investigating the Effect of Treated Rice Straw in PLLA/Starch Composite: Mechanical, Thermal, Rheological, and Morphological Study

Davachi

Bakhtiari

Pouresmaeel-Selakjani

et al. 2015

Adv Polym Technol

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“…HNTs with molecular formula (Al 2 Si 2 O 5 (OH) 4 •nH 2 O) are similar to kaolin, but their hollow structure gives reason to hope that it can be considered as a flame retardant additive [39,41]. Previous studies have uncovered the fact that addition of HNTs at high loading levels (more than 20 wt.%) and/or in combination with conventional flame retardants to polypropylene [42], poly (vinyl alcohol) [43], polyamide 6 [44,45], low-density polyethylene [38,46], ethylene propylene diene monomer [47], and epoxy resin [48,49] could to a large extent improve flame retardancy of polymers. Moreover, recent studies have shown that incorporation of HNTs has a positive effect on thermal degradation of epoxy-based intumescent fire retardant coatings [50].…”

Section: Introductionmentioning

confidence: 99%

Flame retardant epoxy/halloysite nanotubes nanocomposite coatings: Exploring low-concentration threshold for flammability compared to expandable graphite as superior fire retardant

Vahabi

Saeb

Formela

et al. 2018

Progress in Organic Coatings

102

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Epoxy nanocomposites containing halloysite nanotubes (HNTs) were developed and their low-concentration thresholds for thermal stability and flame retardancy were compared with that of epoxy system containing expandable graphite (EG), as a reference with superior flame retardancy. The effects of HNTs and EG on the peak of Heat Release Rate (pHRR), Total Heat Release (THR), and Time-To-Ignition (TTI) of the prepared samples were subsequently discussed. At low loading level of 3 wt.%, HNTs appeared more effective, as signaled by an enhanced thermal stability compared to the EG-incorporated composite at an identical loading, because of hindered mobility of epoxy chains in a well-cured epoxy network. At higher loadings (6 and 9 wt.%), however, exfoliation of EG because of heat build-up in the system was dominantly hindered the crosslinking of epoxy it the presence of HNTs, which consequently deteriorated thermal stability of epoxy. This was featured by the formation of intumescent flake on the surface of the epoxy that played the role of a physical barrier, and assisted in reduction of the value of pHRR, while it doubled the TTI value. Different functions of HNTs and EG in regard with thermal stability and flame retardancy of epoxy/amine systems were discussed experimentally and mechanistically.

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“…It is clear that the crystallization peaks became narrower upon addition of nanoperlite. According to the reported data in Table , the width of half‐height crystallization peak ( WHH) shows a decreasing trend as the nanoperlite increases the rate of crystallization due to the nucleating effect . We postulate that nanoperlite plays two roles in the crystallization of LDPE.…”

Section: Resultsmentioning

confidence: 84%

Investigating Thermal and Surface Properties of Low‐Density Polyethylene/Nanoperlite Nanocomposites for Packaging Applications

Heidari¹,

Davachi

Sahraeian

et al. 2018

Polymer Composites

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Nanocomposites films based on low‐density polyethylene (LDPE) and different compositions of treated and untreated nanoperlite were prepared via melt mixing of the ingredients on a corotating twin‐screw extruder and then film blowing the nanocomposites. The physical dispersion of the nanocomposites is confirmed using Fourier transform infrared‐attenuated total reflectance (FTIR‐ATR) method. According to the thermal studies, the nanocomposites with untreated nanoperlite showing higher melting temperature and crystallinity, while their thermal stability is lower than nanocomposites with treated nanoperlite. The thermal and FTIR‐ATR studies also revealed the ethylene absorption of the nanocomposites. According to the surface energy results, the treatment of the nanoparticles completely changes the surface behavior and hydrophobicity of the films. Finally, peel color index and field study observations showed that increase in nanoperlite will increase the shelf life of the fruits; however, the nanocomposite with 6% untreated nanoperlite is the best choice for the packaging applications. POLYM. COMPOS., 40:2929–2937, 2019. © 2018 Society of Plastics Engineers

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Investigating Thermal Stability and Flame Retardant Properties of Synthesized Halloysite Nanotubes (HNT)/Ethylene Propylene Diene Monomer (EPDM) Nanocomposites

Cited by 14 publications

References 28 publications

Investigating the Effect of Treated Rice Straw in PLLA/Starch Composite: Mechanical, Thermal, Rheological, and Morphological Study

Investigating the Effect of Treated Rice Straw in PLLA/Starch Composite: Mechanical, Thermal, Rheological, and Morphological Study

Flame retardant epoxy/halloysite nanotubes nanocomposite coatings: Exploring low-concentration threshold for flammability compared to expandable graphite as superior fire retardant

Investigating Thermal and Surface Properties of Low‐Density Polyethylene/Nanoperlite Nanocomposites for Packaging Applications

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