2019
DOI: 10.1016/j.polymer.2019.06.011
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Enhanced thermal stability and mechanical property of EVA nanocomposites upon addition of organo-intercalated LDH nanoparticles

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Cited by 37 publications
(19 citation statements)
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“…Hydrotalcite, also known as layered double hydroxide (LDH), is a typical anion clay that has been widely used in the fields of catalysis, biomedicine, energy storage, and flame retardancy. Among them, as one of the most typical hydrotalcites, MgAl-LDH is easy to prepare and of low cost, and there are abundant CO 3 2– and H 2 O in the interlayers of MgAl-LDH, which can dilute oxygen and reduce the surface temperature of the polymers when heated. In particular, as a halogen-free, environmentally friendly, and smoke-suppressing FR, MgAl-LDH has greatly attracted the interest of researchers. Nevertheless, the agglomeration phenomenon of pristine LDH prevented it from being well dispersed in the polymer matrix. , Moreover, to achieve the flame-retardant rating required by the polymer, it is often necessary to add a high loading of LDH, which would seriously damage the excellent mechanical properties and processing properties of the polymer. , Consequently, seeking an innovative strategy that can not only enhance the flame retardancy of LDH but also improve its dispersion is of great significance for the flame retardancy of polymers.…”
Section: Introductionmentioning
confidence: 99%
“…Hydrotalcite, also known as layered double hydroxide (LDH), is a typical anion clay that has been widely used in the fields of catalysis, biomedicine, energy storage, and flame retardancy. Among them, as one of the most typical hydrotalcites, MgAl-LDH is easy to prepare and of low cost, and there are abundant CO 3 2– and H 2 O in the interlayers of MgAl-LDH, which can dilute oxygen and reduce the surface temperature of the polymers when heated. In particular, as a halogen-free, environmentally friendly, and smoke-suppressing FR, MgAl-LDH has greatly attracted the interest of researchers. Nevertheless, the agglomeration phenomenon of pristine LDH prevented it from being well dispersed in the polymer matrix. , Moreover, to achieve the flame-retardant rating required by the polymer, it is often necessary to add a high loading of LDH, which would seriously damage the excellent mechanical properties and processing properties of the polymer. , Consequently, seeking an innovative strategy that can not only enhance the flame retardancy of LDH but also improve its dispersion is of great significance for the flame retardancy of polymers.…”
Section: Introductionmentioning
confidence: 99%
“…However, EVA is flammable and releases CO gas during burning [2]. In recent years, layered double hydroxides (LDHs) and intumescent flame retardants (IFRs) have been used to increase the flame retardancy and smoke suppression of the EVA matrix [3,4]. The LDH is composed of positively charged brucite-like layers, meanwhile containing charge-compensating anions and water molecules in the interlayer gallery [5].…”
Section: Introductionmentioning
confidence: 99%
“…As seen in Figure , all of these degradation curves included two steps. The first steps in the temperature range of 300–400 °C can be attributed to the degradation of fillers and loss of acetic acid in EVA, whereas the second steps that occur between 400 and 520 °C are considered to the degradation of ethylene-based chains and volatilization of the residual polymer. , Meanwhile, the derivative weight peak of the CFR (A5) appears near 355 °C, which is 10 and 13 °C higher than those of the PM (A4) and brucite (A2), respectively. Additionally, sample A5 exhibits the lower maximum weight loss rate of 3.01 wt %/min at 355 °C compared with A2 and A4, and its final residue is 34.61 wt % at 800 °C, which is higher than any other blends.…”
Section: Results and Discussionmentioning
confidence: 99%