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[42] Zammarano M, Bellayer S, Gilman J W, et al. Delamination of oleate layered double hydroxides: Effects of the polymeric
organo-modified layered double hydroxides in polyamide 6 by melt compatibilizer and of composition on the thermal and fire properties
processing[J]. Polymer, 2006, 47(2): 652-662. of PP/LDH nanocomposites[J]. Polymer Degradation and Stability,
[43] Du L C, Qu B J. Preparation of LLDPE/MgAl-LDH exfoliation 2009, 94(11): 2042-2054.
nanocomposites with enhanced thermal properties by melt [61] Wang X, Rathore R, Songtipya P, et al. EVA-layered double
intercalation[J]. Chinese Journal of Chemistry, 2006, 24(10): 1342- hydroxide (nano) composites: Mechanism of fire retardancy[J].
1345. Polymer Degradation and Stability, 2011, 96(3): 301-313.
[44] Qiu L, Chen W, Qu B. Morphology and thermal stabilization [62] Zhang M, Ding P, Qu B. Flammable, thermal, and mechanical
mechanism of LLDPE/MMT and LLDPE/LDH nanocomposites[J]. properties of intumescent flame retardant PP/LDH nanocomposites
Polymer, 2006, 47 (3): 922-930. with different divalent cations[J]. Polymer Composites, 2009, 30(7):
[45] Matusinovic Z, Lu H, Wilkie C A. The role of dispersion of LDH in 1000-1006.
fire retardancy: The effect of dispersion on fire retardant properties [63] Xu S, Zhang L, Lin Y, et al. Layered double hydroxides used as
of polystyrene/Ca-Al layered double hydroxide nanocomposites[J]. flame retardant for engineering plastic acrylonitrile-butadiene-
Polymer Degradation and Stability, 2012, 97(9): 1563-1568. styrene (ABS)[J]. Journal of Physics and Chemistry of Solids, 2012,
[46] Krishna S V, Pugazhenthi G. Structural and thermal properties of 73(12): 1514-1517.
polystyrene/CoAl-layered double hydroxide nanocomposites [64] Wang X, Spörer Y, Leuteritz A, et al. Comparative study of the
prepared via solvent blending: Effect of LDH loading[J]. Journal of synergistic effect of binary and ternary LDH with intumescent
Experimental Nanoscience, 2013, 8(1): 19-31. flame retardant on the properties of polypropylene composites[J].
[47] Wang Q, Undrell J P, Gao Y, et al. Synthesis of flame-retardant RSC Advances, 2015, 5(96): 78979-78985.
polypropylene/LDH-borate nanocomposites[J]. Macromolecules, 2013, [65] Manzi-Nshuti C, Wang D, Hossenlopp J M, et al. The role of the
46(15): 6145-6150. trivalent metal in an LDH: Synthesis, characterization and fire
[48] Huang S, Peng H, Tjiu W W, et al. Assembling exfoliated layered properties of thermally stable PMMA/LDH systems[J]. Polymer
double hydroxide (LDH) nanosheet/carbon nanotube (CNT) hybrids Degradation and Stability, 2009, 94(4): 705-711.
via electrostatic force and fabricating nylon nanocomposites[J]. The [66] Shan X, Song L, Xing W, et al. Effect of nickel-containing layered
Journal of Physical Chemistry B, 2010, 114(50): 16766-16772. double hydroxides and cyclophosphazene compound on the thermal
[49] Peng H, Han Y, Liu T, et al. Morphology and thermal degradation stability and flame retardancy of poly (lactic acid)[J]. Industrial and
behavior of highly exfoliated CoAl-layered double hydroxide/ Engineering Chemistry Research, 2012, 51(40): 13037-13045.
polycaprolactone nanocomposites prepared by simple solution [67] Zhu L, Su S, Hossenlopp J M. Thermal stability and fire retardancy
intercalation[J]. Thermochimica Acta, 2010, 502(1/2): 1-7. of PMMA (nano) composites with layered metal hydroxides
[50] Hollingbery L A, Hull T R. The fire retardant behaviour of huntite containing dodecyl sulfate anions[J]. Polymers for Advanced
and hydromagnesite — A review[J]. Polymer Degradation and Technologies, 2012, 23(2): 171-181.
Stability, 2010, 95(12): 2213-2225. [68] Wang L, Su S, Chen D, et al. Variation of anions in layered double
[51] Li Z, Liu Z, Dufosse F, et al. Interfacial engineering of layered hydroxides: Effects on dispersion and fire properties[J]. Polymer
double hydroxide toward epoxy resin with improved fire safety and Degradation and Stability, 2009, 94(5): 770-781.
mechanical property[J]. Composites Part B: Engineering, 2018, [69] Kang N J, Wang D Y, Kutlu B, et al. A new approach to reducing
152: 336-346. the flammability of layered double hydroxide (LDH)-based polymer
[52] Li Z, Zhang J, Dufosse F, et al. Ultrafine nickel nanocatalyst- composites: Preparation and characterization of dye structure-
engineering of an organic layered double hydroxide towards a intercalated LDH and its effect on the flammability of
super-efficient fire-safe epoxy resin via interfacial catalysis[J]. polypropylene-grafted maleic anhydride/d-LDH composites[J].
Journal of Materials Chemistry A, 2018, 6(18): 8488-8498. ACS Applied Materials and Interfaces, 2013, 5(18): 8991-8997.
[53] Wang P J, Hu X P, Liao D J, et al. Dual fire retardant action: The [70] Huang G, Zhuo A, Wang L, et al. Preparation and flammability
combined gas and condensed phase effects of azo-modified NiZnAl properties of intumescent flame retardant-functionalized layered
layered double hydroxide on intumescent polypropylene[J]. double hydroxides/polymethyl methacrylate nanocomposites[J].
Industrial and Engineering Chemistry Research, 2017, 56(4): Materials Chemistry and Physics, 2011, 130(1/2): 714-720.
920-932. [71] Wang X, Kalali E N, Wang D Y. Renewable cardanol-based
[54] Matusinovic Z, Wilkie C A. Fire retardancy and morphology of surfactant modified layered double hydroxide as a flame retardant
layered double hydroxide nanocomposites: A review[J]. Journal of for epoxy resin[J]. ACS Sustainable Chemistry and Engineering,
Materials Chemistry, 2012, 22(36): 18701-18704. 2015, 3(12): 3281-3290.
[55] Zhou K, Gao R, Qian X. Self-assembly of exfoliated molybdenum [72] Kalali E N, Wang X, Wang D Y. Multifunctional intercalation in
disulfide (MoS 2) nanosheets and layered double hydroxide (LDH): layered double hydroxide: Toward multifunctional nanohybrids for
towards reducing fire hazards of epoxy[J]. Journal of Hazardous epoxy resin[J]. Journal of Materials Chemistry A, 2016, 4(6):
Materials, 2017, 338: 343-355. 2147-2157.
[56] Zhao C X, Liu Y, Wang D Y, et al. Synergistic effect of ammonium [73] Zhang S, Yan Y, Wang W, et al. Intercalation of phosphotungstic
polyphosphate and layered double hydroxide on flame retardant acid into layered double hydroxides by reconstruction method and
properties of poly (vinyl alcohol) [J]. Polymer Degradation and its application in intumescent flame retardant poly (lactic acid)
Stability, 2008, 93 (7) :1323-1331. composites[J]. Polymer Degradation and Stability, 2018, 147:
[57] Manzi-Nshuti C, Wang D, Hossenlopp J M, et al. Aluminum- 142-150.
containing layered double hydroxides: The thermal, mechanical, [74] Wang W, Pan H, Shi Y, et al. Fabrication of LDH nanosheets on
and fire properties of (nano) composites of poly (methyl β-FeOOH rods and applications for improving the fire safety of
methacrylate) [J]. Journal of Materials Chemistry, 2008, 18 epoxy resin[J]. Composites Part A: Applied Science and
(26) :3091-3102. Manufacturing, 2016, 80: 259-269.
[58] Manzinshuti C, Chen D, Su S, et al. The effects of intralayer metal [75] Liu S, Yan H, Fang Z, et al. Effect of graphene nanosheets and layered
composition of layered double hydroxides on glass transition, double hydroxides on the flame retardancy and thermal degradation
dispersion, thermal and fire properties of their PMMA of epoxy resin[J]. Rsc Advances, 2014, 4(36): 18652- 18659.
nanocomposites[J]. Thermochimica Acta, 2009, 495(1): 63-71. [76] Zhao C, Peng G, Liu B. A comparison on the synergistic
[59] Manzi-Nshuti C, Songtipya P, Manias E, et al. Polymer flame-retardant effects of SDS-LDH and CTAB-MMT with app on
nanocomposites using zinc aluminum and magnesium aluminum P (BA-VAc)[J]. Acta Polymerica Sinica, 2013 (9): 1197-1203.
oleate layered double hydroxides: Effects of LDH divalent metals [77] Jiang S D, Bai Z M, Tang G, et al. Synthesis of mesoporous
on dispersion, thermal, mechanical and fire performance in various silica@Co-Al layered double hydroxide spheres: Layer-by-layer
polymers[J]. Polymer, 2009, 50 (15) :3564-3574. method and their effects on the flame retardancy of epoxy
[60] Manzi-Nshuti C, Songtipya P, Manias E, et al. Polymer resins[J]. ACS Applied Materials and Interfaces, 2014, 6(16):
nanocomposites using zinc aluminum and magnesium aluminum 14076-14086.