Page 43 - 《精细化工》2022年第1期

P. 43

第 1 期鲍艳，等: 水滑石的制备及其阻燃性能研究进展 ·33·

Advances in Polymer Technology, 2020, 2020(3): 1018093. flame retardant high density polyethylene composites[J]. Fire and
[39] GAO Y S, WANG Q, LIN W R. Ammonium polyphosphate Materials, 2021, DOI: 10.1002/fam.2951.
intercalated layered double hydroxide and zinc borate as highly [56] ZOROMBA M S, NOUR M A, ELTAMIMY H E, et al. Effect of
efficient flame retardant nanofillers for polypropylene[J]. Polymers, modified layered double hydroxide on the flammability and mechanical
2018, 10(10): 1114. properties of polypropylene[J]. Science and Engineering of Composite
[40] AN W (安文), MA J Z (马建中), XU Q N (徐群娜). Research progress Materials, 2018, 25(1): 101-108.
of polymer-based hydrotalcite-graphene flame retardant composites[J]. [57] ZHANG M, DING P, QU B J. Flammable, thermal, and mechanical
Materials Reports (材料导报), 2019, 33(S2): 604-608. properties of intumescent flame retardant PP/LDH nanocomposites
[41] JIN X D, GU X Y, CHEN C, et al. The fire performance of polylactic with different divalent cations[J]. Polymer Composites, 2009, 30(7):
acid containing a novel intumescent flame retardant and intercalated 1000-1006.
layered double hydroxides[J]. Journal of Materials Science, 2017, [58] HAN Y Q, WU Y, SHEN M X, et al. Preparation and flame
52(20): 12235-12250. retardancy of polystyrene nanocomposites based on layered double
[42] LUO Q Q (罗琴琴), XIE Y M (谢颖敏), LIN W D (林文锭), et al. hydroxides[J]. Polymer Composites, 2017, 38(8): 1680-1688.
Preparation of modified LDH based on DOPO-OH and siloxane and [59] GAO Z H, LU L H, SHI C L, et al. The study of ZnAl and ZnFe
its flame retarded epoxy resins[J]. Plastics (塑料), 2019, 48(6): 15-19. layered double hydroxide on the catalytic dechlorination and fire
[43] DING J M, ZHANG Y, ZHANG X, et al. Improving the safety of polyvinyl chloride[J]. Journal of Thermal Analysis and
flame-retardant efficiency of layered double hydroxide with disodium Calorimetry, 2019, 140(2): 115-123.
phenylphosphate for epoxy resin[J]. Journal of Thermal Analysis and [60] NAGENDRA B, ROSELY C V S, LEUTERITZ A, et al. Polypropylene/
Calorimetry, 2020, 140(1): 149-156. layered double hydroxide nanocomposites: Influence of LDH
[44] XU S, ZHANG M, LI S Y, et al. Intercalation of a novel containing intralayer metal constituents on the properties of polypropylene[J].
nitrogen and sulfur anion into hydrotalcite and its highly efficient ACS Omega, 2017, 2(1): 20-31.
flame retardant performance for polypropylene[J]. Applied Clay [61] LIU Y L, LI B, XU M J, et al. Highly efficient composite flame
Science, 2020, 191: 105600. retardants for improving the flame retardancy, thermal stability,
[45] QIU J D, LAI X J, LI H Q, et al. Facile fabrication of a novel smoke suppression, and mechanical properties of EVA[J]. Materials,
polyborosiloxane-decorated layered double hydroxide for remarkably 2020, 13(5): 1251.
reducing fire hazard of silicone rubber[J]. Composites Part B: [62] HUANG Y Z (黄昱臻), DONG Y C (董银春), SHEN F (沈帆), et al.
Engineering, 2019, 175: 107068. Effect of modified hydrotalcite on soft polyvinyl chloride[J]. Modern
[46] LUO X L, SHEN J Y, MA Y A, et al. Robust, sustainable cellulose Plastics Processing and Application (现代塑料加工应用), 2018,
composite aerogels with outstanding flame retardancy and thermal 30(3): 42-45．
insulation[J]. Carbohydrate Polymers, 2020, 230: 115623. [63] LI L, QIAN Y, HAN H Y, et al. Effects of functional intercalation
[47] WANG N (王娜), ZHONG J C (仲剑初), WANG H Z (王洪志). and surface modification on the flame retardant performance of
Preparation, characterization and application of calcium and EVA/LDHs composites[J]. Polymers and Polymer Composites, 2020,
aluminum layered double hydroxides intercalated by boric acid radic[J]. 29(7): 0842-853.
Inorganic Chemicals Industry (无机盐工业), 2016, (1): 25-27. [64] HUANG S C, DENG C, ZHAO Z Y, et al. Phosphorus-containing
5
[48] XU S, LI S Y, ZHANG M, et al. Effect of PO intercalated organic-inorganic hybrid nanoparticles for the smoke suppression
3
10
hydrotalcite on the flame retardant properties and the degradation and flame retardancy of thermoplastic polyurethane[J]. Polymer
mechanism of a novel polypropylene/hydrotalcite system[J]. Applied Degradation and Stability, 2020, 178: 109179.
Clay Science, 2018, 163: 196-203. [65] HUANG S C, DENG C, WANG S X, et al. Electrostatic action
[49] XU W Z, ZHANG B L, XU B, et al. The flame retardancy and induced interfacial accumulation of layered double hydroxides
smoke suppression effect of heptaheptamolybdate modified reduced towards highly efficient flame retardance and mechanical enhancement
graphene oxide/layered double hydroxide hybrids on polyurethane of thermoplastic polyurethane/ammonium polyphosphate[J]. Polymer
elastomer[J]. Composites Part A: Applied Science and Manufacturing, Degradation and Stability, 2019, 165: 126-136.
2016, 91: 30-40. [66] MENG D H, MA Z Y, LENG Q, et al. A flame-retardant
[50] JIN L, ZENG H Y, DU J Z, et al. Intercalation of organic and DOPO-MgAl-LDH was prepared and applied in poly(methyl
inorganic anions into layered double hydroxides for polymer flame methacrylate) resin[J]. Polymers for Advanced Technologies, 2020,
retardancy[J]. Applied Clay Science, 2020, 187: 105481. 31(1): 73-85.
[51] DU J Z, JIN L, ZENG H Y, et al. Flame retardancy of organic-anion- [67] LI A J, XU W Z, CHEN R, et al. Fabrication of zeolitic imidazolate
intercalated layered double hydroxides in ethylene vinyl acetate frameworks on layered double hydroxide nanosheets to improve the
copolymer[J]. Applied Clay Science, 2019, 180(6): 105193. fire safety of epoxy resin[J]. Composites Part A: Applied Science and
[52] JIA L (贾潞), MA J Z (马建中), GAO D G (高党鸽), et al. Layered Manufacturing, 2018, 112: 558-571.
double hydroxides/polymer nanocomposites[J]．Progress in Chemistry [68] ZHANG Z D, QIN J Y, ZHANG W C, et al. Synthesis of a novel
(化学进展), 2018, 30(Z1): 295-303. dual layered double hydroxide hybrid nanomaterial and its
[53] KONG Q H, WU T, WANG J Q, et al. Improving the thermal application in epoxy nanocomposites[J]. Chemical Engineering
stability and flame retardancy of PP/IFR composites by NiAl-layered Journal, 2020, 381: 122777.
double hydroxide[J]. Journal of Nanoscience & Nanotechnology, [69] ZHOU X, MU X W, CAI W, et al. Design of hierarchical NiCo-
2018, 18(5): 3660-3665. LDH@PZS hollow dodecahedron architecture and application in
[54] WANG L L, ZHANG M L, LI B. Thermal analysis and flame- high-performance epoxy resin with excellent fire safety[J]. ACS
retarded mechanism of composites composed of ethylene vinyl Applied Materials & Interfaces, 2019, 11(44): 41736-41749.
acetate and layered double hydroxides containing transition metals [70] XU W Z, ZHANG B L, WANG X L, et al. The flame retardancy and
(Mn, Co, Cu, Zn)[J]. Applied Sciences, 2016, 6(5): 131. smoke suppression effect of a hybrid containing CuMoO 4 modified
[55] KHANAL S, LU Y H, JIN D D, et al. Effects of layered double reduced graphene oxide/layered double hydroxide on epoxy resin[J].
hydroxides on the thermal and flame retardant properties of intumescent Journal of Hazardous Materials, 2018, 343(5): 364-375.

38 39 40 41 42 43 44 45 46 47 48