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第 11 期刘延松，等: 阻燃纤维素纺织品的研究进展 ·2215·

148-159. 2019, 26(18): 9889-9899.
[42] GRANCARIC A M, COLLEONI C, GUIDO E, et al. Thermal [50] LING C, GUO L M. A novel, eco-friendly and durable
behaviour and flame retardancy of monoethanolamine-doped sol-gel flame-retardant cotton-based hyperbranched polyester derivative[J].
coatings of cotton fabric[J]. Progress in Organic Coatings, 2017, 103: Cellulose, 2019, 27(4): 2357-2368.
174-181. [51] WANG X, ZHANG Y, LV L H, et al. Preparation of Mg(OH) 2 hybrid
[43] LI H (李慧), LI X Y (李晓燕), CHEN H J (陈惠娟), et al. Flame pigment by direct precipitation and graft onto cellulose fiber via
retardant finish of cotton fabric with red phosphorus microcapsules surface-initiated atom transfer radical polymerization[J]. Applied
by sol-gel method[J]. China Dyeing & Finishing (印染), 2010, Surface Science, 2016, 363: 189-196.
36(10): 9-11. [52] ZHAO Z, DI Y B, WEI H, et al. Preparation and characterization of
[44] OU Y X (欧育湘). Flame retardant manufacturing, performance and collagencoclotriphosphazene and its action in flame-retardant viscose
application[M]．Beijing: The Publishing House of Ordnance Industry, fiber[J]. Integrated Ferroelectrics, 2019, 198(1): 20-29.
(兵器工业出版社), 1997. [53] ZHANG X S, XIA Y Z, SHI M W, et al. The flame retardancy of
[45] LIU X H, ZHANG Y G, CHENG B W, et al. Preparation of durable alginate/flame retardant viscose fibers investigated by vertical
and flame retardant lyocell fibers by a one-pot chemical treatment[J]. burning test and cone calorimeter[J]. Chinese Chemical Letters,
Cellulose, 2018, 25(11): 6745-6758. 2018, 29(3): 489-492.
[46] ZHANG F X, LU Y, WAN C Y, et al. A bio-resourced mannitol [54] JIANG L N (姜丽娜), REN Y L (任元林). Study on modified viscose
phospholipid ammonium reactive flame retardant for cotton with fiber blended with silane coated intumescent flame retardant[J].
efficient antiflaming and durability[J]. Cellulose, 2020, 27: 4803-4815. Journal of Textile Science and Engineering (纺织科学与工程学报),
[47] WAN C Y, LIU M S, TIAN P X, et al. Renewable vitamin b5 reactive 2020, 37(1): 58-64.
N-P flame retardant endows cotton with excellent fire resistance and [55] LI C X, JI Q, SONG C C, et al. Flame retardant properties of viscose
durability[J]. Cellulose, 2020, 27(3): 1745-1761. fibers containing talcum powder[J]. Advanced Materials Research,
[48] WAN C Y, TIAN P X, LIU M S, et al. Synthesis of a 2014, 884/885: 208-211.
phosphorus˗nitrogen flame retardant endowing cotton with high [56] MA X B (马兴博), ZHU P (朱平), CHEN X Y (陈晓燕), et al. Study
whiteness and washability[J]. Industrial Crops and Products, 2019, on water-repellent and flame-retardant composite function of
141: 111738. silicon-phosphorus-nitrogen flame retardant for cotton fabric[J].
[49] TIAN P X, LIU M S, WAN C Y, et al. Synthesis of a Journal of Cellulose Science and Technology (纤维素科学与技术),
formaldehyde-free flame retardant for cotton fabric[J]. Cellulose, 2019, 27(2): 59-65.

（上接第 2192 页） electrospinning[J]. Chemical Engineering Journal, 2019, 355: 532-539.
[47] OMARA A A M, ABUELNOUR A A A. Improving the performance
[36] QIAN Z C, SHEN H, FANG X, et al. Phase change materials of of air conditioning systems by using phase change materials: A
paraffin in h-BN porous scaffolds with enhanced thermal conductivity review[J]. International Journal of Energy Research, 2019, 43(10):
and form stability[J]. Energy and Buildings, 2018, 158: 1184-1188. 5175-5198.
[37] LI R G, ZHU J Q, ZHOU W B, et al. Thermal properties of sodium [48] FARNAM Y, ESMAEELI H S, ZAVATTIERIP D, et al. Incorporating
nitrate-expanded vermiculite form-stable composite phase change phase change materials in concrete pavement to melt snow and ice[J].
materials[J]. Materials & Design, 2016, 104: 190-196. Cement and Concrete Composites, 2017, 84: 134-145.
[38] LI W Q, HOU R F, WAN H, et al. A new strategy for enhanced latent [49] KONUKLU Y, OSTRY M, PAKSOR H O, et al. Review on using
heat energy storage with microencapsulated phase change material microencapsulated phase change materials (PCM) in building
saturated in metal foam[J]. Solar Energy Materials and Solar Cells, applications[J]. Energy and Buildings, 2015, 106: 134-155.
2017, 171: 197-204. [50] NI X P (倪旭萍). Preparation and study on the fire behavior of flame
[39] KE H Z, GHULAM M U H, LI Y G, et al. Ag-coated polyurethane retardant polyurethane phase change energy storage material[D].
fibers membranes absorbed with quinary fatty acid eutectics solid- Chengdu: Southwest Jiaotong University (西南交通大学), 2015.
liquid phase change materials for storage and retrieval of thermal [51] KANG Y (康永). Study on properties of polyurethane microencapsulated
energy[J]. Renewable Energy, 2016, 99: 1-9. phase change materials by interface polymerization[J]. China Rubber/
[40] WANG W T, TANG B T, JU B Z, et al. Fe 3O 4-functionalized graphene Plastics Technoligy and Equipment (橡塑技术与装备), 2019, 45(6):
nanosheet embedded phase change material composites: Efficient 31-38.
magnetic- and sunlight-driven energy conversion and storage[J]. [52] XI P, ZHAO T X, XIA L, et al. Fabrication and characterization of
Journal of Materials Chemistry A, 2017, 5: 958-968. dual-functional ultrafine composite fibers with phase-change energy
[41] AMARAL C, PINTO S C, SILVA T, et al. Development of polyurethane storage and luminescence properties[J]. Scientific Reports, 2017, 7(1):
foam incorporating phase change material for thermal energy 40390.
storage[J]. Journal of Energy Storage, 2020, 28: 101177. [53] RIGOTTI D, DORIGATO A, PEGORETTI A. 3D printable
[42] ZHOU Y (周妍). Preparation and properties of polyurethane-based thermoplastic polyurethane blends with thermal energy storage/
solid-solid phase change materials[D]. Hefei: University of Science release capabilities[J]. Materials Today Communications, 2018, 15:
and Technology of China (中国科学技术大学), 2019. 228-235.
[43] WU W H, HUANG X Y, LI K, et al. A functional form-stable phase [54] XIN C (辛成), LU S F (陆少锋), SHEN T W (申天伟), et al. Preparation
change composite with high efficiency electro-to-thermal energy of polyurethane-based netlike phase change microcapsule and its
conversion[J]. Applied Energy, 2017, 190: 474-480. application on cotton fabrics[J]. Modern Chemical Industry (现代化
[44] QIU L, OUYANG Y X, FENG Y H, et al. Review on micro/nano 工), 2018, 38(8): 126-129.
phase change materials for solar thermal applications[J]. Renewable [55] DUAN S Y (段诗雨). Preparation of polyrethane solid-solid phase
Energy, 2019, 140: 513-538. change material and effert of its modified asphalt on temperature
[45] HASAN A, ALNOMAN H, RASHID Y. Impact of integrated regulation[D]. Xi'an: Chang'an University (长安大学), 2018.
photovoltaic-phase change material system on building energy efficiency [56] WEI K, WANG X Q, MA B, et al. Study on rheological properties
in hot climate[J]. Energy and Buildings, 2016, 130: 495-505. and phase-change temperature control of asphalt modified by
[46] LU Y, XIAO X D, FU J, et al. Novel smart textile with phase change polyurethane solid-solid phase change material[J]. Solar Energy,
materials encapsulated core-sheath structure fabricated by coaxial 2019, 194: 893-902.

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