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·1096· 精细化工 FINE CHEMICALS 第 35 卷
(石油化工), 2015, 44(5): 617-622. [23] Dou J, Liu Z. Crystallization behavior of poly(ethylene terephthalate)/
[18] Xu Tao (徐涛), Lei Hua (雷华). Effects of nucleating agent on pyrrolidinium ionic liquid[J]. Polymer International, 2013, 62(12):
crystalline morphology and impact behavior of polypropylene[J]. 1698-1710.
Polymer Materials Science and Engineering (高分子材料科学与工 [24] Busse K, Kressler J, Maier R D, et al. Tailoring of the α-, β-, and
程), 2003, 19(1): 160-163. γ-modification in isotactic polypropene and propene/ethene random
[19] Martuscelli E, Silvestre C, Abate G. Morphology, crystallization and copolymers[J]. Macromolecules, 2000, 33(23): 8775-8780.
melting behaviour of films of isotactic polypropylene blended with [25] Li Li (李丽), Wu Jian (吴建), Liu Min (刘敏), et al. Effect of
ethylene-propylene copolymers and polyisobutylene [J]. Polymer, α-nucleating agent on properties of homo-polypropylene[J]. Plastics
1982, 23(2): 229-237. Science and Technology (塑料科技), 2012, 40(11): 42-44.
[20] Fillon B, Lotz B, Thierry A, et al. Self-nucleation and enhanced [26] Wang Haojiang (王浩江), Wei Yukun (魏玉坤), Pang Chun (庞纯),
nucleation of polymers. Definition of a convenient calorimetric et al. Study on polypropylene modified by α & β nucleating agent[J].
“efficiency scale” and evaluation of nucleating additives in isotactic Synthetic Materials Aging and Application (合成材料老化与应用),
polypropylene (α phase)[J]. Journal of Polymer Science, Part B: 2004, 33(3): 13-16.
Polymer Physics, 1993, 31(10): 1395-1405. [27] Mai Kancheng (麦堪成), Li Zhengjun (李政军), Wang Kefeng (汪克
[21] Avrami M. Kinetics of phase change. II transformation-time relations 风), et al. Crystallization behaviors and mechanical properties of
for random distribution of nuclei[J]. Journal of Chemical Physic, polypropylene nucleated by various nucleating agents[J]. China
1940, 8(2): 212-224. Synthetic Resin and Plastics (合成树脂及塑料), 1998, 15(2): 62-66.
[22] Zhang Yuefei (张跃飞), Xin Zhong (辛忠). Isothermal crystallization [28] Liu Xiaowen (刘小文), Xu Nai (徐鼐), Lin Qiang (林强), et al. The
of isotactic polypropylene nucleated with substituted aromatic effect of TMC-328 on crystalline structures property of biodegradable
heterocyclic phosphate salts[J]. Journal of Materials Science & poly (lactic acid)[J]. Journal of Functional Materials (功能材料),
Engineering (材料科学与工程学报), 2006, 24(4): 493-497. 2011, 42(S2): 295-298.
(上接第 1086 页) [45] Han Xue (韩雪), Lou Dawei (娄大伟), Lian Lili (连丽丽), et al.
Study on the preparation of a new kind of PSAZ-CTS and its
[34] Sun P F, Lin H, Wang G, et al. Preparation of a new-style composite
containing a key bioflocculant produced by pseudomonas aeruginosa flocculation capability for songhua river water[J]. Fine Chemicals
ZJU1 and its flocculating effect on harmful algal blooms[J]. Journal (精细化工), 2015, 32 (9): 1027-1031.
of Hazardous Materials, 2015, 284: 215-221. [46] Wang Xuejiao (王雪娇), Yi Shouzhi (衣守志). Preparation of
[35] Liu H, Fang H H P. Extraction of extracellular polymeric substances polysilicate aluminum magnesium chloride and its flocculation
(EPS) of sludges[J]. Journal of Biotechnology, 2002, 95(3): 249-256. capability. Environmental Protection of Chemical Industry (化工环
[36] Chen Z, Zhang W, Wang D, et al. Enhancement of activated sludge 保), 2013 ,(2): 171-174.
dewatering performance by combined composite enzymatic lysis and [47] Guo Rui (郭睿), Liu Aiyu (刘爱玉), Yang Jiangyue (杨江月), et al.
chemical re-flocculation with inorganic coagulants: kinetics of Synthesis of HACC by inverse emulsion and study on its flocculating
enzymatic reaction and re-flocculation morphology[J]. Water properties [J]. Fine Chemicals (精细化工), 2016, 33 (9): 1035-1042.
Research, 2015, 83: 367-376. [48] Sun Y, Zhu C, Sun W, et al. Plasma-initiated polymerization of
[37] Zhang Z, Zhang J, Zhao J, et al. Effect of short-time aerobic chitosan-based CS-g-P (AM-DMDAAC) flocculant for the enhanced
digestion on bioflocculation of extracellular polymeric substances flocculation of low-algal-turbidity water[J]. Carbohydrate Polymers,
from waste activated sludge[J]. Environmental Science and Pollution 2017, 164: 222-232.
Research, 2015, 22(3): 1812-1818. [49] Yang Z, Wu H, Yuan B, et al. Synthesis of amphoteric starch-based
[38] Lee J, Cho D H, Ramanan R, et al. Microalgae-associated bacteria grafting flocculants for flocculation of both positively and negatively
play a key role in the flocculation of chlorella vulgaris[J]. charged colloidal contaminants from water[J]. Chemical Engineering
Bioresource Technology, 2013, 131: 195-201. Journal, 2014, 244: 209-217.
[39] Liu Z, Hu Z, Wang T, et al. Production of novel microbial flocculants [50] Habiba U, Siddique T A, Joo T C, et al. Synthesis of chitosan/
by klebsiella sp. TG-1 using waste residue from the food industry polyvinyl alcohol/zeolite composite for removal of methyl orange,
and its use in defecating the trona suspension[J]. Bioresource congo red and chromium (VI) by flocculation/adsorption[J].
Technology, 2013, 139: 265-271. Carbohydrate Polymers, 2017, 157: 1568-1576.
[40] Lucas P M A, Sarpe D, Winterwerp J C. Effect of algae on [51] Wang T, Yang W L, Hong Y, et al. Magnetic nanoparticles grafted
flocculation of suspended bed sediments in a large shallow lake. with amino-riched dendrimer as magnetic flocculant for efficient
consequences for ecology and sediment transport processes[J]. Ocean harvesting of oleaginous microalgae[J]. Chemical Engineering
Dynamics, 2015, 65(6): 889-903. Journal, 2016, 297: 304-314.
[41] Aljuboori A H R, Idris A, Al-joubory H H R, et al. Flocculation [52] Amiri M C, Dadkhah A A. On reduction in the surface tension of
behavior and mechanism of bioflocculant produced by aspergillus water due to magnetic treatment[J]. Colloids and Surfaces A:
flavus[J]. Journal of Environmental Management, 2015, 150: 466- Physicochemical and Engineering Aspects, 2006, 278(1): 252-255.
471. [53] Fang S, Chen B, Zhang H, et al. The effects of ultrasonic time,
[42] Feng J, Yang Z, Zeng G, et al. The adsorption behavior and temperature, size and polyether type on performances of magnetic
mechanism investigation of Pb (II) removal by flocculation using flocculants for oily wastewater produced from polymer flooding
microbial flocculant GA1[J]. Bioresource Technology, 2013, 148: treatment[J]. Separation Science and Technology, 2016, 51(18):
414-421. 2991-2999.
[43] Yang Z, Wu Z, Zeng G, et al. Assessing the effect of flow fields on [54] Liu P R, Zhang H L, Wang T, et al. Functional graphene-based
flocculation of kaolin suspension using microbial flocculant GA1[J]. magnetic nanocomposites as magnetic flocculant for efficient
RSC Advances, 2014, 4(76): 40464-40473. harvesting of oleaginous microalgae[J]. Algal Research, 2016, 19:
[44] Hao J, Lian B, Zhou R, et al. Microbial flocculant combined ferric 86-95.
trichloride facilitates floating aggregation of microcystis aeruginosa [55] Chen Y, Luo M, Cai W. Influence of operating parameters on the
for efficient removal[J]. Desalination and Water Treatment, 2016, performance of magnetic seeding flocculation[J]. Environmental
57(43): 20483-20493. Science and Pollution Research, 2016, 23(3): 2873-2881.