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第 8 期王琛，等: PBF 的合成及其复合材料的光/热固化 ·1549·

3 结论 Science, Polymer Edition, 2009, 20(1): 49-69.
[7] Yang Feng (杨峰), Ma Chunmeng (马春蒙), Wang Jing (王靖), et al.
1
（1）通过 FTIR、 HNMR 及 GPC 等表征，证明 Preparation and curing properties of iniectable PPF bone cement[J].
成功合成聚富马酸丁二醇酯。其较佳的合成工艺条 Journal of Functional Polymers (功能高分子学报), 2018, 31(1):
件为：反应温度 130 ℃，反应时间 8 h，n（富马酸 51-56.
[8] Wang L, Guo D G, Zhu H, et al. Light emitting diodes (LEDs)
二乙酯）∶n（1,4-丁二醇）=1∶3，且在此条件下
encapsulation of polymer composites based on poly(propylene
产率为 61.94%。
fumarate) crosslinked with poly(propylene fumarate)-diacrylate[J].
（2）在紫外光源与试样的距离为 5 cm、波长为 RSC Adv, 2015, 5(65): 52888-52895.
200~450 nm、紫外光辐照时间为 2 min 的条件下， [9] Chen Jingmin (陈靖民), Hua Fengjun (华峰君), Qiu Jiang (邱江), et
当 BAPO 质量分数为 2.5%时，交联固化效果最佳。 al. Study of “living” radical polymerization by FTIR in situ[J].
（3）在恒温环境下，热固化分析结果显示，当 Spectroscopy and Spectral Analysis (光谱学与光谱分析), 2001,
21(1): 47-53.
BPO 质量分数为 3%（促进剂 DMT质量分数为 0.2%）
[10] Trujillo M, Newman S M, Stansbury J W. Use of near-IR to monitor
时，交联固化效果最佳。
the influence of external heating on dental composite
（4）本文探究了引发剂用量对聚富马酸丁二醇 photopolymerization[J]. Dental Materials, 2004, 20(8): 766-777.
酯及其交联体系固化行为的影响，其结果为聚富马 [11] He S, Timmer M D, Yaszemski M J, et al. Synthesis of biodegradable
酸酯基复合材料的构筑和在骨科生物医用高分子材 poly(propylene fumarate) networks with poly(propylene fumarate)-
料领域应用奠定了基础。 diacrylate macromers as crosslinking agents and characterization of
their degradation products[J]. Polymer, 2001, 42(3): 1251-1260.
参考文献： [12] Shahbazi S, Jafari Y, Moztarzadeh F, et al. Evaluation of effective
parameters for the synthesis of poly(propylene fumarate) by response
[1] Shung A K, Timmer M D, Jo S, et al. Kinetics of poly(propylene
surface methodology[J]. Journal of Applied Polymer Science, 2014,
fumarate) synthesis by step polymerization of diethyl fumarate and
propylene glycol using zinc chloride as a catalyst[J]. Journal of 131(20): 563-571.
Biomaterials Science Polymer Edition, 2002, 13(1): 95-108. [13] An Pujie (安普杰), Wang Guojian (王国建), Liu Lin (刘琳).
[2] Kasper F K, Tanahashi K, Fisher J P, et al. Synthesis of Influence of photoinitiators on the UV-curable epoxy acrylate
poly(propylene fumarate)[J]. Nature Protocols, 2009, 4(4): 518-525. coating[J]. Journal of Buildig Materials (建筑材料学报), 2003, 6(3):
[3] Wang S, Lu L, Yaszemski M J. Bone-tissue-engineering material 329-332．
poly(propylene fumarate): correlation between molecular weight, [14] Kardar P, Ebrahimi M, Bastani S. Influence of temperature and light
chain dimension, and physical properties[J]. Biomacromolecules, intensity on the photocuring process and kinetics parameters of a
2006, 7(6): 1976-1982. pigmented UV curable system[J]. Journal of Thermal Analysis and
[4] Ye C, Li Z H, Li D, et al. Fabrication and mineralization of Calorimetry, 2014, 118(1): 541-549.
poly(propylene fumarate)/ hydroxyapatite porous hydrogels[J]. Acta [15] Wang Yongzhen (王永祯), Wang Ailing (王爱玲), Xu Bingshe (许并
Polymerica Sinica, 2012, 12(10): 1143-1150. 社 ). Study on the influence of photoinitiator on the solidify
[5] Lalwani G, Henslee A M, Farshid B, et al. Tungsten disulfide performance of molding materials by UV[J]. Transactions of
nanotubes reinforced biodegradable polymers for bone tissue Materials and Heat Treatment (材料热处理学报), 2007, 28(S1):
engineering[J]. Acta Biomaterialia, 2013, 9(9): 8365-8373. 314-318.
[6] Haesslein A, Hacker M, Ueda H, et al. Matrix modifications [16] Jiang Ni ( 姜妮 ). Study on thermal curing of poly(propylene
modulate ophthalmic drug delivery from photo-cross-linked fumarate) composites and its application in 3D printing[D].
poly(propylene fumarate)-based networks[J]. Journal of Biomaterials Guangzhou: Jinan University (暨南大学), 2017.

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