1 |
SHUKLA V , BAJPAI M , SINGH D K , et al. Review of basic chemistry of UV-curing technology[J]. Pigment & Resin Technology, 2004, 33 (5): 272- 279.
|
2 |
SANGERMANO M , RAZZA N , CRIVELLO J V . Cationic UV-curing: Technology and applications[J]. Macromolecular Materials and Engineering, 2014, 299 (7): 775- 793.
doi: 10.1002/mame.201300349
|
3 |
金养智. 光固化材料性能及应用手册[M]. 北京: 化学工业出版社, 2010.
|
4 |
ALI K M I , KHAN M A , RAHMAN M , et al. Ultraviolet curing of epoxy coating on wood surface[J]. Journal of Applied Polymer Science, 1997, 66 (10): 1997- 2004.
doi: 10.1002/(SICI)1097-4628(19971205)66:10<1997::AID-APP16>3.0.CO;2-S
|
5 |
HONG J W , KIM H K , YU J A , et al. Characterization of UV-curable reactive diluent containing quaternary ammonium salts for antistatic coating[J]. Journal of Applied Polymer Science, 2002, 84 (1): 132- 137.
doi: 10.1002/app.10273
|
6 |
ASIF A , HUANG C Y , SHI W F . UV curing behaviors and hydrophilic characteristics of UV curable waterborne hyperbranched aliphatic polyesters[J]. Polymers for Advanced Technologies, 2003, 14 (9): 609- 615.
doi: 10.1002/pat.380
|
7 |
郭璐. 3D打印用光敏树脂材料研究进展[J]. 塑料科技, 2020, 48 (2): 135- 140.
|
8 |
宗学文, 周升栋, 刘洁, 等. 光固化3D打印及光敏树脂改性研究进展[J]. 塑料工业, 2020, 48 (1): 12- 17.
doi: 10.3969/j.issn.1005-5770.2020.01.003
|
9 |
HU Y , SHANG Q Q , WANG C N , et al. Renewable epoxidized cardanol-based acrylate as a reactive diluent for UV-curable resins[J]. Polymers for Advanced Technologies, 2018, 29 (6): 1852- 1860.
doi: 10.1002/pat.4294
|
10 |
PHALAK G, PATIL D, PATIL A, et al. Synthesis of acrylated cardanol diphenyl phosphate for UV curable flame-retardant coating application[J/OL]. European Polymer Journal, 2019, 121: 109320[2020-07-20]. https://doi.org/10.1016/j.eurpolymj.2019.109320
|
11 |
陈健, 吴国民, 霍淑平, 等. 腰果酚光固化材料的研究进展[J]. 林产化学与工业, 2018, 38 (6): 1- 10.
doi: 10.3969/j.issn.0253-2417.2018.06.001
|
12 |
吴琼, 胡云, 张金帅, 等. 植物油基光固化树脂研究进展[J]. 高分子材料科学与工程, 2020, 36 (1): 183- 190.
|
13 |
LI C H , XIAO H , WANG X F , et al. Development of green waterborne UV-curable vegetable oil-based urethane acrylate pigment prints adhesive: Preparation and application[J]. Journal of Cleaner Production, 2018, 180, 272- 279.
doi: 10.1016/j.jclepro.2018.01.193
|
14 |
卢言菊, 赵振东, 陈玉湘, 等. 多官能度松香聚合单体的微波辅助合成与UV光固化性能[J]. 高分子材料科学与工程, 2017, 33 (3): 18- 24.
|
15 |
徐海波, 谢晖, 黄莉, 等. 光-热双固化水性聚氨酯丙烯酸酯的涂膜性能[J]. 南京工业大学学报(自然科学版), 2016, 38 (1): 39- 44.
|
16 |
闵邓昊, 赵佳平, 陈玉湘, 等. 重质松节油-马来酸酐共聚物的合成及其光固化[J]. 热固性树脂, 2018, 33 (1): 16- 20.
|
17 |
郑国才, 夏建荣, 林棋. 甲基丙烯酰氧基丙基三甲氧基硅烷/漆酚光固化膜的性能研究[J]. 中国生漆, 2019, 38 (4): 37- 42.
|
18 |
阮亿明. 紫外光固化漆酚基纳米复合涂料性能的对比分析[J]. 化工技术与开发, 2015, 44 (12): 15- 17.
|
19 |
YU A Z , SAHOUANI J M , WEBSTER D C . Highly functional methacrylated bio-based resins for UV-curable coatings[J]. Progress in Organic Coatings, 2018, 122, 219- 228.
doi: 10.1016/j.porgcoat.2018.05.035
|
20 |
KUMAR S , KRISHNAN S , SAMAL S K , et al. Itaconic acid used as a versatile building block for the synthesis of renewable resource-based resins and polyesters for future prospective: A review[J]. Polymer International, 2017, 66 (10): 1349- 1363.
|
21 |
MARVEL C S , SHEPHERD T H . Polymerization reactions of itaconic acid and some of its derivatives[J]. The Journal of Organic Chemistry, 1959, 24 (5): 599- 605.
|
22 |
王博彦, 金其荣. 发酵有机酸生产与应用手册[M]. 北京: 中国轻工业出版社, 2000: 458- 502.
|
23 |
LOCKWOOD L B , NELSON G E . Some factors affecting the production of itaconic acid by Aspergillus terreus in agitated cultures[J]. Archives of Biochemistry and Biophysics, 1946, 10, 365- 374.
|
24 |
WANG J , GAO X L , WANG Q , et al. Enhanced biofouling resistance of polyethersulfone membrane surface modified with capsaicin derivative and itaconic acid[J]. Applied Surface Science, 2015, 356, 467- 474.
|
25 |
WERPY T, PETERSEN G, ADEN A, et al. Top value added chemicals from biomass. Volume 1: Results of screening for potential candidates From sugars and synthesis gas[R]. Oak Ridge: U.S. Department of Energy Office of Scientific and Technical Information, 2004: 69.
|
26 |
韦星船, 杨前程, 邓妮, 等. UV固化水性环氧衣康酸树脂的合成及性能研究[J]. 涂料工业, 2016, 46 (1): 32- 37.
|
27 |
覃健耀, 韦星船, 邓妮, 等. UV固化水性环氧衣康酸树脂氟改性研究[J]. 涂料工业, 2017, 47 (6): 51- 56.
|
28 |
韦星船, 邓妮, 任保川, 等. 有机硅改性紫外光固化水性环氧衣康酸树脂的制备及性能研究[J]. 电镀与涂饰, 2016, 35 (6): 275- 280.
|
29 |
任保川. UV固化水性聚氨酯改性环氧衣康酸树脂的合成及性能研究[D]. 广州: 广州大学, 2016.
|
30 |
TOKIWA Y , CALABIA B P . Biodegradability and biodegradation of polyesters[J]. Journal of Polymers and the Environment, 2007, 15 (4): 259- 267.
doi: 10.1007/s10924-007-0066-3
|
31 |
SINGH M , RATHI R C , SINGH A , et al. Controlled release of LHRH-DT from bioerodible hydrogel microspheres[J]. International Journal of Pharmaceutics, 1991, 76 (3): R5- R8.
|
32 |
DAI J Y , MA S Q , LIU X Q , et al. Synthesis of bio-based unsaturated polyester resins and their application in waterborne UV-curable coatings[J]. Progress in Organic Coatings, 2015, 78, 49- 54.
|
33 |
DAI J Y , MA S Q , WU Y G , et al. High bio-based content waterborne UV-curable coatings with excellent adhesion and flexibility[J]. Progress in Organic Coatings, 2015, 87, 197- 203.
|
34 |
BRÄNNSTRÖM S , MALMSTRÖM E , JOHANSSON M . Biobased UV-curable coatings based on itaconic acid[J]. Journal of Coatings Technology and Research, 2017, 14 (4): 851- 861.
|
35 |
岳梦恩. 基于衣康酸的生物基水性UV低聚物的合成、改性以及性能研究[D]. 广州: 广州大学, 2019.
|
36 |
BARRETT D G , MERKEL T J , LUFT J C , et al. One-step syntheses of photocurable polyesters based on a renewable resource[J]. Macromolecules, 2010, 43 (23): 9660- 9667.
|
37 |
TANG T , MOYORI T , TAKASU A . Isomerization-free polycondensations of cyclic anhydrides with diols and preparation of polyester gels containing cis or trans carbon double bonds via photo-cross-linking and isomerization in the gels[J]. Macromolecules, 2013, 46 (14): 5464- 5472.
|
38 |
LI P , MA S Q , DAI J Y , et al. Itaconic acid as a green alternative to acrylic acid for producing a soybean oil-based thermoset: Synthesis and properties[J]. ACS Sustainable Chemistry & Engineering, 2016, 5 (1): 1228- 1236.
|
39 |
COSTA C S M F , FONSECA A C , MONIZ J , et al. Going greener: Synthesis of fully biobased unsaturated polyesters for styrene crosslinked resins with enhanced thermomechanical properties[J]. Express Polymer Letters, 2017, 11 (11): 885- 898.
|
40 |
CHEN C , HSU T , RWEI S . Isothermal kinetics of poly(butylene adipate-co -butylene itaconate) copolyesters with ethylenediaminetetraacetic acid[J]. ACS Omega, 2020, 5 (6): 3080- 3089.
|
41 |
GAO C H , HAN S J , ZHANG D , et al. A facile preparation of UV-cured films from waterborne unsaturated polyester via click reaction[J]. Progress in Organic Coatings, 2018, 124, 232- 239.
|
42 |
SHIVARKAR A B , GAYKAR D V , JAIN R K . Study of performance properties of itaconic acid based acrylic-modified polyester for industrial baking finishes[J]. Progress in Organic Coatings, 2015, 89, 75- 81.
|
43 |
周照喜. 衣康酸树脂的制备水性化及涂膜性能的研究[D]. 兰州: 兰州大学, 2016.
|
44 |
鲍俊翔, 谢晖, 黄莉, 等. UV固化生物基改性柔性环氧丙烯酸酯的合成及性能[J]. 涂料工业, 2020, 50 (2): 7- 13.
|
45 |
WANG S P, WU Y G, DAI J Y, et al. Making organic coatings greener: Renewable resource, solvent-free synthesis, UV curing and repairability[J/OL]. European Polymer Journal, 2020, 123: 109439[2020-07-20]. https://doi.org/10.1016/j.eurpolymj.2019.109439
|
46 |
YOON W J , CHOI Y J , KIM D Y , et al. Photopolymerization of reactive amphiphiles: Automatic and robust vertical alignment layers of liquid crystals with a strong surface anchoring energy[J]. Macromolecules, 2016, 49 (1): 23- 29.
|
47 |
PATIL D M , PHALAK G A , MHASKE S T . Design and synthesis of bio-based UV curable PU acrylate resin from itaconic acid for coating applications[J]. Designed Monomers and Polymers, 2016, 20 (1): 269- 282.
|