1 |
王柏楠, 李俊华, 齐立芬, 等. 新型环保增塑剂研究进展[J]. 河南化工, 2019, 36(3): 7-10.
|
|
WANG Bonan, LI Junhua, QI Lifen, et al. Research progress of new environmental plasticizers[J]. Henan Chemical Industry, 2019, 36(3): 7-10.
|
2 |
TAN Jihuai, WANG Fan, WANG Wengeng, et al. Waste fatty acid-based methyl tetraglycol ester derived from dimer acid manufacturing as an efficient and biodegradable plasticizer for poly(vinyl chloride)[J]. ACS Sustainable Chemistry & Engineering, 2021, 9(40): 13573-13581.
|
3 |
HE Wei, ZHU Guiqin, GAO Yuan, et al. Green plasticizers derived from epoxidized soybean oil for poly(vinyl chloride): Continuous synthesis and evaluation in PVC films[J]. Chemical Engineering Journal, 2020, 380: 122532.
|
4 |
陈洁. 生物基环氧类增塑剂的合成及性能研究[D]. 北京: 中国林业科学研究院, 2015.
|
|
CHEN Jie. Study on the synthesis and properties of bio-based epoxide plasticizers[D]. Beijing: Chinese Academy of Forestry, 2015.
|
5 |
蒋平平, 卢云, 费柳月. 无毒增塑剂环氧大豆油生产技术问题及其对策[C]//2005塑料助剂生产与应用技术信息交流会论文集. 南京, 2005: 140-144.
|
|
JIANG Pingping, LU Yun, FEI Liuyue. Technical problems and countermeasures in the production of non-toxic plasticizer epoxy soybean oil[C]//2005 Symposium on Production and Application of Plastics Additives. Nanjing, 2005: 140-144.
|
6 |
吴江浩, 蒋平平, 张萍波. 国内外植物油脂制备环保增塑剂现状与发展趋势[C]//第七届(2014)中国油脂化工行业年会论文集. 杭州, 2014: 25-33.
|
|
WU Jianghao, JIANG Pingping, ZHANG Pingbo. Present status and development trend of environment plasticizers made from wegetable oils[C]//The Seventh (2014) China Oil and Fat Chemical Industry Annual Meeting. Hangzhou, 2014: 25-33.
|
7 |
LI Mei, LI Shouhai, XIA Jianling, et al. Tung oil based plasticizer and auxiliary stabilizer for poly(vinyl chloride)[J]. Materials & Design, 2017, 122: 366-375.
|
8 |
TAN Jihuai, LIU Bowen, FU Qinghe, et al. Role of the oxethyl unit in the structure of vegetable oil-based plasticizer for PVC: An efficient strategy to enhance compatibility and plasticization[J]. Polymers, 2019, 11(5): 779.
|
9 |
FU Qinghe, LONG Yilang, GAO Yingyun, et al. Synthesis and properties of castor oil based plasticizers[J]. RSC Advances, 2019, 9(18): 10049-10057.
|
10 |
CHEN Jie, WANG Yigang, HUANG Jinrui, et al. Synthesis of tung-oil-based triglycidyl ester plasticizer and its effects on poly(vinyl chloride) soft films[J]. ACS Sustainable Chemistry & Engineering, 2018, 6(1): 642-651.
|
11 |
TAN Jihuai, LU Tingting, LI Ran, et al. Biodegradable waste frying oil-based ethoxylated esters as highly efficient plasticizers for poly(lactic acid)[J]. ACS Sustainable Chemistry & Engineering, 2019, 7(19): 15957-15965.
|
12 |
FENG Guodong, HU Lihong, MA Yan, et al. An efficient bio-based plasticizer for poly(vinyl chloride) from waste cooking oil and citric acid: Synthesis and evaluation in PVC films[J]. Journal of Cleaner Production, 2018, 189: 334-343.
|
13 |
LEE S, KO K H, SHIN J, et al. Effects of the addition of dimer acid alkyl esters on the properties of ethyl cellulose[J]. Carbohydrate Polymers, 2015, 121: 284-294.
|
14 |
LIU Dekai, JIANG Pingping, NIE Zhixin, et al. Synthesis of an efficient bio-based plasticizer derived from waste cooking oil and its performance testing in PVC[J]. Polymer Testing, 2020, 90: 106625.
|
15 |
LI Weijun, QIN Jiaxiang, WANG Shuanjin, et al. Macrodiols derived from CO2-based polycarbonate as an environmentally friendly and sustainable PVC plasticizer: Effect of hydrogen-bond formation[J]. ACS Sustainable Chemistry & Engineering, 2018, 6: 8476-8484.
|
16 |
PARK K J, KIM M, SEOK S, et al. Quantitative analysis of cyclic dimer fatty acid content in the dimerization product by proton NMR spectroscopy[J]. Spectrochimica Acta A: Molecular and Biomolecular Spectroscopy, 2015, 149: 402-407.
|
17 |
RAHMAN M Y A, AHMAD A, LEE T K, et al. Effect of ethylene carbonate (EC) plasticizer on poly(vinyl chloride)-liquid 50% epoxidised natural rubber (LENR50) based polymer electrolyte[J]. Materials Sciences and Applications, 2011, 2(7): 817-825.
|
18 |
TAN Jihuai, ZHANG Shuai, LU Tingting, et al. Design and synthesis of ethoxylated esters derived from waste frying oil as anti-ultraviolet and efficient primary plasticizers for poly(vinyl chloride)[J]. Journal of Cleaner Production, 2019, 229: 1274-1282.
|
19 |
SUZUKI A H, BOTELHO B G, OLIVEIRA L S, et al. Sustainable synthesis of epoxidized waste cooking oil and its application as a plasticizer for polyvinyl chloride films[J]. European Polymer Journal, 2018, 99: 142-149.
|
20 |
CHEN Jie, LIU Zengshe, JIANG Jianchun, et al. A novel biobased plasticizer of epoxidized cardanol glycidyl ether: Synthesis and application in soft poly(vinyl chloride) films[J]. RSC Advances, 2015, 5(69): 56171-56180.
|
21 |
JIA Puyou, ZHANG Meng, HU Lihong, et al. Synthesis and application of environmental castor oil based polyol ester plasticizers for poly(vinyl chloride)[J]. ACS Sustainable Chemistry & Engineering, 2015, 3(9): 2187-2193.
|
22 |
YU Jie, SUN Lushi, MA Chuan, et al. Thermal degradation of PVC: A review[J]. Waste Management, 2016, 48: 300-314.
|
23 |
YAO Q, WILKIE C A. Thermal degradation of PVC in the presence of polystyrene[J]. Journal of Vinyl and Additive Technology, 2001, 7(1): 26-36.
|
24 |
CHOI W, CHUNG J W, KWAK S Y. Unentangled star-shape poly(ε-caprolactone)s as phthalate-free PVC plasticizers designed for non-toxicity and improved migration resistance[J]. ACS Applied Materials & Interfaces, 2014, 6(14): 11118-11128.
|