Bio-based Hyperbranched Ester Plasticizers from Woody Oil Based on Cohesive Energy via a One-Pot Synthesis Reaction

被引:0
作者
Yu Bei
Yun Hu
Puyou Jia
Yufeng Ma
Feilong Hu
Tong Xiao
Yong Yang
Yonghong Zhou
机构
[1] Nanjing Forestry University,College of Chemical Engineering
[2] Nanjing Forestry University,College of Materials Science and Engineering, Jiangsu Co
[3] Chinese Academy of Forestry (CAF),Innovation Center of Efficient Processing and Utilization of Forest Resources
[4] State Ethnic Affairs Commission,Institute of Chemical Industry of Forest Products, Key Lab of Biomass Energy and Materials
[5] Guangxi University for Nationalities,Key Laboratory of Chemistry and Engineering of Forest Products, Guangxi Key Laboratory of Chemistry and Engineering of Forest Products
[6] Ningbo University of Technology,School of Materials and Chemical Engineering
[7] Chinese Academy of Sciences,Key Laboratory of Bio
来源
Journal of Polymers and the Environment | 2024年 / 32卷
关键词
Tung oil; Hyperbranched plasticizer; One-pot synthesis; Migration resistance;
D O I
暂无
中图分类号
学科分类号
摘要
Developing bio-based hyperbranched ester plasticizers using woody oil by a simple strategy to replace toxic phthalate plasticizers has significant social, environmental, and economic significance. Herein, a series of tung oil-based hyperbranched esters (TPPs) were synthesis through a one-pot method, the degree of branching and relative molecular weight of the TPPs were controlled by adjusting the glycidyl content. The TPPs were used to plasticize polyvinyl chloride (PVC) materials. The results indicated that TPPs showed better plasticizing properties, transmittance and migration stability compared with commercial dioctyl phthalate (DOP). For instance, the tensile strain of PVC/TPP-9 reached to 560%, and transmittance was 42.1%. In addition, the PVC/TPPs films possessed excellent shape memory performance, and shape fixity and shape recovery were up to 97 and 91%, respectively. The cohesive energy was simulated and calculated from the perspective of energy to first predict the ability of plasticizers migrated from the PVC matrix. These hyperbranched ester plasticizers exhibited the potential to substitute DOP in the fields with strict requirements (e.g. food packaging, toys for children).
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页码:1028 / 1038
页数:10
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共 284 条
  • [1] Altenhofen da Silva M(2011)Polyvinylchloride (PVC) and natural rubber films plasticized with a natural polymeric plasticizer obtained through polyesterification of rice fatty acid Polym Test 30 478-484
  • [2] Adeodato Vieira MG(2021)Phthalate and novel plasticizer concentrations in food items from U.S. fast food chains: a preliminary analysis J Expo Sci Environ Epidemiol 38 1067-1088
  • [3] Gomes Maçumoto AC(2013)Perspectives on alternatives to phthalate plasticized poly(vinyl chloride) in medical devices applications Prog Polym Sci 439 129639-11317
  • [4] Beppu MM(2022)Urinary metabolites and handwipe phthalate levels among adults and children in southern China: implication for dermal exposure J Hazard Mater 436 129213-651
  • [5] Edwards L(2022)Associations of environmental phthalate exposure with male steroid hormone synthesis and metabolism: an integrated epidemiology and toxicology study J Hazard Mater 58 11311-903
  • [6] McCray NL(2010)Analysis of phthalate migration from plastic containers to packaged cooking oil and mineral water J Agric Food Chem 101 107271-575
  • [7] VanNoy BN(2021)Performance assessment of polyvinyl chloride films plasticized with Polym Test 6 642-117
  • [8] Yau A(2018) seed oil based novel plasticizer ACS Sustain Chem Eng 7 897-375
  • [9] Geller RJ(2017)Synthesis of tung-oil-based triglycidyl ester plasticizer and its effects on poly(vinyl chloride) soft films RSC Adv 379 134450-1176
  • [10] Adamkiewicz G(2022)Design and synthesis of a castor oil based plasticizer containing THEIC and diethyl phosphate groups for the preparation of flame-retardant PVC materials J Clean Prod 17 558-3561
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