Renewable Castor‐Oil‐based Waterborne Polyurethane Networks: Simultaneously Showing High Strength, Self‐Healing, Processability and Tunable Multishape Memory

Zhang, Chaoqun; Liang, Huaping; Liang, Dunsheng; Lin, Zirun; Chen, Qian; Feng, Pengju; Wang, Qingwen

doi:10.1002/anie.202014299

Cited by 181 publications

(135 citation statements)

References 53 publications

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“…A waterborne polyurethane network was synthesized using castor oil, dimethylolbutanoic acid, and isophorone diisocyanate and its structural strength could be tailored by the incorporation of different amounts of octahydro-2,5-pentalenediol [ 64 ]. Furthermore, the same research group prepared high strength self-healing multi-shape memory waterborne polyurethane networks by introducing controlled amounts of dithiodiphenylamine to the castor oil-based polymer chains [ 65 ]. The use of castor oil as a polyol in combination with the previously mentioned sulfur crosslinking strategy was employed to produce high strength vulcanized polyurethane interpenetrating polymer networks.…”

Section: Branched and Crosslinked Polymers Based On Pristine Or Chemically Modified Triglyceridesmentioning

confidence: 99%

The Prospering of Macromolecular Materials Based on Plant Oils within the Blooming Field of Polymers from Renewable Resources

et al. 2021

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This paper provides an overview of the recent progress in research and development dealing with polymers derived from plant oils. It highlights the widening interest in novel approaches to the synthesis, characterization, and properties of these materials from renewable resources and emphasizes their growing impact on sustainable macromolecular science and technology. The monomers used include unmodified triglycerides, their fatty acids or the corresponding esters, and chemically modified triglycerides and fatty acid esters. Comonomers include styrene, divinylbenzene, acrylics, furan derivatives, epoxides, etc. The synthetic pathways adopted for the preparation of these materials are very varied, going from traditional free radical and cationic polymerizations to polycondensation reactions, as well as metatheses and Diels–Alder syntheses. In addition to this general appraisal, the specific topic of the use of tung oil as a source of original polymers, copolymers, and (nano)composites is discussed in greater detail in terms of mechanisms, structures, properties, and possible applications.

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Section: Branched and Crosslinked Polymers Based On Pristine Or Chemically Modified Triglyceridesmentioning

confidence: 99%

The Prospering of Macromolecular Materials Based on Plant Oils within the Blooming Field of Polymers from Renewable Resources

et al. 2021

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“…Seeking for a simpler and more sustainable alternative towards longchain PA CANs, we focused on disulfides as an intrinsically reactive bond, 31,32 that can be activated under mild conditions. 33 Disulfides have been incorporated into urea, 34 urethane, 23,35,36 ester 4,37 and epoxy-based [38][39][40] networks, and have been combined with renewable building blocks such as diacids (succinic, adipic, sebacic), 4 castor oil 24,41 and epoxidized soybean oil, 42 leading to high-performance thermosets with impressive results regarding the ease of reprocessability and retainment of the mechanical properties after several reprocessing cycles.…”

Section: Introductionmentioning

confidence: 99%

Long-chain polyamide covalent adaptable networks based on renewable ethylene brassylate and disulfide exchange

2021

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“…[ 18 ] Zhang et al. [ 19 ] introduced reversible covalent disulfide bonds of dithiophenylamine into castor oil‐based WPU. The WPU networks possessed high strength up to 38 MPa, self‐healing, processability, and dual‐to quadruple shape memory.…”

Section: Introductionmentioning

confidence: 99%

Flame Retardant Modified Bio‐Based Waterborne Polyurethane Dispersions Derived from Castor Oil and Soy Polyol

Wang

Zhang

Huang

et al. 2021

Euro J Lipid Sci & Tech

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Although tremendous efforts have been dedicated to developing environmentally friendly bio‐based waterborne polyurethane (WPU) dispersions from vegetable oil, the fabrication of WPU dispersions solely derived from vegetable oil‐based polyol with excellent comprehensive properties is still challenging. In the present work, novel bio‐based WPU dispersions derived from castor oil and soy polyol is successfully modified by phosphorus‐nitrogen chain extender [bis(2‐hydroxyethyl)amino]‐methyl‐phosphonic acid dimethyl ester (BH). The structure and properties of the dispersions and films are characterized systematically by Fourier transform infrared spectroscopy, thermogravimetric analysis , mechanical test, and limiting oxygen index (LOI), etc. The results indicate that bio‐based WPU films display moderate mechanical performance by adjusting BH content, and the WPU film containing 100% BH with 47.8% biobased content has a tensile strength of 8 MPa and the highest Young's modulus of 62.3 MPa. The incorporation of BH can increase the production of char residue. The flame retardancy of WPU films increase gradually with the BH molar content, and the LOI value of the WPU100 with 1.53 wt% phosphorus content can reach as high as 28.1%. This work may provide a new approach to develop high biobased content, eco‐friendly, flame retardant WPU for application in the surface coating industry.

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Renewable Castor‐Oil‐based Waterborne Polyurethane Networks: Simultaneously Showing High Strength, Self‐Healing, Processability and Tunable Multishape Memory

Cited by 181 publications

References 53 publications

The Prospering of Macromolecular Materials Based on Plant Oils within the Blooming Field of Polymers from Renewable Resources

The Prospering of Macromolecular Materials Based on Plant Oils within the Blooming Field of Polymers from Renewable Resources

Long-chain polyamide covalent adaptable networks based on renewable ethylene brassylate and disulfide exchange

Flame Retardant Modified Bio‐Based Waterborne Polyurethane Dispersions Derived from Castor Oil and Soy Polyol

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