Structure, morphology, and properties of aliphatic polyurethane elastomers from bio‐based 1,3‐propanediol
The utilization of biomass resources in the production of bio-based or bio- recycled polyurethanes (Pit) enhances the sustainable development and eco-friendliness of PU. Herein, a series of new bio-based aliphatic polypropylene dicarboxylate) diols were synthesized using bio-based 1,3-propanediol (b...
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| Published in | Polymer engineering and science Vol. 64; no. 10; pp. 4695 - 4708 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Newtown
Society of Plastics Engineers, Inc
01.10.2024
Blackwell Publishing Ltd |
| Subjects | |
| Online Access | Get full text |
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| Abstract | The utilization of biomass resources in the production of bio-based or bio- recycled polyurethanes (Pit) enhances the sustainable development and eco-friendliness of PU. Herein, a series of new bio-based aliphatic polypropylene dicarboxylate) diols were synthesized using bio-based 1,3-propanediol (bio-PDO) and aliphatic dicarboxylic acids with different chain lengths. These bio-based polyester diols and 1,4-butanediol (BDO) reacted with 4,4'-dicyclohexylmethane diisocyanate to produce aliphatic PU elastomers (PUEs). The study aimed to evaluate the impact of the structure of polypropylene dicarboxylate) diols on the architecture, morphology, mechanical properties, and degradation of PUEs, thereby expanding the application of bio-PDO. The results indicate a strong correlation between the degree of microphase separation, tensile properties, and degradation behavior of the synthesized PUEs and the number of methylene groups in the repeating unit of the polypropylene dicarboxylate) diols. Notably, the PUE derived from polypropylene pimelate) did demonstrates the highest level of microphase separation and superior elasticity properties because of the high flexibility of the polyester. On the other hand, PUE prepared from polypropylene succinate) did exhibits the fastest degradation performance due to its high density of ester groups. Bio-PDO based polyester diols show significant potential as raw materials for PUEs with biodegradable and adjustable mechanical properties. |
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| AbstractList | The utilization of biomass resources in the production of bio-based or bio- recycled polyurethanes (Pit) enhances the sustainable development and eco-friendliness of PU. Herein, a series of new bio-based aliphatic polypropylene dicarboxylate) diols were synthesized using bio-based 1,3-propanediol (bio-PDO) and aliphatic dicarboxylic acids with different chain lengths. These bio-based polyester diols and 1,4-butanediol (BDO) reacted with 4,4'-dicyclohexylmethane diisocyanate to produce aliphatic PU elastomers (PUEs). The study aimed to evaluate the impact of the structure of polypropylene dicarboxylate) diols on the architecture, morphology, mechanical properties, and degradation of PUEs, thereby expanding the application of bio-PDO. The results indicate a strong correlation between the degree of microphase separation, tensile properties, and degradation behavior of the synthesized PUEs and the number of methylene groups in the repeating unit of the polypropylene dicarboxylate) diols. Notably, the PUE derived from polypropylene pimelate) did demonstrates the highest level of microphase separation and superior elasticity properties because of the high flexibility of the polyester. On the other hand, PUE prepared from polypropylene succinate) did exhibits the fastest degradation performance due to its high density of ester groups. Bio-PDO based polyester diols show significant potential as raw materials for PUEs with biodegradable and adjustable mechanical properties. The utilization of biomass resources in the production of bio‐based or bio‐recycled polyurethanes (PUs) enhances the sustainable development and eco‐friendliness of PU. Herein, a series of new bio‐based aliphatic poly(propylene dicarboxylate) diols were synthesized using bio‐based 1,3‐propanediol (bio‐PDO) and aliphatic dicarboxylic acids with different chain lengths. These bio‐based polyester diols and 1,4‐butanediol (BDO) reacted with 4,4′‐dicyclohexylmethane diisocyanate to produce aliphatic PU elastomers (PUEs). The study aimed to evaluate the impact of the structure of poly(propylene dicarboxylate) diols on the architecture, morphology, mechanical properties, and degradation of PUEs, thereby expanding the application of bio‐PDO. The results indicate a strong correlation between the degree of microphase separation, tensile properties, and degradation behavior of the synthesized PUEs and the number of methylene groups in the repeating unit of the poly(propylene dicarboxylate) diols. Notably, the PUE derived from poly(propylene pimelate) diol demonstrates the highest level of microphase separation and superior elasticity properties because of the high flexibility of the polyester. On the other hand, PUE prepared from poly(propylene succinate) diol exhibits the fastest degradation performance due to its high density of ester groups. Bio‐PDO based polyester diols show significant potential as raw materials for PUEs with biodegradable and adjustable mechanical properties.HighlightsPoly(propylene dicarboxylate) diols were prepared from bio‐based 1,3‐propanediol.The poly(propylene dicarboxylate) diols based polyurethane elastomers (PUEs) have high tensile strength (>22 MPa) and elongation at break (>920%).The morphology, mechanical properties and degradation of PUEs are highly related to the structure of the poly(propylene dicarboxylate) diols.The increasing repeating unit length of the poly(propylene dicarboxylate) diols increases elastic recovery of PUEs. The utilization of biomass resources in the production of bio-based or bio- recycled polyurethanes (Pit) enhances the sustainable development and eco-friendliness of PU. Herein, a series of new bio-based aliphatic polypropylene dicarboxylate) diols were synthesized using bio-based 1,3-propanediol (bio-PDO) and aliphatic dicarboxylic acids with different chain lengths. These bio-based polyester diols and 1,4-butanediol (BDO) reacted with 4,4'-dicyclohexylmethane diisocyanate to produce aliphatic PU elastomers (PUEs). The study aimed to evaluate the impact of the structure of polypropylene dicarboxylate) diols on the architecture, morphology, mechanical properties, and degradation of PUEs, thereby expanding the application of bio-PDO. The results indicate a strong correlation between the degree of microphase separation, tensile properties, and degradation behavior of the synthesized PUEs and the number of methylene groups in the repeating unit of the polypropylene dicarboxylate) diols. Notably, the PUE derived from polypropylene pimelate) did demonstrates the highest level of microphase separation and superior elasticity properties because of the high flexibility of the polyester. On the other hand, PUE prepared from polypropylene succinate) did exhibits the fastest degradation performance due to its high density of ester groups. Bio-PDO based polyester diols show significant potential as raw materials for PUEs with biodegradable and adjustable mechanical properties. Highlights * Polypropylene dicarboxylate) diols were prepared from bio-based 1,3-propanediol. * The polypropylene dicarboxylate) diols based polyurethane elastomers (PUEs) have high tensile strength (>22 MPa) and elongation at break (>920%). * The morphology, mechanical properties and degradation of PUEs are highly related to the structure of the polypropylene dicarboxylate) diols. * The increasing repeating unit length of the polypropylene dicarboxylate) diols increases elastic recovery of PUEs. KEYWORDS 1,3-propanediol, aliphatic polyurethane, degradation, mechanical property, morphology |
| Audience | Academic |
| Author | Wang, Guiyou Ge, Shang Zhu, Yun Zhu, Youzhi Wu, Qing |
| Author_xml | – sequence: 1 givenname: Qing surname: Wu fullname: Wu, Qing organization: Shanghai Key Laboratory of Advanced Polymeric Materials, School of Materials Science and Engineering East China University of Science and Technology Shanghai China – sequence: 2 givenname: Shang surname: Ge fullname: Ge, Shang organization: Shanghai Key Laboratory of Advanced Polymeric Materials, School of Materials Science and Engineering East China University of Science and Technology Shanghai China – sequence: 3 givenname: Youzhi surname: Zhu fullname: Zhu, Youzhi organization: Shanghai Key Laboratory of Advanced Polymeric Materials, School of Materials Science and Engineering East China University of Science and Technology Shanghai China – sequence: 4 givenname: Yun surname: Zhu fullname: Zhu, Yun organization: Shanghai Key Laboratory of Advanced Polymeric Materials, School of Materials Science and Engineering East China University of Science and Technology Shanghai China – sequence: 5 givenname: Guiyou orcidid: 0000-0001-9863-1465 surname: Wang fullname: Wang, Guiyou organization: Shanghai Key Laboratory of Advanced Polymeric Materials, School of Materials Science and Engineering East China University of Science and Technology Shanghai China |
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| Snippet | The utilization of biomass resources in the production of bio-based or bio- recycled polyurethanes (Pit) enhances the sustainable development and... The utilization of biomass resources in the production of bio‐based or bio‐recycled polyurethanes (PUs) enhances the sustainable development and... |
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| SubjectTerms | Aliphatic compounds Butanediol China Dicarboxylic acids Diisocyanates Diols Elastic recovery Elastomers Elongated structure Isocyanates Mechanical properties Morphology Natural resources Performance degradation Polyesters Polyurethane Polyurethane resins Polyurethanes Propylene Raw materials Separation Sustainable development Synthesis Tensile properties Tensile strength |
| Title | Structure, morphology, and properties of aliphatic polyurethane elastomers from bio‐based 1,3‐propanediol |
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