• Study on the Effect of Cardanol-based Polyol Structure on the Properties of Rigid Polyurethane Foam

  • Juwon Oh and Sangbum Kim

  • Department of Chemical Engineering, Kyonggi University, 154-42, Gwanggyosan-ro, Yeongtong-gu, Suwon 16227, Korea

  • 카다놀 기반 폴리올의 구조가 경질 폴리우레탄 폼의 물성에 미치는 영향 연구

  • 오주원 · 김상범

  • 경기대학교 화학공학과

  • Reproduction, stored in a retrieval system, or transmitted in any form of any part of this publication is permitted only by written permission from the Polymer Society of Korea.

References
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  • 2. Lee, Y. B.; Choi, S. H.; Choe, K. H.; Seo, W. J.; Whang, D. H.; Kim, W. N. The Effect of the Polyols on Properties of Water Blown Rigid Polyurethane Foam. J. Kor. Inst. Gas. 2002, 69-77.
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  • 3. Septevani, A. A.; Evans, D. A. C.; Chaleat, C. Martin, D. J.; Annamalai, P. K. A Systematic Study Substituting Polyether Polyol with Palm Kernel Oil Based Polyester Polyol in Rigid Polyurethane Foam. Ind. Crops. Prod. 2015, 66, 16-26.
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  • 4. Fu, C.; Liu, J.; Xia, H.; Shen, L. Effect of Structure on the Properties of Polyurethanes Based on Aromatic Cardanol-Based Polyols Prepared by Thiol-Ene Coupling. Prog. Org. Coat. 2015, 83, 19-25.
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  • 5. Pu, M.; Fang, C.; Zhou, X.; Wang, D.; Lin, Y.; Lei, W.; Li, L. Recent Advances in Environment-Friendly Polyurethanes from Polyols Recovered from the Recycling and Renewable Resources: A Review. Polymers 2024, 16, 1889.
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  • 6. Ionescu, M.; Wan, X.; Bilić, N.; Petrović, Z. S. Polyols and Rigid Polyurethane Foams from Cashew Nut Shell Liquid. J. Polym. Environ. 2012, 20, 647-658.
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  • 7. Suresh, K. I.; Kishanprasad, V. S. Synthesis, Structure, and Properties of Novel polyols from Cardanol and Developed Polyurethanes. Ind. Eng. Chem. Res. 2005, 44, 4504-4512.
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  • 8. Sardon, H.; Mecerreyes, D.; Basterretxea, A.; Avérous, L.; Jehanno, C. From Lab to Market: Current Strategies for the Production of Biobased polyols. ACS Sustainable Chem. Eng. 2021, 9, 10664-10677.
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  • 9. De Luca Bossa, F.; Verdolotti, L.; Russo, V.; Campaner, P.; Minigher, A.; Lama, G. C.; Lavorgna, M. Upgrading Sustainable Polyurethane Foam Based on Greener Polyols: Succinic-based Polyol and Mannich-based Polyol. Materials 2020, 13, 3170.
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  • 10. Rotaru, I.; Ionescu, M.; Donescu, D.; Vuluga, M.; Purcar, V. Synthesis of New Aromatic Mannich Polyols for Rigid Polyurethane Foams. UPB Sci. Bull. Ser. B Chem. Mater. Sci. 2007, 69, 35-42.
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  • 11. Kim, H. J.; Choi, K. H.; Lee, Y. B.; Kim, S. B. Recycling of Waste Rigid Polyurethane Foam by Glycolysis. J. Kor. Inst. Gas. 2003, 95-101.
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  • 12. Marcovich, N.E.; Kurańska, M.; Prociak, A.; Malewska, E.; Kulpa, K. Open Cell Semi-Rigid Polyurethane Foams Synthesized Using Palm Oil-Based Bio-polyol. Ind. Crops. Prod. 2017, 102, 88-96.
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  • 13. Somdee, P.; Lassú-Kuknyó, T.; Kónya, C.; Ibrahim, J. F. M.; Marossy, K. Investigation of the Rubber Elasticity and Properties of Polyurethane Elastomers with Different Silicon Carbide Contents. J. Phys. Conf. Ser. 2020, 1527, 012038.
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  • Polymer(Korea) 폴리머
  • Frequency : Bimonthly(odd)
    ISSN 2234-8077(Online)
    Abbr. Polym. Korea
  • 2023 Impact Factor : 0.4
  • Indexed in SCIE

This Article

  • 2025; 49(3): 342-349

    Published online May 25, 2025

  • 10.7317/pk.2025.49.3.342
  • Received on Dec 10, 2024
  • Revised on Jan 2, 2025
  • Accepted on Jan 2, 2025

Correspondence to

  • Sangbum Kim

  • Department of Chemical Engineering, Kyonggi University, 154-42, Gwanggyosan-ro, Yeongtong-gu, Suwon 16227, Korea

  • E-mail: ksb@kyonggi.ac.kr