Preparation and Application of Inherent Flame-Retardant Polyurethane Foams

Zhicheng Fu; Luping Feng; Wei Luo; Ting Wang; Jinni Deng; Wenli An; Mingjun Chen

doi:10.7536/PC230907

PDF(30821 KB)

Prog Chem ›› 2024, Vol. 36 ›› Issue (5) : 696-708. DOI: 10.7536/PC230907

Review

Preparation and Application of Inherent Flame-Retardant Polyurethane Foams

Author information +

History +

Abstract

polyurethane foam,As one of the most important and widely used synthetic polymers since the 20th century,exhibits advantages such as low density,high strength,and excellent thermal insulation.it finds widespread applications in fields like aerospace noise reduction,railway track stabilization,and building insulation.However,its high flammability poses a serious threat to human life and property,limiting its further development.the addition or surface coating of flame retardants can indeed enhance the flame retardancy of polyurethane foam efficiently.However,these methods often result in the migration and precipitation of flame retardants,ultimately compromising its flame retardant properties and internal performance.Alternatively,the copolymerization of reactive flame retardant molecules into the polymer chain offers a more effective solution.This approach not only addresses the issues of flame retardant migration and precipitation but also minimizes the impact on the substrate’s properties.as a result,It is highly favored by the industry and holds immense potential for future engineering applications.This review aims to provide a comprehensive overview of various methods for the preparation of intrinsic flame-retardant polyurethane foams over the past decade,focusing on the perspective of monomer molecular design and synthesis.This includes polyol modifications,isocyanate modifications,additive modifications,and other modifications.Furthermore,the review will delve into the challenges that remain to be addressed and offer insights into potential future directions for application development。

Contents

1 Introduction

2 Polyol modifications

2.1 Petroleum-based polyol

2.2 Bio-based polyol

3 Isocyanate modifications

4 Additive modifications

5 Other modifications

6 Conclusion and outlook

Key words

polyurethane foam / inherent flame retardant / preparation / application progress

Cite this article

EndNote

Ris (Procite)

Bibtex

Download Citations

Zhicheng Fu , Luping Feng , Wei Luo , et al . Preparation and Application of Inherent Flame-Retardant Polyurethane Foams[J]. Progress in Chemistry. 2024, 36(5): 696-708 https://doi.org/10.7536/PC230907

References

List( Publishing order | Descend order by publishing year | Descend order by cited within ) Chart analysis

[1]	Kausar A. Polym. Plast. Technol. Eng., 2018, 57(4): 346. Cited in this article [1]

[2]	Dong F H, Wang Y Q, Wang S B, Shaghaleh H, Sun P H, Huang X J, Xu X, Wang S F, Liu H. React. Funct. Polym., 2021, 168: 105057. Cited in this article [1]

[3]	Geyer R, Jambeck J R, Law K L. Sci. Adv., 2017, 3(7): e1700782. Cited in this article [1]

[4]	Vinoth Kumar S, Subramanian J, Giridharan A, Gupta M, Adhikari A, Gayen M. Mater. Today Proc., 2021, 46: 1077. Cited in this article [1]

[5]	Gómez E F, Luo X L, Li C, Michel F C Jr, Li Y B. Polym. Degrad. Stab., 2014, 102: 195. Cited in this article [1]

[6]	Tan S Q, Abraham T, Ference D, Macosko C W. Polymer, 2011, 52(13): 2840. Cited in this article [1]

[7]	Kuranska M, Prociak A. Compos. Sci. Technol., 2012, 72(2): 299. Cited in this article [1]

[8]	He Z L, Jia D H, Wang L L, Gao A zeng Z P, Wang X M. Polym. Degrad. Stab., 2022, 203: 110057. Cited in this article [1]

[9]	Verdejo R, Stämpfli R, Alvarez-Lainez M, Mourad S, Rodriguez-Perez M A, Brühwiler P A, Shaffer M. Compos. Sci. Technol., 2009, 69(10): 1564. Cited in this article [1]

[10]	Liang S Y, Neisius M, Mispreuve H, Naescher R, Gaan S. Polym. Degrad. Stab., 2012, 97(11): 2428. Cited in this article [1]

[11]	Madaleno L, Pyrz R, Crosky A, Jensen L R, Rauhe J C M, Dolomanova V, de Barros Timmons A M M V, Cruz Pinto J J, Norman J. Compos. Part A Appl. Sci. Manuf., 2013, 44: 1. Cited in this article [1]

[12]	Li Z, Sun Y, Yan Q, Zhang S F. Ind. Crops Prod., 2023, 191: 115896. Cited in this article [1]

[13]	Li T T, Xing M F, Wang H Y, Huang S Y, Fu C G, Lou C W, Lin J H. RSC Adv., 2019, 9(37): 21192. Cited in this article [1]

[14]	Hai Y, Jiang S H, Zhou C L, Sun P, Huang Y B, Niu S C. Dalton Trans., 2020, 49(18): 5803. Cited in this article [1]

[15]	Gu J W, Liang C B, Zhao X M, Gan B, Qiu H, Guo Y, Yang X T, Zhang Q Y, Wang D Y. Compos. Sci. Technol., 2017, 139: 83. Cited in this article [1]

[16]	Li M E, Wang S X, Han L X, Yuan W J, Cheng J B, Zhang A N, Zhao H B, Wang Y Z. J. Hazard. Mater., 2019, 375: 61. Cited in this article [1]

[17]	Huang S, Wang L, Li Y C, Liang C B, Zhang J L. J. Appl. Polym. Sci., 2021, 138(27): e50649. Cited in this article [1]

[18]	Chen H B, Shen P, Chen M J, Zhao H B, Schiraldi D A. ACS Appl. Mater. Interfaces, 2016, 8(47): 32557. Cited in this article [1]

[19]	Lazar S T, Kolibaba T J, Grunlan J C. Nat. Rev. Mater., 2020, 5(4): 259. Cited in this article [1]

[20]	Ma Z W, Liu X C, Xu X D, Liu L, Yu B, Maluk C, Huang G B, Wang H, Song P A. ACS Nano, 2021, 15: 11680. Cited in this article [1]

[21]	Chen L, Ruan C, Yang R, Wang Y Z. Polym. Chem., 2014, 5(12): 3737. Cited in this article [1]

[22]	Thirumal M, Khastgir D, Nando G B, Naik Y P, Singha N K. Polym. Degrad. Stab., 2010, 95(6): 1138. Cited in this article [1]

[23]	Naik A D, Fontaine G, Samyn F, Delva X, Bourgeois Y, Bourbigot S. Polym. Degrad. Stab., 2013, 98(12): 2653. Cited in this article [1]

[24]	Hoang C N, Pham C T, Dang T M, Hoang D, Lee P C, Kang S J, Kim J. Polymers, 2019, 11(2): 236. Cited in this article [1]

[25]	Yadav A, Souza F M, Dawsey T, Gupta R K. Ind. Eng. Chem. Res., 2022, 61(41): 15046. Cited in this article [1]

[26]	Zhu M H, Ma Z W, Liu L, Zhang J Z, Huo S Q, Song P A. J. Mater. Sci. Technol., 2022, 112: 315. Cited in this article [1]

[27]	Chen M J. J. Xihua Univ. Nat. Sci. Ed., 2020, 39(5): 57. (陈明军. 西华大学学报(自然科学版), 2020, 39(5): 57.) Cited in this article [1]

[28]	Zhang J Y, Liu B W, Wang Y Z, Zhao H B. Acta Polymerica Sinica, 2022, 7: 842. ( 张佳燕, 刘博文, 王玉忠, 赵海波. 高分子学报, 2022, 7: 842.) Cited in this article [1]

[29]	Yang R, Hu W T, Xu L, Song Y, Li J C. Polym. Degrad. Stab., 2015, 122: 102. Cited in this article [4]

[30]	Yang R, Wang B, Han X F, Ma B B, Li J C. Polym. Degrad. Stab., 2017, 144: 62. Cited in this article [4]

[31]	Wang S X, Zhao H B, Rao W H, Huang S C, Wang T, Liao W, Wang Y Z. Polymer, 2018, 153: 616. Cited in this article [4]

[32]	Jia D K, Guo X Y, He J Y, Yang R J. Polym. Degrad. Stab., 2019, 167: 189. Cited in this article [4]

[33]	Yuan Y, Yang H Y, Yu B, Shi Y Q, Wang W, Song L, Hu Y, Zhang Y M. Ind. Eng. Chem. Res., 2016, 55(41): 10813. Cited in this article [4]

[34]	Zhao B, Liu D Y, Liang W J, Li F, Wang J S, Liu Y Q. J. Anal. Appl. Pyrolysis, 2017, 124: 247. Cited in this article [4]

[35]	Han S H, Zhu X D, Chen F, Chen S H, Liu H. Polym. Degrad. Stab., 2020, 177: 109178. Cited in this article [4]

[36]	Rao W H, Liao W, Wang H, Zhao H B, Wang Y Z. J. Hazard. Mater., 2018, 360: 651. Cited in this article [4]

[37]	Rao W H, Xu H X, Xu Y J, Qi M, Liao W, Xu S M, Wang Y Z. Chem. Eng. J., 2018, 343: 198. Cited in this article [4]

[38]	Wu N J, Niu F K, Lang W C, Yu J H, Fu G L. Mater. Des., 2019, 181: 107929. Cited in this article [4]

[39]	Cui Z, Chen Y, Meng D, Wang S H, Sun T B, Sun J, Li H F, Gu X Y, Zhang S. Polym. Degrad. Stab., 2023, 208: 110238. Cited in this article [4]

[40]	Qian X, Liu Q, Zhang L B, Li H, Liu J W, Yan S K. Polym. Degrad. Stab., 2022, 197: 109852. Cited in this article [4]

[41]	Luo Y M, Ye Z B, Yan J. Plast. Rubber Compos., 2022, 51(3): 154. Cited in this article [4]

[42]	Ma C, Qiu S L, Xiao Y L, Zhang K, Zheng Y P, Xing W Y, Hu Y. Chem. Eng. J., 2022, 431: 133347. Cited in this article [4]

[43]	Li X, Yu Z Q, Zhang L. J. Appl. Polym. Sci., 2021, 138(14): e50154. Cited in this article [4]

[44]	Czupryński B, Sadowska J P, Liszkowska J. J. Polym. Eng., 2002, 22(1): 59. Cited in this article [1]

[45]	Gama N, Ferreira A, Barros-Timmons A. Materials, 2018, 11(10): 1841. Cited in this article [1]

[46]	Ma X Z, Luo Q, Qin D D, Chen J, Zhu J, Yan N. Progress in Chemistry, 2020, 32(5): 617. ( 马晓振, 罗清, 秦冬冬, 陈景, 朱锦, 颜宁. 化学进展, 2020, 32(5): 617.) Cited in this article [1]

[47]	Vahabi H, Rastin H, Movahedifar E, Antoun K, Brosse N, Saeb M R. Polymers, 2020, 12(6): 1234. Cited in this article [1]

[48]	Seddiqi H, Oliaei E, Honarkar H, Jin J F, Geonzon L C, Bacabac R G, Klein-Nulend J. Cellulose, 2021, 28(4): 1893. Cited in this article [1]

[49]	Miao S D, Wang P, Su Z G, Zhang S P. Acta Biomater., 2014, 10(4): 1692. Cited in this article [1]

[50]	Bernardini J, Cinelli P, Anguillesi I, Coltelli M B, Lazzeri A. Eur. Polym. J., 2015, 64: 147. Cited in this article [1]

[51]	Faria D L, Júnior L M, de Almeida Mesquita R G, Júnior M G, Pires N J, Mendes L M, Junior J B G. J. Polym. Res., 2020, 27(9): 249. Cited in this article [1]

[52]	Lubczak R, Broda D, Kus-Liśkiewicz M, Szczęch D, Bobko E, Dębska B, Szpiłyk M, Lubczak J. Polym. Test., 2021, 104: 107395. Cited in this article [1]

[53]	Lyu B, Zhang H N, Gao D G, Ma J Z. Prog. Org. Coat., 2022, 168: 106893. Cited in this article [1]

[54]	Marriam F, Irshad A, Umer I, Asghar M A, Atif M. Sustain. Chem. Pharm., 2023, 31: 100935.

[55]	Yang Y M, Cao H, Wang Y K, Zhao J B, Ren W Q, Wang B, Qin P Y, Chen F X, Wang Y M, Cai D. Ind. Crops Prod., 2022, 186: 115224.

[56]	Tong X J, Luo X L, Li Y B. Ind. Crops Prod., 2015, 67: 11.

[57]	Shaarani F W, Bou J J. Sci. Total Environ., 2017, 598: 931.

[58]	Chavan A P, Gogate P R. J. Ind. Eng. Chem., 2015, 21: 842.

[59]	Zhang L Q, Zhang M, Hu L H, Zhou Y H. Ind. Crops Prod., 2014, 52: 380. Cited in this article [4]

[60]	Ding H Y, Huang K, Li S H, Xu L N, Xia J L, Li M. J. Anal. Appl. Pyrolysis, 2017, 128: 102. Cited in this article [4]

[61]	Sykam K, Meka K K R, Donempudi S. ACS Omega, 2019, 4(1): 1086. Cited in this article [4]

[62]	Acuña P, Zhang J, Yin G Z, Liu X Q, Wang D Y. J. Mater. Sci., 2021, 56(3): 2684. Cited in this article [4]

[63]	Zhang K B, Hong Y B, Wang N G, Wang Y H. J. Appl. Polym. Sci., 2018, 135(5): e45779. Cited in this article [4]

[64]	Chen M J, Wang X, Tao M C, Liu X Y, Liu Z G, Zhang Y, Zhao C S, Wang J S. Polym. Degrad. Stab., 2018, 154: 312. Cited in this article [4]

[65]	Zhou W, Jia P Y, Zhou Y H, Zhang M. Chin. J. Chem. Eng., 2018, 26(12): 2664. Cited in this article [4]

[66]	Kamińska K, Barczewski M, Kurańska M, Malewska E, Polaczek K, Prociak A. Materials, 2022, 15(17): 6087. Cited in this article [4]

[67]	Zhu H B, Peng Z M, Chen Y M, Li G Y, Wang L, Tang Y, Pang R, Khan Z U H, Wan P Y. RSC Adv., 2014, 4(98): 55271. Cited in this article [4]

[68]	Wang W, Wang D, Xia B H, Li T, Wang Y, Zhang X H, Bai H Y, Chen M Q, Dong W F. Ind. Crops Prod., 2022, 177: 114479. Cited in this article [4]

[69]	Bhoyate S, Ionescu M, Kahol P K, Chen J, Mishra S R, Gupta R K. J. Appl. Polym. Sci., 2018, 135(21): e46224. Cited in this article [4]

[70]	Yang R, Gu G Z, Li M D, Li J C. J. Appl. Polym. Sci., 2022, 139(46): e53167. Cited in this article [4]

[71]	König A, Fehrenbacher U, Hirth T, Kroke E. J. Cell. Plast., 2008, 44(6): 469. Cited in this article [1]

[72]	Jia D K, Hu J, He J Y, Yang R J. J. Appl. Polym. Sci., 2019, 136(37): e47943. Cited in this article [3]

[73]	Li Y, Tian H F, Zhang J, Zou W, Wang H, Du Z J, Zhang C. Polym. Compos., 2020, 41(12): 5126. Cited in this article [1]

[74]	Chen M J, Chen C R, Tan Y, Huang J Q, Wang X L, Chen L, Wang Y Z. Ind. Eng. Chem. Res., 2014, 53(3): 1160. Cited in this article [3]

[75]	Wang J L, Ma C, Wang P L, Qiu S L, Cai W, Hu Y. Polym. Degrad. Stab., 2018, 149: 119. Cited in this article [1]

[76]	Ma C, Yu B, Hong N N, Pan Y, Hu W Z, Hu Y. Ind. Eng. Chem. Res., 2016, 55(41): 10868. Cited in this article [1]

[77]	Ma C, Qiu S L, Wang J L, Sheng H B, Zhang Y, Hu W Z, Hu Y. Polym. Degrad. Stab., 2018, 154: 157. Cited in this article [1]

[78]	Zhang K B, Hong Y B, Wang N G, Wang Y H. J. Appl. Polym. Sci., 2018, 135(5): e45779. Cited in this article [1]

[79]	Zhang T, Tao Y J, Zhou F, Sheng H B, Qiu S L, Ma C, Hu Y. Polym. Degrad. Stab., 2019, 165: 207. Cited in this article [1]

[80]	Xu L, Yan S, Fu J, Li J, Xie J. J. Appl. Polym. Sci., 2020, 137: 48335. Cited in this article [1]

[81]	Lin Y, Yu B, Jin X, Song L, Hu Y. RSC Adv., 2016, 6(55): 49633. Cited in this article [1]

[82]	Lan Z Y, Daga R, Whitehouse R, McCarthy S, Schmidt D. Polymer, 2014, 55(11): 2635. Cited in this article [1]

[83]	Coste G, Denis M, Sonnier R, Caillol S, Negrell C. Polym. Degrad. Stab., 2022, 202: 110031. Cited in this article [3]

[84]	Fu Z C, Bu F Y, Li Z P, Wang T, Deng J N, Zhao H B, Huang S C, Wang Y Z, Chen M J. Chem. Eng. J., 2024, 479: 147935. Cited in this article [1]

[85]	Fu Z C, Feng L P, Qin Y, Mu X H, Zhong X Q, Wang Z Y, Wang T, Deng J N, Li J F, Chen M J. Org. Chem. Front., 2024, 11(2): 270. Cited in this article [1]