| POLYMERS AND POLYMER MATRIX COMPOSITES |
|
|
|
|
|
| High-value Reuse Technology and Application Prospect of Waste Aramid Fiber Resources |
| JIA Fengfeng1,2,3,*, LU Zhaoqing1,2,3,*, ZHAO Huimei1,2, YANG Pengbo1, PANG Ruixue1, CHEN Weijing1, CHEN Jingfeng1, HUA Li1,3
|
1 College of Bioresources Chemical and Materials Engineering, Shaanxi University of Science & Technology, Xi’an 710021, China
2 Qilu Univeristy of Technology(Shandong Academy of Science), Jinan 250353, China
3 Shaanxi Parade Advanced Materials Technology Co., Ltd., Xi’an 710075, China |
|
|
|
|
Abstract With the expansion productive capacity and the wide application in aerospace, military weapon, rail transit, special protection of aramid fiber, waste aramid fibersare growing rapidly. As a big producer and consumer country of aramid fiber, with the development of military, police body armor, and protective clothing replacement project, the high value reuse of waste aramid fiber is urgent and critical in China. However, due to aramid fiber’s regular molecular chain, high crystallinity, ideal mechanical performance, the traditional method is difficult to recycle it, Herein, in this summary, the recycling technology of waste aramid fiber resources was reviewed, and the progress of high value utilization technology included pulp method, cracking method, depolymerization method and carbonization method was discussed. Finally, the application of high value reuse technology of waste aramid fiber resources is prospected.
|
|
Published: 10 November 2025
Online: 2025-11-10
|
|
|
|
|
1 He A, Xing T, Liang Z, et al. Advanced Fiber Materials, 2024, 6(1), 3.
2 Nagaraju G, Sekhar S C, Yu J S. Advanced Energy Materials, 2018, 8(7), 1702201.
3 Wang S P, Wu B Z, He Z. Journal of Textile Research, 2021, 42(1), 34(in Chinese).
汪少朋, 吴宝宅, 何洲. 纺织学报, 2021, 42(1), 34.
4 Miao R, Yin Y, Ding Y, et al. ACS Macro Letters, 2024, 13(11), 1515.
5 Han F, Lang C H, Qiu Y P. Journal of Textile Research, 2022, 43(3), 96(in Chinese).
韩非, 郎晨宏, 邱夷平. 纺织学报, 2022, 43(3), 96.
6 Yang B, Wang L, Zhang M, et al. Advanced Functional Materials, 2020, 30(22), 2000186.
7 Cao K, Siepermann C P, Yang M, et al. Advanced Functional Materials, 2013, 23(16), 2072.
8 Luo J, Wen Y, Li T, et al. Advanced Functional Materials, 2024, 34(7), 2310008.
9 Zhao J Y. Procuratorial situation, 2013(7), 69(in Chinese).
赵进一. 检察风云, 2013(7), 69.
10 Sun H B. Dyeing and Finishing Techniques, 2022, 44(1), 61(in Chinese).
孙淮滨. 染整技术, 2022, 44(1), 61.
11 Lv F, Lu X, Song J, et al. Research on Chemical Intermediates, 2022, 48(11), 4815.
12 Li Z Y, Yan K, Wang W W. Journal of Radiation Research and Radiation Processing, 2024, 42(5), 31(in Chinese).
李志尧, 严坤, 王雯雯, 等. 辐射研究与辐射工艺学报, 2024, 42(5), 31.
13 Liao Y, Chen C, Wei B, et al. Polymers for Advanced Technologies, 2022, 33(10), 3540.
14 Song Y S. Preparation of recycled aramid nanofibers and the composite with waterborne polyurethane. Ph. D. Thesis, Beijing University of Chemical Technology, China, 2024(in Chinese).
宋羽裳. 回收芳纶纳米纤维的制备及与水性聚氨酯的复合研究. 博士学位论文, 北京化工大学, 2024.
15 Chen H H, Jiang H L. Textile industry and technology, 2023, 52(4), 133(in Chinese).
陈海宏, 江华丽. 轻纺工业与技术, 2023, 52(4), 133.
16 Burch R R, Sweeny W, Schmidt H W, et al. Macromolecules, 1990, 23(4), 1065.
17 Yang M, Cao K, Sui L, et al. ACS Nano, 2011, 5(9), 6945.
18 Yang B, Wang L, Zhang M, et al. ACS Nano, 2019, 13(7), 7886.
19 Yang B, Li W, Zhang M, et al. ACS Nano, 2021, 15(4), 7195.
20 Chen H J, Bai Q Y, Liu M C, et al. Green Chemistry, 2021, 23(19), 7646.
21 Kim H C, Sodano H A. Advanced Functional Materials, 2023, 33(4), 2208661.
22 Patel A, Wilcox K, Li Z, et al. ACS Applied Materials & Interfaces, 2020, 12(23), 25756.
23 Tan J, Luo Y, Zhang M, et al. ACS Applied Materials & Interfaces, 2021, 13(14), 16895.
24 Shu R, Zhang Q, Zhao Y B, et al. Separation and Purification Technology, 2022, 285, 299121692.
25 Liu Y, Zou W, Zhao N, et al. Nature Communications, 2023, 14(1), 5342.
26 Okajima I, Okamoto H, Sako T. Polymer Degradation and Stability, 2019, 169, 16222.
27 Okajima I, Okamoto H, Sako T. Polymer Degradation and Stability, 2021, 265, 187109547.
28 Xie F, Jia F, Zhuo L, et al. Journal of Materials Science, Materials in Electronics, 2021, 32(6), 7090.
29 Karthik D, Baheti V, Militky J, et al. Materials, 2021, 14(21), 6433.
30 Cheng J, Lin Z, Wu D, et al. Journal of Hazardous Materials, 2022, 368, 436129150.
31 Castro-Muñiz A, Suárez-García F, Martínez-Alonso A, et al. ChemSusChem, 2013, 6(8), 1406.
32 Yu A J, Fan Z P, Jin G L, et al. Hi-Tech Fiber & Application, 2021, 46(1), 62(in Chinese).
于安军, 范志平, 靳高岭, 等. 高科技纤维与应用, 2021, 46(1), 62.
33 Zhang S F, Sun Z X, Dou W W, et al. China Pulp & Paper, 2013,32(6), 37(in Chinese).
张素风, 孙召霞, 豆莞莞, 等. 中国造纸, 2013, 32(6), 37.
34 You X L, Liu Z F. Polymer Materials Science and Engineering, 2003, 19(3), 45(in Chinese).
尤秀兰, 刘兆峰. 高分子材料科学与工程, 2003, 19(3), 45.
35 Saliani S S, Tavassoti P, Baaj H, et al. Construction and Building Materials, 2021, 280, 122554.
36 Kong H, Ding H, Yu M, et al. Polymer Composites, 2019, 40(S1), 476.
37 Zhou Y J. Surface modification of submicron aramid pulp fiber and study on structure and properties of rubber-based composits, Ph. D. Thesis, Beijing University of Chemical Technology, China, 2017(in Chinese).
周亚军. 次微米芳纶浆粕短纤维的表面改性及其填充橡胶基复合材料结构与性能的研究. 博士学位论文, 北京化工大学, 2017.
38 Yang B, Lu Z, Zhang M, et al. Journal of Applied Polymer Science, 2016, 133(13),
39 Wang Y, Huang Y W, Wang X W, et al. China Synthetic Fiber Industry, 2010, 33(6), 21(in Chinese).
王宜, 黄毅汪, 王习文, 等. 合成纤维工业, 2010, 33(6), 21.
40 Bai J H, Wang H, Wang Y, et al. Textile Research Journal, 2018, 881559
41 齐胜利, 刘少飞, 田国峰. 中国专利, CN105085914A. 2019.
42 俞建刚. 中国专利, CN105220262A, 2016.
43 Yao S, Chen M, Huang S, et al. Composites Communications, 2022, 34, 101250.
44 Chuang Y C, Bao L, Lou C W, et al. Fibers and Polymers, 2019, 20(2), 398.
45 Loureiro L, Henrique Carvalho V, Prado Bettini S H. Polymer Testing, 2016, 38, 56124. |
|
|
|
渝公网安备50019002502923号 © Editorial Office of Materials Reports.
2025, Vol. 39 
