Page 238 - 《水产学报》2026年第3期

P. 238

3 期陈逸鸿，等：紫外辐照对渔用中高强 UHMWPE 纤维结构与性能的影响 50 卷

[29] Yuan J, Peng J, Li J Q, et al. Synthesis of poly(dimethylamino- [37] 刘思梅. 超高分子量聚乙烯的辐射氧化效应研究 [D]. 上海:
ethyl methacrylate) with high cloud point by RAFT polymeriza- 中国科学院大学 (中国科学院上海应用物理研究所), 2022.
tion under γ-irradiation[J]. Radiation Physics and Chemistry, Liu S M. Research on radiation oxidation effect of ultra-high
2015, 108: 95-101. molecular weight polyethylene[D]. Shanghai: University of
[30] 司鹏. PLA/PBAT 薄膜的制备及其降解性能研究 [D]. 镇江: Chinese Academy of Sciences (Shanghai Institute of Applied
江苏科技大学, 2016.
Physics Chinese Academy of Sciences), 2022 (in Chinese).
Si P. Preparation and degradation properties of PLA/PBAT
[38] 石凌飞, 杨旭, 朱晨瑜, 等. 辐照改性对超高分子量聚乙烯防
films[D]. Zhenjiang: Jiangsu University of Science and Techno- 弹性能影响的研究 [J]. 中国个体防护装备, 2015(2): 8-14.
logy, 2016 (in Chinese).
Shi L F, Yang X, Zhu C Y, et al. Research on the impact of
[31] 张凤仪. 渔用可降解聚乳酸基复合材料结构与性能研究及应
irradiation modification on the ballistic performance of UHM-
用 [D]. 上海: 上海海洋大学, 2024.
WPE[J]. China Personal Protective Equipment, 2015(2): 8-14
Zhang F Y. Research on the structure, properties and their
(in Chinese).
applications of degradable polylactic acid-based composites in
[39] 刘娜, 敖利民, 黄金梅, 等. 长丝纱断丝性测试与表征 [J]. 纺
fishing gear material[D]. Shanghai: Shanghai Ocean University,
织学报, 2018, 39(6): 29-35.
2024 (in Chinese).
Liu N, Ao L M, Huang J M, et al. Testing and characterization
[32] Carrasco F, Pagès P, Pascual S, et al. Artificial aging of high-
of filament breakage of multifilament yarn[J]. Journal of Tex-
density polyethylene by ultraviolet irradiation[J]. European
tile research, 2018, 39(6): 29-35 (in Chinese).
Polymer Journal, 2001, 37(7): 1457-1464.
[40] 肖长发. 化学纤维概论 [M]. 第 3 版. 北京: 中国纺织出版社,
[33] 逄昆, 毛智鹏, 刘强, 等. 超高分子量聚乙烯纤维网紫外线光
2015.
照老化试验研究 [J]. 高分子通报, 2024, 37(8): 1086-1094.
Xiao C F. Introduction to chemical fibers[M]. 3rd ed. Beijing:
Pang K, Mao Z P, Liu Q, et al. Study on ultraviolet light aging
China Textile & Apparel Press, 2015 (in Chinese).
test of ultra-high molecular weight polyethylene fiber nets[J].
[41] 代栋梁. UHMWPE 纤维的辐照交联改性及抗蠕变性能研究
Polymer Bulletin, 2024, 37(8): 1086-1094 (in Chinese).
[D]. 上海: 东华大学, 2017.
[34] Asmatulu R, Mahmud G A, Hille C, et al. Effects of UV
Dai D L. Study on the irradiated crosslinking modification and
degradation on surface hydrophobicity, crack, and thickness of
creep resistance of ultrahigh molecular weight polyethylene
MWCNT-based nanocomposite coatings[J]. Progress in
fiber[D]. Shanghai: Donghua University, 2017 (in Chinese).
Organic Coatings, 2011, 72(3): 553-561.
[35] Costa L, Luda M P, Trossarelli L, et al. In vivo UHMWPE bio- [42] 罗军鹏, 庞勋, 郭晓菊, 等. 强紫外线下超高分子量聚乙烯薄
degradation of retrieved prosthesis[J]. Biomaterials, 1998, 板材料的力学性能研究 [J]. 青海大学学报, 2020, 38(1): 53-
19(15): 1371-1385. 59.
[36] 杨尚鑫. PP/UHMWPE/石墨烯共混材料的研究 [D]. 太原: 中 Luo J P, Pang X, Guo X J, et al. Material mechanical proper-
北大学, 2021. ties study about thin slab of ultra-high molecular weight poly-
Yang S X. Study of PP/UHMWPE/graphene blends[D]. Taiy- ethylene under intense ultraviolet radiation[J]. Journal of Qing-
uan: North University of China, 2021 (in Chinese). hai University, 2020, 38(1): 53-59 (in Chinese).

中国水产学会主办 sponsored by China Society of Fisheries https://www.china-fishery.cn
13

233 234 235 236 237 238 239 240 241 242 243