Page 201 - 《精细化工》2023年第2期

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第 2 期马锐，等: 高强高模聚乙烯纤维纸基复合材料的制备及性能 ·423·

3 结论 [8] WANG C H (王长红), LONG Z (龙柱), CHEN J (陈杰), et al.
Effects of basis weight and fiber length on properties of UHMWPE
fiber paper[J]. China Plastics Industry (塑料工业), 2017, 45(6):
（1）随着针叶木浆质量比不断增加，原纸的强
70-73.
度逐渐增大；随着针叶木浆打浆度的不断提高，纸 [9] SHEN F Y (申飞艳). Study on paper base lithium ion battery
基材料原纸的抗张指数呈现先升后降的趋势，当打 separator[D]. Changsha: Changsha University of Science and Technology
(长沙理工大学), 2013.
浆度为 58 °SR 时，纸基材料原纸的力学性能较好， [10] ZHANG M Y (张美云), DONG H B (董和滨), WANG J (王
故 UHMWPE 纤维纸基复合材料的湿法成形的最佳建). Effect of the ration of high and low freeness high yield pulps on
工艺为：UHMWPE 纤维与针叶木浆质量比为 7∶3、 the properties of the papers made of the mixed pulps[J]. China Pulp
& Paper (中国造纸), 2011, 30(1): 1-4.
针叶木浆打浆度为 58 °SR。 [11] XIE M Q (谢茂青), WANG L G (王雷刚), LUO Y Q (罗怡沁), et al.
（2）酚醛树脂浸渍最佳工艺为：酚醛树脂水溶液 Thermal and mechanical propertyes of paper-based friction materials
with nano-Al 2O 3 modified phenolic resin[J]. Materials Science and
质量分数为 10%、浸渍时间约为 120 s、上胶量为 44%。
Engineering of Powder Metallurgy (粉末冶金材料科学与工程),
（3）UHMWPE 纤维纸基复合材料的最佳热压 2021, 26(2): 182-188.
工艺为：热压时间为 15 min、热压压力为 10 MPa、 [12] DMITRY Z, DILYUS C, VALERII T, et al. Manufacturing of single-
polymer composite materials based on ultra-high molecular weight
热压温度为 130 ℃。
polyethylene fibers by hot compaction[J]. Journal of Materials
（4）原纸经过酚醛树脂浸渍热压后，UHMWPE Engineering and Performance, 2020, 29(3): 1522-1527.
纤维纸基复合材料表面变得平滑，热稳定性好，与 [13] LONG A Y (龙爱云), ZHAO C S (赵传山), JIANG Y F (姜亦飞),
et al. Preparation of a water-soluble phenolic resin and its application
原纸相比，其力学性能得到进一步提高，抗张指数 in oil filter paper[J]. China Pulp & Paper (中国造纸), 2015, 34(6):
提高了 6.9 倍。 28-34.
（5）根据所制备的 UHMWPE 纤维纸基复合材料 [14] ZHAI X Y (翟晓勇), ZHOU W C (周万城), LUO F (罗发), et al.
Effect of hot-pressing parameter on mechanical and dielectric
性能，可以推测这种纸基材料在绝缘材料、增强材料、 properties of chopping SiCf/LAS composites[J]. Fine Chemicals (精
耐磨损材料等方面具有一定的发展潜力和应用前景。细化工), 2007, 24(11): 1051-1055.
[15] ZHUANG S J (庄思杰), ZHANG J X (张静贤), LONG Z (龙柱),
参考文献： et al. Preparation of gallic acid/ethylenediamine co-deposited polyester
fiber and its paper-forming properties[J]. Fine Chemicals (精细化
[1] ZHAO D J (赵东瑾). Ultra high molecular weight polethylene fiber 工), 2021, 38(4): 846-852.
and continuous basalt fiber[J]. Textile Science Research (纺织科学 [16] LI M J (李梦洁), DONG J (董杰), ZHAO X (赵昕), et al. Preparation
研究), 2017,(5): 70-76. and properties of nanoaramid reinforced aramid pulp insulating
[2] WANG X W (王新威), ZHANG Y M (张玉梅), SUN Y F (孙勇飞), composite paper[J]. Insulating Materials (绝缘材料), 2020, 53(9):
et al. Research progress of ultra-high molecular weight polyethylene[J]. 13-18.
Chemical Industry and Engineering Progress (化工进展),2020, 39(9): [17] ZHANG P P (张盼盼). Study on preparation and properties of low
3403-3420. dielectric constant polyimide films[D]. Harbin: Harbin Institute of
[3] CHEN L(陈林). Properties and applications of high strength and high
modulus polyethylene fiber[J]. Light and Textile Industry and Technology (哈尔滨工业大学), 2018.
Technology (轻纺工业与技术), 2020, 49(9): 117-118. [18] ZHAO Z Z (赵忠政), JIN W B (金文斌), LUO P D (罗培栋), et al.
[4] YU D Q (于达勤). Study on properties and application of ultra-high Preparation and properties of polyarylate fiber insulating paper[J].
molecular weight high strength and high modulus polyethylene China Pulp & Paper (中国造纸), 2021, 40(10): 24-29.
fiber[J]. Textile Reports (纺织报告), 2021, 40(2): 10-12. [19] LIU C C (刘崇崇), CHEN L (陈乐), GUO S (郭帅), et al. Preparation
[5] SUN S F (孙山峰), DAI S W (代士维), XU S K (徐绍魁). Properties of dry spinning polyimide insulating paper and study on its performance[J].
and application of ultra-high molecular weight polyethylene fiber[J]. New Chemical Materials (化工新型材料), 2016, 44(10): 82-84, 87.
Modern Chemical Research (当代化工研究), 2019,(7): 97-98. [20] LIAO R J (廖瑞金), LI X (李萧), YANG L J (杨丽君), et al. Effect
[6] LIU J H (刘俊华), ZHANG M Y (张美云), LU Z Q (陆赵情). of the ratios of aramid fiber to pulp on the properties of aramid
Mechanics research on resin enhanced PPTA paper[J]. Paper and paper[J]. High Voltage Engineering (高电压技术), 2015, 41(2):
Paper Making (纸和造纸), 2013, 32(9): 46-49. 364-373.
[7] WANG C H (王长红), LONG Z (龙柱), ZHANG F S (张凤山), et al. [21] JIA W Q (贾旺强), ZHENG J Z (郑进智), LIU Z H (刘泽华), et al.
Structure and properties of UHMWPE fiber paper[J]. China Plastics Effect of cellulose nanofibrils on the performance of capacitor tissue
Industry (塑料工业), 2016, 44(9): 137-140. paper[J]. China Pulp & Paper (中国造纸), 2019, 38(10): 13-19.

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