高性能连续纤维增强热塑性预浸料及复合材料制备工艺研究进展

霍红宇, 姚鑫, 高亮, 周典瑞, 吴天宇, 张宝艳

PDF(852 KB)
中国高校科技期刊信息汇聚平台
PDF(852 KB)
材料工程 ›› 2025, Vol. 53 ›› Issue (3) : 44-53. DOI: 10.11868/j.issn.1001-4381.2023.000874
综述

高性能连续纤维增强热塑性预浸料及复合材料制备工艺研究进展

作者信息 +

Research progress in preparation technology of high performance continuous fiber reinforced thermoplastic prepreg and its composites

Author information +
History +

摘要

热塑性复合材料具备耐疲劳性能优异、成型周期短、可二次加工、可焊接、无储存条件限制等优势,为更好地实现热塑性复合材料的工程化制备,满足航空航天、轨道交通等领域的应用需求,研究热塑性预浸料的制备以及成型方式具有重要意义。本文对连续纤维增强热塑性预浸料的制备工艺方法进行了详细介绍,包括溶液浸渍法、熔融浸渍法、薄膜层叠法、粉末浸渍法、悬浮热熔法和纤维混编法等工艺,同时对热塑性复合材料成型工艺方法进行了重点论述,包括模压成型、缠绕成型、自动铺放成型、原位固结成型、3D打印成型等方法,针对每种预浸料制备与成型工艺特点梳理了工程化应用的可行性,最后对热塑性复合材料的未来趋势进行了展望,并给出了发展建议。

Abstract

The thermoplastic composites have advantages in excellent fatigue resistance, short forming cycle, secondary processing, weldable and no storage condition restrictions, it is significant to study the preparation and forming method of thermoplastic prepreg to realize the engineering preparation of thermoplastic composites and meet the application requirements of aerospace, rail transit, and other fields. In this paper, the preparation process of continuous fiber reinforced thermoplastic prepreg is introduced in detail, including solution impregnation, melt impregnation, film lamination, powder impregnation, suspension hot melt, and fiber mixing. At the same time, the thermoplastic composite molding process is emphatically discussed, including hot pressing molding, winding molding, automatic laying molding, in-situ consolidation molding and 3D printing molding. Meanwhile, the feasibility of the engineering application is sorted out according to the characteristics of each prepreg preparation and molding process. Finally, the future trends of thermoplastic composite are prospected, and development suggestions are given.

关键词

热塑性预浸料 / 制备工艺 / 悬浮热熔法 / 成型工艺 / 自动铺放

Key words

thermoplastic prepreg / preparation process / suspension hot melt method / molding process / automatic placement

中图分类号

TB332

引用本文

EndNote

Ris (Procite)

Bibtex

导出引用
霍红宇 , 姚鑫 , 高亮 , . 高性能连续纤维增强热塑性预浸料及复合材料制备工艺研究进展. 材料工程. 2025, 53(3): 44-53 https://doi.org/10.11868/j.issn.1001-4381.2023.000874
Hongyu HUO, Xin YAO, Liang GAO, et al. Research progress in preparation technology of high performance continuous fiber reinforced thermoplastic prepreg and its composites[J]. Journal of Materials Engineering. 2025, 53(3): 44-53 https://doi.org/10.11868/j.issn.1001-4381.2023.000874

参考文献

列表( 原文顺序 | 文献年度倒序 | 文中引用次数倒序 ) 可视化分析
[1]
李军, 刘燕峰, 倪洪江, 等. 航空发动机用树脂基复合材料应用进展与发展趋势[J]. 材料工程202250(6): 49-60.
LI J LIU Y F NI H J, et al. Application progress and development trend of resin matrix composites for aero engine[J]. Journal of Materials Engineering202250(6): 49-60.
本文引用 [1]
[2]
罗楚养,尚梦菡,朱龙宇,等.先进复合材料研究现状及其在机载武器上的应用展望[J].航空兵器202330(2):1-20.
LUO C Y SHANG M H ZHU L Y,et al.Research status of advanced composites and its application prospect in airborne weapons[J].Aero Weaponry202330(2):1-20.
本文引用 [1]
[3]
任荣, 李文强, 陈浩, 等. 热塑性复合材料感应植入焊技术研究进展[J]. 材料工程202351(7): 22-32.
REN R LI W Q CHEN H, et al. Research progress in induction implant welding of thermoplastic composites[J]. Journal of Materials Engineering202351(7): 22-32.
[4]
周典瑞,高亮,霍红宇,等.热塑性树脂基复合材料用碳纤维上浆剂研究进展[J].复合材料学报202037(8):1785-1795.
ZHOU D R GAO L HUO H Y,et al.Research progress of carbon fiber sizing agents for thermoplastic composites[J].Acta Materiae Composites Sinica202037(8):1785-1795.
本文引用 [1]
[5]
罗云烽,姚佳楠.高性能热塑性复合材料在民用航空领域中的应用[J].航空制造技术202164(16):93-102.
LUO Y F YAO J N.Applications of high performance thermoplastic composites in civil aviation[J].Aeronautical Manufacturing Technology202164(16):93-102.
本文引用 [1]
[6]
谢为. 热塑性复合材料增材制造工艺与装备研究进展[J]. 航空材料学报202343(3): 1-11.
XIE W. Research progress of additive manufacturing process and equipment for thermoplastic composites[J]. Journal of Aeronautical Materials202343(3): 1-11.
本文引用 [1]
[7]
屈李端,陈书华,沈镇,等.连续CF/PEEK预浸料制造技术研究进展[J].航空制造技术202063(5):87-92.
QU L D CHEN S H SHEN Z,et al.Research progress on continuous CF/PEEK prepreg manufacturing technology[J].Aeronautical Manufacturing Technology202063(5):87-92.
本文引用 [1]
[8]
许云鹏,颜春,刘东,等.连续纤维增强热塑性预浸料制备工艺的研究进展[J].复合材料科学与工程2020(8):123-128.
XU Y P YAN C LIU D,et al.Progress in preparation technology of continuous fiber reinforced thermoplastic prepregs[J].Composites Science and Engineering2020(8):123-128.
[9]
滕凌虹,曹伟伟,朱波,等.纤维增强热塑性树脂预浸料的制备工艺及研究进展[J].材料工程202149(2):42-53.
TENG L H CAO W W ZHU B,et al.Research progress in the preparation of fiber reinforced thermoplastic resin prepreg[J].Journal of Materials Engineering202149(2):42-53.
[10]
滕凌虹, 曹伟伟, 朱波, 等. 纤维增强热塑性树脂预浸料的制备工艺及研究进展[J]. 材料工程202149(2): 42-53.
TENG L H CAO W W ZU B, et al. Research progress in the preparation of fiber reinforced thermoplastic resin prepreg[J]. Journal of Materials Engineering202149(2): 42-53.
本文引用 [1]
[11]
张淦,刘建超,张承双.纤维增强树脂基预浸料的制备技术及应用进展[J].炭素2022(1):27-32.
ZHANG G LIU J C ZHANG C S.Preparation technology and application progress of fiber reinforced resin based prepreg[J].Carbon2022(1):27-32.
本文引用 [1]
[12]
石业琦,崔永辉,薛平,等.连续碳纤维增强热塑性树脂预浸片材制备技术的研究进展[J].塑料工业2019(11):1-4.
SHI Y Q CUI Y H XUE P,et al.Research progress on the preparation of continuous carbon fiber reinforced thermoplastic resin prepreg sheet[J].China Plastic Industry2019(11):1-4.
[13]
华泽天,薛平,贾明印,等.粉末浸渍法制备连续纤维增强热塑性复合材料研究进展[J].塑料科技202250(10):118-122.
HUA Z T XUE P JIA M Y,et al.Research progress of continuous fiber reinforced thermoplastic composites prepared by powder impregnation[J].Plastics Science and Technology202250(10):118-122.
[14]
肇研, 刘寒松. 连续纤维增强高性能热塑性树脂基复合材料的制备与应用[J]. 材料工程202048(8): 49-61.
ZHAO Y LIU H S. Preparation and application of continuous fiber reinforced high-performance thermoplastic composites[J]. Journal of Materials Engineering202048(8): 49-61.
本文引用 [1]
[15]
李源,张琦,夏礼栋,等.碳纤维增强热塑性复合材料成型工艺研究进展[J].现代塑料加工应用202234(5):52-55.
LI Y ZHANG Q XIA L D,et al.Research progress on forming process of carbon fiber reinforced thermoplastic composites[J].Modern Plastics Processing and Applications202234(5):52-55.
本文引用 [1]
[16]
宋晨曦,林海涛,赖恩平,等.碳纤维增强热塑性复合材料成型工艺的研究进展[J].纺织科学与工程学报202340(4):86-93.
SONG C X LIN H T LAI E P,et al.Research progress of the forming process of carbon fiber reinforced thermoplastic composites[J].Journal of Textile Science and Engineering202340(4):86-93.
本文引用 [1]
[17]
马全胜,李俊含,田思戗.热塑性复合材料的成型工艺及其在航空器中的应用[J].化工新型材料202250(6):263-266,271.
MA Q S LI J H TIAN S Q.Forming technology of thermoplastic composite and its application in aircraft[J].New Chemical Materials202250(6):263-266,271.
本文引用 [1]
[18]
申维新,姜云龙,朱爱萍.聚醚砜对连续碳纤维/聚醚醚酮复合材料性能的影响[J].复合材料学报202138(6):1809-1816.
SHEN W X JIANG Y L ZHU A P.Effect of polyethersulfone on the properties of continuous carbon fiber/polyetheretherketone composites[J].Acta Materiae Compositae Sinica202138(6):1809-1816.
本文引用 [1]
[19]
焦梦晓.聚醚酮酮结晶形态及热力学性能的调控研究[D].上海:东华大学,2021.
JIAO M X.Study on the crystal morphology and thermodynamic property regulation of polyetherketonetone[D].Shanghai:Donghua University,2021.
本文引用 [1]
[20]
SHI J MIZUNO M BAO L,et al.A facile molding method of continuous fiber-reinforced thermoplastic composites and its mechanical property[J].Polymers202214(5):947.
本文引用 [1]
[21]
李兴乐.PEEK基碳纤维预浸丝束成型工艺研究[D].郑州:河南工业大学,2023.
LI X L.Research on PEEK-based carbon fiber prepreg tow forming process[D].Zhengzhou:Henan University of Technology,2023.
本文引用 [1]
[22]
白艳博.连续纤维增强PA6预浸带制备及其耐久性能研究[D].哈尔滨:哈尔滨工业大学,2022.
BAI Y B.Study on the preparation and durability of continuous fiber reinforced PA6 prepreg tapes[D].Harbin:Harbin Institute of Technology,2022.
本文引用 [1]
[23]
张帆,陈港,贵树峰,等.PC/CCF制备工艺对浸渍程度的影响及3D打印性能分析[J].工程塑料应用202351(3):69-75.
ZHANG F CHEN G GUI S F,et al.Influence of PC/CCF preparation process on impregnation degree and 3D printing performance analysis[J].Engineering Plastics Application202351(3):69-75.
本文引用 [1]
[24]
刘延宽,顾子琛,王志平.连续纤维增强热塑性预浸料制备工艺与发展趋势[J].中国塑料202236(2):172-181.
LIU Y K GU Z C WANG Z P.Preparation technology and development trend of continuous-fiber-reinforced thermoplastic prepregs[J].China Plastics202236(2):172-181.
本文引用 [1]
[25]
NUNEZ-CARRERO K C HERRERO M ASENSIO M,et al.Star-branched polyamides as the matrix in thermoplastic composites[J].Polymers202214(5):942.
本文引用 [1]
[26]
QMAR H C ISIDRO D C PHILIP L J,et al.Film-stacking method as an alternative agave tequilana fibre/PLA composite fabrication [J].Materials Today Communications202231:103853.
本文引用 [1]
[27]
王志平,顾子琛.静电粉末流化法碳纤维/聚苯硫醚预浸料的制备及性能表征[J].塑料工业201947(10):22-26.
WANG Z P GU Z C.Preparation characterization of carbon fiber/polyphenylene sulfide prepreg by powder fluidized impregnation[J].China Plastic Industry201947(10):22-26.
本文引用 [1]
[28]
郭焕祥,李海帆,王国淑,等.聚丙烯玻纤板的轻量化进展[J].汽车工程师2020(2):14-15.
GUO H X LI H F WANG G S,et al.Lightweight development of polypropylene glass fiber board[J].Auto Engineer2020(2):14-15.
本文引用 [1]
[29]
赵鹏艳.编织碳纤维增强聚醚醚酮复合材料界面调控及性能研究[D].太原:中北大学,2023.
ZHAO P Y.Interfacial modulation and properties study of carbon fiber fabric reinforced poly(ether ether ketone) composites [D].Taiyuan:North University of China,2023.
本文引用 [1]
[30]
王志远.疏水功能化热塑性预浸纱制备及固结工艺研究[D].南京:南京航空航天大学,2023.
WANG Z Y.Study on fabrication and consolidation process of hydrophobic functionalized thermoplastic prepreg [D].Nanjing:Nanjing University of Aeronautics and Astronautics,2023.
本文引用 [1]
[31]
SONG J P ZHAO Y XIONG S,et al.The synergistic steric hindrance effect in the preparation of polyether ether ketone composites by powder slurry method[J].Polymer Composites202243(4):2384-2395.
本文引用 [1]
[32]
GROUP M M F I.CF/AR/thermoplastic hybrid yarns for requirement-based thermoplastic composites[J].Man-Made Fibers International202373(2):26-30.
本文引用 [1]
[33]
HASAN M M B BACHOR S ABDKADER A,et al.Low twist hybrid yarns from long recycled carbon fibers for high performance thermoplastic composites[J].Materials Science Forum20221063:147-153.
本文引用 [1]
[34]
张雷,李静,庄毅,等.连续碳纤维/聚酰胺6混编织物复合材料的成型及性能研究[J].材料导报202337():566-571.
摘要
增刊1
ZHANG L LI J ZHUANG Y,et al.Preparation and properties of continuous carbon fiber/nylon 6 mixed braid fabric composites [J].Materials Reports202337():566-571.
本文引用 [1] 摘要
Suppl 1
[35]
徐鹏,侯进森,岳广全,等.连续碳纤维增强聚苯硫醚复合材料模压成型的表面质量研究[J].航空制造技术202366(17):72-78.
XU P HOU J S YUE G Q,et al.Research on surface quality of continuous carbon fiber reinforced polyphenylene sulfide composites molding[J].Aeronautical Manufacturing Technology202366(17):72-78.
本文引用 [1]
[36]
王晓雨.碳纤维增强尼龙6自阻加热模压成型工艺及性能研究[D].长沙:中南大学,2022.
WANG X Y.Research on the process and properties of carbon fiber reinforced nylon 6 composites formed by compression molding process with self-resistance electric heating technology[D].Changsha:Central South University,2022.
本文引用 [1]
[37]
DOMINIK D NAVRAJ S H RYAN C R,et al.Rheological characterization and macroscopic modeling and simulation of the molding process of a PA6 glass mat thermoplastic(GMT)[J].Composites Part A2024176:107780.
本文引用 [1]
[38]
袁松,翟建广,张斌,等.纤维增强热塑复合材料高压容器制备工艺[J].上海工程技术大学学报201933(2):102-105.
YUAN S ZHAI J G ZHANG B,et al.Preparation technology of high-pressure vessel of FRTC[J].Journal of Shanghai University of Engineering Science201933(2):102-105.
本文引用 [1]
[39]
ZHANG H J TANG H SHI Y Y.Precision tension control technology of composite fiber tape winding molding[J].Journal of Thermoplastic Composite Materials201831(7):925-945.
本文引用 [1]
[40]
王承刚,佘进娟,高信康,等.热塑性复合材料缠绕技术现状及应用趋势分析[J].工程塑料应用202351(8):184-188.
WANG C G SHE J J GAO X K,et al.Analysis of current situation and application filament winding technology of thermoplastic composites[J].Engineering Plastics Application202351(8):184-188.
本文引用 [1]
[41]
DHINAKARAN V SURENDAR K V HASUNFUR R M S,et al.Review on study of thermosetting and thermoplastic materials in the automated fiber placement process[J].Materials Today202027(2):812-815.
本文引用 [1]
[42]
SHADMEHRI F HOA S V FORTIN-SIMPSON J,et al.Effect of in situ treatment on the quality of flat thermoplastic composite plates made by automated fiber placement (AFP)[J].Advanced Manufacturing: Polymer & Composites Science20184(2):41-47.
本文引用 [1]
[43]
刘鑫.热塑性预浸带自动铺放制品缺陷探究及等温结晶工艺优化研究[D].北京:北京化工大学,2022.
LIU X.Research on product defects and isothermal crystallization optimization of ATP process with thermoplastic prepreg[D].Beijing:Beijing University of Chemical Technology,2022.
本文引用 [1]
[44]
梁宜楠,杨睿,王俊龙,等.热塑性复合材料点阵铺放工艺对层间剪切强度的影响研究[J].复合材料科学与工程2021(10):61-66.
LIANG Y N YANG R WANG J L,et al.Effects of automated placement process of lattice structure with thermoplastic composites on the inter-laminar shear strength[J].Science and Engineering of Composite Materials2021(10):61-66.
本文引用 [1]
[45]
赵大成.CF/PPS热塑性复合材料自动铺放原位固结成型机理研究[D].上海:东华大学,2022.
ZHAO D C.Study on mechanisms during automated fiber placement in situ consolidation process of CF/PPS thermoplastic composites[D].Shanghai:Donghua University,2022.
本文引用 [1]
[46]
宋清华,刘卫平,刘小林,等.热塑性复合材料原位成型过程铺层间结合强度[J].航空学报201940(4):422543.
SONG Q H LIU W P LIU X L,et al.Interlaminar bonding strength for thermoplastic composite in an in-situ consolidation process[J].Acta Aeronautica et Astronautica Sinica201940(4):422543.
本文引用 [1]
[47]
曹丰,曾志勇,黄建,等.连续纤维增强复合材料的3D打印工艺及应用进展[J].中国科学:技术科学202353(11):1815-1833.
CAO F ZENG Z Y HUANG J,et al.Printing process and application progress of 3D printing continuous fiber reinforced composites[J].Scientia Sinica Technology202353(11):1815-1833.
本文引用 [1]
[48]
杨洋.3D打印用碳纤维/聚醚醚酮复合材料的制备及性能研究[D].长春:吉林大学,2023.
YANG Y.Preparation and properties of carbon fiber/poly(ether ether ketone) composites private for 3D printing[D].Changchun:Jilin University,2023.
本文引用 [1]
[49]
GHOSH A ORASUGH J T RAY S S,et al.Integration of 3D printing-coelectrospinning:concept shifting in biomedical applications[J].ACS Omega20238 (31) :28002-28025.
本文引用 [1]
[50]
苏文璐,卢立成,钱波,等.连续与短切CF增强PA6复合材料双喷头3D打印工艺参数优化[J].工程塑料应用202351(11):71-77.
SU W L LU L C QIAN B,et al.Process parameters for dual-nozzle 3D printing of continuous and chopped CF composite materials[J].Engineering Plastics Application202351(11):71-77.
本文引用 [1]
[51]
于颖,徐惠良,王玉.基于熔融浸渍的3D打印用连续碳纤维预浸渍设备开发[J].机电工程技术202352(4):37-40,167.
YU Y XU H L WANG Y.Development of continuous carbon fiber preimpregnation equipment for 3D printing based on melt impregnation[J].Mechanical & Electrical Engineering Technology202353(4):37-40,167.
本文引用 [1]

评论

PDF(852 KB)

Accesses

Citation

Detail
段落导航
相关文章
Copyright 中国高校科技期刊信息汇聚平台 2024-2025
技术支持:北京玛格泰克科技发展有限公司
京ICP备05021913号-19

/