Research Progress on Establishment of Meso-scale Geometrical Model andDynamic Mechanical Properties of 3D Braided Composite
摘 要
三维编织复合材料因内部存在由连续纤维束形成的空间网状结构,相比于传统层合复合材料具有更高的层间强度,相比于金属材料具有更高的抗冲击损伤和抗裂纹扩展能力。详细介绍了三维编织复合材料的细观几何建模方法,综述了三维编织复合材料动态拉伸、压缩性能,动态失效准则以及高速冲击性能等方面的研究进展,指出三维编织复合材料在细观几何建模和动态拉伸试验方面的未来研究方向。
Abstract
3D braided composites have a spatial network structure formed by continuous fiber bundles inside; therefore 3D braided composites have higher interlayer strength than traditional laminated composites, and have higher impact resistance and crack propagation resistance than metal materials. The meso-scale geometrical modeling methods of 3D braided composites are described in detail. The research progress on dynamic tensile and compression properties, dynamic failure criteria and high-speed impact properties of 3D braided composites is reviewed. The future research direction in meso-scale geometrical modeling and dynamic tensile testing of 3D braided composites is pointed out.
中图分类号 V232.4 DOI 10.11973/jxgccl202108001
所属栏目 综述
基金项目 国家科技重大专项项目(2017-VII-0011-0106)
收稿日期 2020/7/8
修改稿日期 2021/4/21
网络出版日期
作者单位点击查看
备注谭焕成(1985-),男,山东临沂人,工程师,博士
引用该论文: TAN Huancheng,QIN Wenyuan,LIU Shengwang,LIU Wen,CHEN Lulu,WANG Zhenxin. Research Progress on Establishment of Meso-scale Geometrical Model andDynamic Mechanical Properties of 3D Braided Composite[J]. Materials for mechancial engineering, 2021, 45(8): 1~7
谭焕成,覃文源,刘升旺,刘文,陈璐璐,王祯鑫. 三维编织复合材料细观几何建模及动态力学性能的研究进展[J]. 机械工程材料, 2021, 45(8): 1~7
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参考文献
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【5】SIMITSES G J, SALLAM S, YIN W L. Effect of delamination of axially loaded homogeneous laminated plates[J]. AIAA Journal, 1985,23(9):1437-1444.
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【7】CHAI Y,WANG Y,YOUSAF Z,et al.Following the effect of braid architecture on performance and damage of carbon fibre/epoxy composite tubes during torsional straining[J].Composites Science and Technology,2020,200:108451.
【8】ZHAO Z Q,DANG H Y,ZHANG C,et al.A multi-scale modeling framework for impact damage simulation of triaxially braided composites[J].Composites Part A:Applied Science and Manufacturing,2018,110:113-125.
【9】HIGUCHI R,OKABE T,YOSHIMURA A,et al.Progressive failure under high-velocity impact on composite laminates:Experiment and phenomenological mesomodeling[J].Engineering Fracture Mechanics,2017,178:346-361.
【10】WARREN K C,LOPEZ-ANIDO R A,VEL S S,et al.Progressive failure analysis of three-dimensional woven carbon composites in single-bolt,double-shear bearing[J].Composites Part B:Engineering,2016,84:266-276.
【11】HONG Y,YAN Y,TIAN Z Y,et al.Mechanical behavior analysis of 3D braided composite joint via experiment and multiscale finite element method[J].Composite Structures,2019,208:200-212.
【12】沈尔明,王志宏,滕佰秋,等.先进树脂基复合材料在大涵道比发动机上的应用[J].航空制造技术,2011,54(17):56-61. SHEN E M,WANG Z H,TENG B Q,et al.Advanced polymer matrix composites for high bypass ratio engines application[J].Aeronautical Manufacturing Technology,2011,54(17):56-61.
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【14】JACOB A. GE aviation begins testing composite fan blades for GE9X[J]. Air Transport World, 2013, 50(10):12-16.
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【16】GU Q J,QUAN Z Z,YU J Y,et al.Structural modeling and mechanical characterizing of three-dimensional four-step braided composites:A review[J].Composite Structures,2019,207:119-128.
【17】严实.三维四向编织复合材料的力学性能研究[D].哈尔滨:哈尔滨工业大学,2007. YAN S.Investigation on the mechanical behavior of three-dimensional four-directional braided composites[D].Harbin:Harbin Institute of Technology,2007.
【18】TIAN Z Y,YAN Y,LUO H B,et al.Parameterized unit-cell models for stiffness performance analyses of three-dimensional n-directional braided composites[J].Journal of Reinforced Plastics and Composites,2016,35(19):1371-1386.
【19】NAOUAR N,VIDAL-SALLÉ E,SCHNEIDER J,et al.Meso-scale FE analyses of textile composite reinforcement deformation based on X-ray computed tomography[J].Composite Structures,2014,116:165-176.
【20】YANG J M, MA C L, CHOU T W. Fiber inclination model of three-dimensional textile structural composites[J]. Journal of Composite Materials, 1986,20(5):472-484.
【21】KALIDINDI S R,FRANCO E.Numerical evaluation of isostrain and weighted-average models for elastic moduli of three-dimensional composites[J].Composites Science and Technology,1997,57(3):293-305.
【22】WANG Y B,LIU Z G,LIU N,et al.A new geometric modelling approach for 3D braided tubular composites base on free form deformation[J].Composite Structures,2016,136:75-85.
【23】WINTIBA B,SONON B,EHAB MOUSTAFA KAMEL K,et al.An automated procedure for the generation and conformal discretization of 3D woven composites RVEs[J].Composite Structures,2017,180:955-971.
【24】ALI M A,UMER R,KHAN K A,et al.XCT-scan assisted flow path analysis and permeability prediction of a 3D woven fabric[J].Composites Part B:Engineering,2019,176:107320.
【25】MEI H Y,JIN H Y,HAN Z Y,et al.Effect of carrier configuration on the 3D four-directional and full five-directional rotary braided fabric structures[J].Composite Structures,2019,219:179-184.
【26】BLAZYNSKI T Z. Materials at high strain rates[M]. London:Elsevier Applied Science, 1987.
【27】SUN B Z,YANG L,GU B H.Strain rate effect on four-step three-dimensional braided composite compressive behavior[J].AIAA Journal,2005,43(5):994-999.
【28】GU B H,CHANG F K.Energy absorption features of 3-D braided rectangular composite under different strain rates compressive loading[J].Aerospace Science and Technology,2007,11(7/8):535-545.
【29】LI D S,LU Z X,FANG D N.Longitudinal compressive behavior and failure mechanism of three-dimensional five-directional carbon/phenolic braided composites at high strain rates[J].Materials Science and Engineering:A,2009,526(1/2):134-139.
【30】LI D S,LU Z X,JIANG N,et al.High strain rate behavior and failure mechanism of three-dimensional five-directional carbon/phenolic braided composites under transverse compression[J].Composites Part B:Engineering,2011,42(2):309-317.
【31】WAN Y M,WANG Y J,GU B H.Finite element prediction of the impact compressive properties of three-dimensional braided composites using multi-scale model[J].Composite Structures,2015,128:381-394.
【32】ZHANG F,WAN Y M,GU B H,et al.Impact compressive behavior and failure modes of four-step three-dimensional braided composites-based meso-structure model[J].International Journal of Damage Mechanics,2015,24(6):805-827.
【33】LIU T,SUN B Z,GU B H.Size effects on compressive behaviors of three-dimensional braided composites under high strain rates[J].Journal of Composite Materials,2018,52(28):3895-3908.
【34】TANG G Y,YAN Y J,CHEN X H,et al.Dynamic damage and fracture mechanism of three-dimensional braided carbon fiber/epoxy resin composites[J].Materials & Design,2001,22(1):21-25.
【35】SUN B, GU B. High strain rate behavior of 4-step 3D braided composites under compressive failure[J]. Journal of Materials Science, 2007,42(7):2463-2470.
【36】ZHU L,SUN B Z,HU H,et al.Constitutive equations of basalt filament tows under quasi-static and high strain rate tension[J].Materials Science and Engineering:A,2010,527(13/14):3245-3252.
【37】GAN X H,YAN J H,GU B H,et al.Impact tensile behavior and frequency response of 3D braided composites[J].Textile Research Journal,2012,82(3):280-287.
【38】DANIEL I M,WERNER B T,FENNER J S.Strain-rate-dependent failure criteria for composites[J].Composites Science and Technology,2011,71(3):357-364.
【39】谭柱华,庞宝君,贾斌,等.三维四向编织复合材料动态压缩性能实验研究[J].工程力学,2008,25(9):209-213. TAN Z H,PANG B J,JIA B,et al.Experimental study on dynamic compressive properties of 3D four directional braided composites[J].Engineering Mechanics,2008,25(9):209-213.
【40】李冰珂,王磊,刘涛,等.三维编织复合材料横向冲击变形与细观结构关系[J].东华大学学报(自然科学版),2018,44(6):868-875. LI B K,WANG L,LIU T,et al.Relationships between transverse impact deformation and microstructure of 3D braided composites[J].Journal of Donghua University (Natural Science),2018,44(6):868-875.
【41】黄雄,谭焕成,刘璐璐,等.编织角和承载方向对三维四向编织复合材料动态压缩性能的影响[J].复合材料学报,2018,35(4):823-833. HUANG X,TAN H C,LIU L L,et al.Influence of braid angle and bearing direction on dynamic compressive properties of 3D four directional braided composites[J].Acta Materiae Compositae Sinica,2018,35(4):823-833.
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