| 2,344 | 11 | 12 |
| 下载次数 | 被引频次 | 阅读次数 |
从界面调控和制备方法两方面综述了碳纤维增强金属基复合材料的研究进展,前者包括碳纤维表面改性和金属基体合金化,后者除了粉末冶金、扩散粘结、搅拌铸造、挤压铸造、真空压力浸渗等传统方法外,还涉及增材制造技术在此领域的应用。基于平面流动铸造法,笔者提出了采用流铸印刷法制备金属基复合材料的新技术,并介绍了一些试验结果。此外,还对碳纤维增强金属基复合材料的发展提出了建议。
Abstract:The progress of carbon fiber reinforced metal matrix composites(MMCs) was summarized from two aspects such as interfacial modulation and fabrication methods, with the former involving the surface modification of carbon fibers and the alloying of metal matrix, and with the latter dealing with the application of additive manufacturing in this field besides conventional processes such as powder metallurgy, diffusion bonding, stir casting, squeeze casting and vacuum pressure infiltration. A novel flow casting and printing method for fabrication of MMCs was proposed by the authors based on planar flow casting, and a few experimental results were introduced. Moreover, some suggestions on development of carbon fiber reinforced MMCs were made.
[1] RAMESH C S,ADARSHA H,PRAMOD S,et al.Tribological characteristics of innovative Al6061- carbon fiber rod metal matrix composites[J].Materials & Design,2013,50:597- 605.
[2] 王秀丽,魏永辉.浅谈金属基复合材料在航空航天领域的应用与发展[J].科技创新导报,2016,13(6):16- 17,90.
[3] 尹庆方.金属基复合材料及其在发动机制造中的应用[J].中国金属通报,2017(5):41- 42.
[4] CHAND S.Review carbon fibers for composites[J].Journal of Materials Science,2000,35(6):1303- 1313.
[5] EDIE D.The effect of processing on the structure and properties of carbon fibers[J].Carbon,1998,36(4):345- 362.
[6] MINUS M,KUMAR S.The processing,properties,and structure of carbon fibers[J].JOM,2005,57(2):52- 58.
[7] 张新元,何碧霞,李建利,等.高性能碳纤维的性能及其应用[J].棉纺织技术,2011,39(4):65- 68.
[8] 樊星.碳纤维复合材料的应用现状与发展趋势[J].化学工业,2019,37(4):12- 16,25.
[9] BAHL S.Fiber reinforced metal matrix composites:a review[J].Materials Today:Proceedings,2021,39:317- 323.
[10] 张波,陈伟,吴广新.SiC含量对铝基复合材料组织与力学性能的影响[J].上海金属,2020,42(4):44- 49.
[11] 王中平,钟立才.金属基复合材料性能及其在耐压壳体设计中的应用[J].信息记录材料,2021,22(6):9- 11.
[12] LIU J,XIONG D B,SU Y,et al.Effect of thermal cycling on the mechanical properties of carbon nanotubes reinforced copper matrix nanolaminated composites[J].Materials Science and Engineering A,2019,739:132- 139.
[13] 吴复涛,于延龙,李春海,等.纤维增强金属基复合材料研究进展[J].铸造设备与工艺,2022(1):52- 56.
[14] MU W P,LIN J B,LIU E Q,et al.Fabrication of continuous carbon-fibers reinforced aluminum matrix composites and coating evolution during heat treatment[J].Journal of Materials Research and Technology,2022,17:1852- 1867.
[15] MAHAVIRADHAN N,SIVAGANESAN S,SRAVYA N P,et al.Experimental investigation on mechanical properties of carbon fiber reinforced aluminum metal matrix composite[J].Materials Today:Proceedings,2021,39:743- 747.
[16] 杨程,齐乐华,周计明,等.碳纤维增强镁基复合材料制备技术与新进展[J].复合材料学报,2021,38(7):1985- 2000.
[17] 田书荣,钱王欢.柔性受压电铸制备连续碳纤维增强镍基复合材料[J].电镀与涂饰,2019,38(9):411- 416.
[18] ALI S,AHMAD F,SHIRAZI M I,et al.Flow induced fiber orientation in short carbon fiber reinforced copper matrix composites[J].Materials Today Communications,2022,33:104855.
[19] LYU S,LI J S,LI S F,et al.Effects of heat treatment on interfacial characteristics and mechanical properties of titanium matrix composites reinforced with discontinuous carbon fibers[J].Journal of Alloys and Compounds,2021,877:160313.
[20] DHAS J E R,ARUN M.A review on development of hybrid composites for aerospace applications[J].Materials Today:Proceedings,2022,64:267- 273.
[21] 焦宇鸿,朱建锋,王芬.SiC/Al基复合材料界面调控[J].材料导报,2022,36(9):147- 159.
[22] 黄春旭,陈刚,王启芬,等.碳纤维表面改性技术研究进展[J].工程塑料应用,2022,50(1):170- 174.
[23] UREA A,RAMS J,ESCALERA M D,et al.Effect of copper electroless coatings on the interaction between a molten Al- Si- Mg alloy and coated short carbon fibres[J].Composites Part A,2007,38(8):1947- 1956.
[24] 张昊明,赵永涛,张红松,等.热压烧结镀Cr碳纤维/Cu复合材料的制备及热性能[J].复合材料学报,2018,35(9):2481- 2488.
[25] ZHONG K D,ZHOU J M,ZHAO C T,et al.The effect of nickel coating on the mechanical properties and failure modes of continuous carbon fiber reinforced aluminum matrix composites[J].Journal of Alloys and Compounds,2022,904:164134.
[26] ZHANG S F,CHEN G Q,PEI R S,et al.Effect of Y content on interfacial microstructures and mechanical properties of Cf/Mg composite[J].Materials Science and Engineering A,2015,647:105- 112.
[27] ZHANG S F,CHEN G Q,PEI R S,et al.Effect of Gd content on interfacial microstructures and mechanical properties of Cf/Mg composite[J].Materials & Design,2015,65:567- 574.
[28] LI D G,CHEN G Q,JIANG L T,et al.Effect of thermal cycling on the mechanical properties of Cf/Al composites[J].Materials Science and Engineering A,2013,586:330- 337.
[29] 祝志祥,丁一,徐若愚,等.碳纤维增强铜基复合材料制备方法研究进展[J].功能材料,2021,52(3):3060- 3066.
[30] EVEN C,ARVIEU C,QUENISSET J M.Powder route processing of carbon fibres reinforced titanium matrix composites[J].Composites Science and Technology,2008,68(6):1273- 1281.
[31] MUNIR K S,KINGSHOTT P,WEN C.Carbon nanotube reinforced titanium metal matrix composites prepared by powder metallurgy:a review[J].Critical Reviews in Solid State and Materials Sciences,2014,40(1):38- 55.
[32] GAISIN R,KUKSENKO V,DUERRSCHNABEL M,et al.Effect of HIP at 1 000-1 200 ℃ on microstructure and properties of extruded Be- Ti composites[J].Nuclear Materials and Energy,2022,30:101128.
[33] SILVAIN J F,VEILLèRE A,LU Y F.Copper- carbon and aluminum- carbon composites fabricated by powder metallurgy processes[J].Journal of Physics:Conference Series,2014,525:012015.
[34] 任澍忻,陈文革,冯涛,等.粉末冶金制备碳纤维增强铁- 铜基摩擦材料的组织与性能[J].粉末冶金技术,2020,38(2):104- 112.
[35] CHOU T W,KELLY A,OKURA A.Fibre- reinforced metal- matrix composites[J].Composites,1985,16(3):187- 206.
[36] MONTEALEGRE MELéNDEZ I,NEUBAUER E,DANNINGER H.Consolidation of titanium matrix composites to maximum density by different hot pressing techniques[J].Materials Science and Engineering A,2010,527(16/17):4466- 4473.
[37] LEE M,CHOI Y,SUGIO K,et al.Effect of aluminum carbide on thermal conductivity of the unidirectional Cf/Al composites fabricated by low pressure infiltration process[J].Composites Science and Technology,2014,97:1- 5.
[38] 帅甜田,卢百平,余欢,等.热压扩散法制备层压编织Cf/Al复合材料工艺研究[J].特种铸造及有色合金,2015,35(1):84- 87.
[39] 李小红,黎业生,钟涛生.冷压烧结法制备碳纤维增强铜基复合材料的研究[J].粉末冶金工业,2014,24(4):40- 44.
[40] CHANDRA KANDPAL B,JOHRI N,KUMAR L,et al.Stir casting technology for magnesium- based metal matrix composites for bio- implants:a review[J].Materials Today:Proceedings,2022,62:4519- 4525.
[41] 赵玉玺,郭瑞臻,乐启炽,等.搅拌铸造法制备TiC增强纯镁复合材料的组织与性能[J].铸造,2022,71(9):1144- 1149.
[42] 常海,黄勇,胡小石.搅拌铸造法制备短碳纤维/AZ91复合材料的组织与性能[J].复合材料学报,2019,36(1):159- 166.
[43] RAJESH M,MAHESHA C R.The Mechanical properties and tribological behavior of Ni coated carbon fibers reinforced with Al 7075 metal matrix composites[J].Materials Today:Proceedings,2022,52:741- 745.
[44] NAJI H,ZEBARJAD S M,SAJJADI S A.The effects of volume percent and aspect ratio of carbon fiber on fracture toughness of reinforced aluminum matrix composites[J].Materials Science and Engineering A,2008,486(1/2):413- 420.
[45] ALHASHMY H A,NGANBE M.Laminate squeeze casting of carbon fiber reinforced aluminum matrix composites[J].Materials & Design,2015,67:154- 158.
[46] HAJJARI E,DIVANDARI M,ARABI H.Effect of applied pressure and nickel coating on microstructural development in continuous carbon fiber- reinforced aluminum composites fabricated by squeeze casting[J].Materials and Manufacturing Processes,2011,26(4):599- 603.
[47] ALTEN A,ERZI E,GüRSOY ?,et al.Production and mechanical characterization of Ni- coated carbon fibers reinforced Al- 6063 alloy matrix composites[J].Journal of Alloys and Compounds,2019,787:543- 550.
[48] YANG J,CHUNG D.Casting particulate and fibrous metal- matrix composites by vacuum infiltration of a liquid metal under an inert gas pressure[J].Journal of Materials Science,1989,24(10):3605- 3612.
[49] KAPTAY G,BáRCZY T.On the asymmetrical dependence of the threshold pressure of infiltration on the wettability of the porous solid by the infiltrating liquid[J].Journal of Materials Science,2005,40(9):2531- 2535.
[50] QI L H,LI S L,ZHANG T,et al.An analysis of the factors affecting strengthening in carbon fiber reinforced magnesium composites[J].Composite Structures,2019,209:328- 336.
[51] 杨程,卢竹青,陈宝林,等.真空压力浸渗短切碳纤维增强镁基复合材料工艺参数研究[J].特种铸造及有色合金,2021,41(4):508- 512.
[52] WANG W G,XIAO B L,MA Z Y.Evolution of interfacial nanostructures and stress states in Mg matrix composites reinforced with coated continuous carbon fibers[J].Composites Science and Technology,2012,72(2):152- 158.
[53] 蔡冯杰,祝成炎,田伟,等.3D打印成型的玻璃纤维增强聚乳酸基复合材料[J].纺织学报,2017,38(10):13- 18.
[54] KUMAR S,KRUTH J P.Composites by rapid prototyping technology[J].Materials & Design,2010,31(2):850- 856.
[55] 陈向明,姚辽军,果立成,等.3D打印连续纤维增强复合材料研究现状综述[J].航空学报,2021,42(10):174- 198.
[56] 单忠德,范聪泽,孙启利,等.纤维增强树脂基复合材料增材制造技术与装备研究[J].中国机械工程,2020,31(2):221- 226.
[57] 黄基,刘家豪,张凌鹤,等.连续丝材增强复合材料增材制造研究进展[J].机械设计与制造工程,2022,51(4):7- 20.
[58] PARANDOUSH P,LIN D.A review on additive manufacturing of polymer- fiber composites[J].Composite Structures,2017,182:36- 53.
[59] TIAN X Y,LIU T F,YANG C C,et al.Interface and performance of 3D printed continuous carbon fiber reinforced PLA composites[J].Composites Part A,2016,88:198- 205.
[60] WANG X,TIAN X Y,LIAN Q,et al.Fiber traction printing:a 3D printing method of continuous fiber reinforced metal matrix composite[J].Chinese Mechanical Engineering Society,2020,33(2):69- 79.
[61] WANG X,TIAN X Y,YIN L X,et al.3D printing of continuous fiber reinforced low melting point alloy matrix composites:mechanical properties and microstructures[J].Materials,2020,13(16):13163463.
[62] HO C T.Nickel and copper- coated carbon fibre reinforced tin- lead alloy composites[J].Journal of Materials Science,1996,31(21):5781- 5786.
[63] 杨立宁,王金业,张永弟,等.增材制造连续碳纤维增强金属基复合材料性能[J].化工进展,2021,40(12):6777- 6784.
[64] 张云虎,郑红星,叶春洋,等.一种采用熔体层铺制备金属基材料的装置及方法:109482883A[P].2021- 07- 06.
基本信息:
DOI:10.19947/j.issn.1001-7208.2023.04.001
中图分类号:TB333
引用信息:
[1]征立志,周玉兰,张云虎等.碳纤维增强金属基复合材料的研究进展[J].上海金属,2023,45(04):1-9.DOI:10.19947/j.issn.1001-7208.2023.04.001.
基金信息:
国家自然科学基金(52074180); 省部共建高品质特殊钢冶金与制备国家重点实验室、上海市钢铁冶金新技术开发应用重点实验室自主课题(SKLASS 2022-Z09); 上海市科学技术委员会资助项目(19DZ2270200)