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化工新型材料  2018, Vol. 46 Issue (9): 25-29    
  综述与专论 本期目录 | 过刊浏览 | 高级检索 |
微胶囊智能自修复材料研究进展
贺子腾1, 张伟1*, 马万鹏2, 于鹤龙1, 赵阳1
1.装甲兵工程学院再制造技术重点实验室,北京100072;
2.陆军航空兵研究所,北京101121
Research progress of microcapsule intelligent self-healing material
He Ziteng1, Zhang Wei1, Ma Wanpeng2, Yu Helong1, Zhao Yang1
1.Science and Technology on Remanufacturing Laboratory,Academy of Armored Force Engineering,Beijing 100072;
2.Army Aviation Research Institution,Beijing 101121
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摘要 微胶囊自修复材料是由生物体受伤愈合机制启发所构建的智能自修复体系。微胶囊自修复材料可智能地实现自身能量和物质的补充,在一定程度上增强材料的机械性能,延长材料的使用寿命。研究了自修复微胶囊的制备工艺,以及微胶囊自修复材料的自修复机理和自修复体系,简要概述了自复效果的评价方法。展望了微胶囊自修材料的发展前景。
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贺子腾
张伟
马万鹏
于鹤龙
赵阳
关键词:  微胶囊  自修复  裂纹  自修复体系    
Abstract: Microcapsule self-healing material is an intelligent self-healing system inspired by the mechanism of organism wound healing.The microcapsule self-healing material can realize its own energy and material replenish intelligently,to a certain extent,enhance the mechanical properties of material and prolong the service life.The preparation technology of microcapsule,self-healing mechanism of microcapsule and self-healing system were studied,and the evaluation method of self restoring effect was briefly summarized.The development prospect of microcapsule self-healing materials was prospected.
Key words:  microcapsule    self-healing    crack    self-healing system
收稿日期:  2017-04-26                     发布日期:  2018-11-05      期的出版日期:  2018-09-20
通讯作者:  张伟(1971-),男,博士研究生导师,主要从事绿色再制造及智能材料研究。   
作者简介:  贺子腾(1993-),男,硕士研究生,主要从事微胶囊自修复材料研究。
引用本文:    
贺子腾, 张伟, 马万鹏, 于鹤龙, 赵阳. 微胶囊智能自修复材料研究进展[J]. 化工新型材料, 2018, 46(9): 25-29.
He Ziteng, Zhang Wei, Ma Wanpeng, Yu Helong, Zhao Yang. Research progress of microcapsule intelligent self-healing material. New Chemical Materials, 2018, 46(9): 25-29.
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http://www.hgxx.org/CN/  或          http://www.hgxx.org/CN/Y2018/V46/I9/25
[1]Yang Y,Urban M W.Self-healing polymeric materials[J].Chemical Society Reviews,2013,42(17):7446-7467.
[2]Habault D,Zhang H,Zhao Y.Light-triggered self-healing and shape-memory polymers[J].Chemical Society Reviews,2013,42(17):7244-7256.
[3]Herbst F,Döhler D,Michael P,et al.Self-healing polymers via supramolecular forces[J].Macromolecular Rapid Communications,2013,34(3):203-220.
[4]Nguyen L T T,Nguyen H T,Truong T T.Thermally mendable material based on a furyl-telechelic semicrystalline polymer and a maleimide crosslinker[J].Journal of Polymer Research,2015,22(9):1-9.
[5]Burnworth M,Tang L,Kumpfer J R,et al.Optically healable supramolecular polymers[J].Nature,2011,472(7343):334-337.
[6]Dry C.Matrix cracking repair and filling using active and passive modes for smart time release of chemicals from fibers into cement matrices[J].Smart Mater Struct,1994,3:118-223.
[7]Kessler M R,Sottos N R,White S R.Self-healing structural composite materials[J].Composites Part A,2003,34:743-753.
[8]Wu W,Hansen C J,Aragón A M,et al.Direct-write assembly of biomimetic microvascular networks for efficient fluid transport[J].Soft Matter,2010,6(4):739-742.
[9]Youngblood J P,Sottos N R.Bioinspired materials for self-cleaning and self-healing[J].Mrs Bulletin,2008,33(8):732-741.
[10]White S R,Sottos N R,Geubelle P H,et al.Autonomic healing of polymer composites[J].Nature,2001,409(6822):794-797.
[11]Yuan H,Li G,Yang L,et al.Development of melamine-formaldehyde resin microcapsules with low formaldehyde emission suited for seed treatment[J].Colloids and Surfaces B:Biointerfaces,2015,128:149-154.
[12]Rajam R,Anandharamakrishnan C.Microencapsulation of lactobacillus plantarum (MTCC 5422) with fructooligosaccharide as wall material by spray drying[J].LWT-Food Science and Technology,2015,60(2):773-780.
[13]Ullah H,M Azizli K A,Man Z B,et al.The potential of microencapsulated self-healing materials for microcracks recovery in self-healing composite systems:a review[J].Polymer Reviews,2016,56(3):429-485.
[14]Asua J M.Miniemulsion polymerization[J].Progress in Polymer Science,2002,27(7):1283-1346.
[15]Koh E,Kim N K,Shin J,et al.Polyurethane microcapsules for self-healing paint coatings[J].RSC Advances,2014,4(31):16214-16223.
[16]Yang Z,Hollar J,He X,et al.A self-healing cementitious composite using oil core/silica gel shell microcapsules[J].Cement and Concrete Composites,2011,33(4):506-512.
[17]Li Q,Mishra A K,Kim N H,et al.Effects of processing conditions of poly (methylmethacrylate) encapsulated liquid curing agent on the properties of self-healing composites[J].Composites Part B:Engineering,2013,49:6-15.
[18]Zhu D Y,Rong M Z,Zhang M Q.Self-healing polymeric materials based on microencapsulated healing agents:from design to preparation[J].Progress in Polymer Science,2015,49:175-220.
[19]Brown E N,Kessler M R,Sottos N R,et al.In situ poly(urea-formaldehyde) microencapsulation of dicyclopentadiene[J].Journal of Microencapsulation,2003,20(6):719.
[20]Yuan L,Liang G Z,Xie J Q,et al.Preparation and characterization of poly(urea-formaldehyde) microcapsules filled with epoxy resins[J].Polymer,2006,47(15):5338-5349.
[21]Yuan L,Gu A J,Liang G Z.Preparation and properties of poly(urea-formaldehyde) microcapsules filled with epoxy resins[J].Mater Chem Phys,2008,110:417-425.
[22]White S R,Sottos N R,Geubelle P H,et al.Autonomic healing of polymer composites[J].Nature,2001,409:794-797.
[23]Risse W,Grubbs R H.Block and graft copolymers by living ring-opening olefin metathesis polymerization[J].Journal of Molecular Catalysis,2007,32(1):1-29.
[24]Kessler M R,White S R.Cure kinetics of the ring-opening metathesis polymerization of dicyclopentadiene[J].Journal of Polymer Science Part A Polymer Chemistry,2002,40(14):2373-2383.
[25]Rule J,Brown E,Sottos N,et al.Wax-protected catalyst microspheres for efficient self-healing materials[J].Advanced Materials,2005,17(2):205-208.
[26]Lv L,Yang Z,Chen G,et al.Synthesis and characterization of a new polymeric microcapsule and feasibility investigation in self-healing cementitious materials[J].Construction and Building Materials,2016,105:487-495.
[27]Keller M W,White S R,Sottos N R.A self-healing poly(dimethyl siloxane) elastomer[J].Advanced Functional Materials,2007,17(14):2399-2404.
[28]Keller M W,White S R,Sottos N R.Torsion fatigue response of self-healing poly(dimethylsiloxane) elastomers[J].Polymer,2008,49(13-14):3136-3145.
[29]Cho S,Andersson H,White S,et al.Polydimethylsiloxane-based self-healing materials[J].Advanced Materials,2010,18(8):997-1000.
[30]Cho S H,White S R,Braun P V.Room-temperature polydimethylsiloxane-based self-healing polymers[J].Chemistry of Materials,2012,24(21):4209-4214.
[31]Hondred P R,Salat L,Mangler J,et al.Tung oil-based thermosetting polymers for self-healing applications[J].Journal of Applied Polymer Science,2014,131(12):383-390.
[32]Hondred P R,Kessler M R.Rare earth triflate initiators in the cationic polymerization of tung oil-based thermosetting polymers for self-healing applications[J].Macromolecular Materials and Engineering,2014,299(9):1062-1069.
[33]Jin H,Mangun C L,Stradley D S,et al.Self-healing thermoset using encapsulated epoxy-amine healing chemistry[J].Polymer,2012,53(2):581-587.
[34]Jin H,Mangun C L,Griffin A S,et al.Thermally stable autonomic healing in epoxy using a dual-microcapsule system[J].Advanced Materials,2014,26(2):282-287.
[35]Yin T,Zhou L,Zhi Rong M,et al.Self-healing woven glass fabric/epoxy composites with the healant consisting of micro-encapsulated epoxy and latent curing agent[J].Smart Materials & Structures,2008,17(1):015019.
[36]Yin T,Rong M Z,Wu J,et al.Healing of impact damage in woven glass fabric reinforced epoxy composites[J].Composites Part A:Applied Science & Manufacturing,2008,39(9):1479-1487.
[37]Coope T S,Mayer U F J,Wass D F,et al.Self-healing of an epoxy resin using scandium(Ⅲ) triflate as a catalytic curing agent[J].Advanced Functional Materials,2015,21(24):4624-4631.
[38]Liao L P,Wei Z,Yi X,et al.Preparation and characterization of microcapsule containing epoxy resin and its self-healing performance of anticorrosion covering material[J].Chinese Science Bulletin,2011,56(4-5):439-443.
[39]廖乐平,张伟,赵阳.仿生自修复环氧树脂涂层制备及性能[J].中国表面工程,2013,26(4):88-93.
[40]Caruso M M,Delafuente D A,Ho V,et al.Solvent-promoted self-healing epoxy materials[J].Macromolecules,2007,40(25):8830-8832.
[41]Caruso M M,Blaiszik B J,White S R,et al.Full recovery of fracture toughness using a nontoxic solvent-based self-healing system[J].Advanced Functional Materials,2008,18(13):1898-1904.
[42]Ma Wanpeng,Zhang Wei,Zhao Yang,et al.Predictions of healing performance for solvent-promoted self-healing material by using Hansen solubility parameters[J].Materials Letters,2016,163:244-246.
[43]Ma Wanpeng,Zhang Wei,Zhao Yang.Preparation and assessment of self-healing material based on microcapsule filled with ethyl phenylacetate[J].Journal of Applied Polymer Science,2016,133(20):133-135.
[44]Ma Wanpeng,Zhang Wei,Zhao Yang,et al.Estimation of the mechanical properties of urea-formaldehyde microcapsules by compression tests and finite element analysis[J].Journal of Applied Polymer Science,2016,133(19):254-257.
[45]马万鹏,张伟,赵阳,等.溶剂微胶囊/环氧树脂复合材料的自修复性能[J].高分子材料科学与工程,2016,32(6):128-132.
[46]Sandmann B,Happ B,Hager M D,et al.Efficient Cu(Ⅰ) acetate-catalyzed cycloaddition of multifunctional alkynes and azides:from solution to bulk polymerization[J].Journal of Polymer Science Part A Polymer Chemistry,2014,52(2):239-247.
[47]Gragert M,Schunack M,Binder W H.Azide/alkyne-“click”-reactions of encapsulated reagents:toward self-healing materials[J].Macromolecular Rapid Communications,2011,32(5):419-425.
[48]Pratama P A,Sharifi M,Peterson A M,et al.Room temperature self-healing thermoset based on the diels-alder reaction[J].Acs Applied Materials & Interfaces,2013,5(23):12425.
[49]Boura S H,Peikari M,Ashrafi A,et al.Self-healing ability and adhesion strength of capsule embedded coatings-micro and nano sized capsules containing linseed oil[J].Progress in Organic Coatings,2012,75(4):292-300.
[50]Samadzadeh M,Boura S H,Peikari M,et al.Tung oil:an autonomous repairing agent for self-healing epoxy coatings[J].Progress in Organic Coatings,2011,70(4):383-387.
[51]Huang M,Yang J.Long-term performance of 1H,1H′,2H,2H′-perfluorooctyl triethoxysilane(POTS) microcapsule-based self-healing anticorrosive coatings[J].Journal of Intelligent Material Systems and Structures,2014,25(1):98-106.
[52]Cho S H,Andersson H M,White S R,et al.Polydimethylsiloxane-based self-healing materials[J].Advanced Materials,2006,18(8):997-1000.
[53]Brown E N,Sottos N R,White S R.Fracture testing of a self-healing polymer composite[J].Experimental Mechanics,2002,42(4):372-379.
[54]Xiao D S,Yuan Y C,Rong M Z,et al.Self-healing materials:a facile strategy for preparing self-healing polymer composites by incorporation of cationic catalyst-loaded vegetable fibers[J].Advanced Functional Materials,2009,19(14):2289-2296.
[55]Jin H,Mangun C L,Stradley D S,et al.Self-healing thermoset using encapsulated epoxy-amine healing chemistry[J].Polymer,2012,53(2):581-587.
[56]Zhang H,Wang P,Yang J.Self-healing epoxy via epoxy-amine chemistry in dual hollow glass bubbles[J].Composites Science & Technology,2014,94(4):23-29.
[57]Dubey R,Shami T C,Rao K U B.Microencapsulation technology and applications[J].Defence Science Journal,2009,59(1):82-95.
[58]Nesterova T,Dam-Johansen K,Pedersen L T,et al.Microcapsule-based self-healing anticorrosive coatings:capsule size,coating formulation,and exposure testing[J].Progress in Organic Coatings,2012,75(4):309-318.
[59]Brown E N,White S R,Sottos N R.Fatigue crack propagation in microcapsule-toughened epoxy[J].Journal of Materials Science,2006,41(19):6266-6273.
[60]Yoshizawa H,Kamio E,Kobayashi E,et al.Investigation of alternative compounds to poly(E-MA) as a polymeric surfactant for preparation of microcapsules by phase separation method[J].Journal of Microencapsulation,2007,24(4):349-57.
[61]Kanicky J R,Shah D O.Effect of degree,type,and position of unsaturation on the pKa of long-chain fatty acids[J].J Colloid Interface Sci,2002,256(1):201-207.
[62]Hayes S A,Zhang W,Branthwaite M,et al.Self-healing of damage in fibre-reinforced polymer-matrix composites[J].Journal of the Royal Society Interface,2007,4(13):381.
[63]Ding S X,Yan C Y,Min Z R,et al.Self-healing epoxy based on cationic chain polymerization[J].Polymer,2009,50(13):2967-2975.
[64]Patel A J,Sottos N R,Wetzel E D,et al.Autonomic healing of low-velocity impact damage in fiber-reinforced composites[J].Composites Part A:Applied Science and Manufacturing,2010,41(3):360-368.
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