木质纤维表面润湿性能表征及应用举例
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摘要
本文综述了木质纤维表面润湿性能的表征方法,分析了纤维特性与纤维表面润湿性能之间的响应关系,主要论述了纤维表面化学组成、表面电荷以及表面的孔隙结构对纤维表面润湿性能的影响,并就近年来纤维表面润湿性能在纤维基材料中的应用现状探讨了纤维表面润湿性能的重要性。
The measurement of lignocellulosic fiber surface wettability was summarized and the relationship between fiber properties and its surface wettability was analyzed,including the effects of surface composition,surface charge and surface pore structure of fiber on its surface wettability. The importance of fiber surface wettability was also discussed based on the recent applications in some kinds of fiber-based materials.
The measurement of lignocellulosic fiber surface wettability was summarized and the relationship between fiber properties and its surface wettability was analyzed,including the effects of surface composition,surface charge and surface pore structure of fiber on its surface wettability. The importance of fiber surface wettability was also discussed based on the recent applications in some kinds of fiber-based materials.
引文
[1]WANG Xin,LI Zhiqiang,ZHANG Hongjie,et al.The Characterization of Deformation Behavior of Mechanical Lignocellulosic Fibers and Its Effect on Interfiber Bonding Properties[J].China Pulp&Paper,2017,36(12):14.王欣,李志强,张红杰,等.机械木浆纤维形变性表征及其对纤维间结合性能的影响[J].中国造纸,2017,36(12):14.
[2]XIE Jinglei,ZHANG Hongjie,LI Zhiqiang,et al.Study Progress of Surface Properties and Its Measuring Methods of Pulp Fibers[J].China Pulp&Paper,2016,35(9):72.谢晶磊,张红杰,李志强,等.纸浆纤维表面性能及其分析方法研究进展[J].中国造纸,2016,35(9):72.
[3]Rafiee J,Mi X,Gullapalli H,et al.Wetting transparency of graphene[J].Nature Materials,2012,11(3):217.
[4]Mertens S F L,Hemmi A,Muff S,et al.Switching stiction and adhesion of a liquid on a solid[J].Nature,2015,534(7609):676.
[5]Introzzi L,Fuentes-Alventosa J M,Cozzolino C A,et al."Wetting Enhancer"pullulan coating for antifog packaging applications[J].ACS Applied Materials&Interfaces,2012,4(7):3692.
[6]De Gans B J,Duineveld P,Schubert U.Inkjet Printing of Polymers:State of the art and future developments[J].Advanced Materials,2010,16(3):203.
[7]ZHOU Shuanglin,YANG Chen,GAO Haiyan.The Simuliation application Experiment of Water-proof Materials in Conservation of Paper based Relics[J].China Pulp&Paper,2018,37(8):36.周双林,杨晨,高海彦.防水材料在纸张文物保护中的应用初探[J].中国造纸,2018,37(8):36.
[8]SI Jinghang,XU Mengjie,ZHOU Xuesong.Preparation and Characterization of Oil-Water Separation Filter Paper[J].China Pulp&Paper,2018,37(5):7.司景航,许孟杰,周雪松.油水分离滤纸的制备及其性能研究[J].中国造纸,2018,37(5):7.
[9]Yoon S W,Choi W K,Lee H M.Calculation of surface tension and wetting properties of Sn-Based solder alloys[J].Scripta Materialia,1999,40(3):297.
[10]Tavana H,Simon F,Grundke K,et al.Interpretation of contact angle measurements on two different fluoropolymers for the determination of solid surface tension[J].Journal of Colloid&Interface Science,2005,291(2):497.
[11]Tavana H,Neumann A W.Recent progress in the determination of solid surface tensions from contact angles[J].Advances in Colloid&Interface Science,2007,132(1):1.
[12]Grundke K,P9schel K,Synytska A,et al.Experimental studies of contact angle hysteresis phenomena on polymer surfaces-Toward the understanding and control of wettability for different applications[J].Advances in Colloid&Interface Science,2015,222:350.
[13]Shi Z,Zhang Y,Liu M,et al.Dynamic contact angle hysteresis in liquid bridges[J].Colloids&Surfaces A Physicalchemical&Engineering Aspects,2018,555:365.
[14]Drelich J.Guidelines to measurements of reproducible contact angles using a sessile-drop technique[J].Surface Innovations,2013,1(4):248.
[15]Clegg C.Contact Angle Made Easy[M].Succasunna:ramé-hart.,2013.
[16]Mchale G,Newton M I.Global geometry and the equilibrium shapes of liquid drops on fibers[J].Colloids&Surfaces A Physicochemical&Engineering Aspects,2002,206:79.
[17]Yulin Deng.Effect of Fiber surface chemistry on the fiber loss in flotation deinking[J].Tappi J.,2000,83(6):1.
[18]Pucci M F,Liotier P J,Drapier S.Tensiometric method to reliably assess wetting properties of single fibers with resins:validation on cellulosic reinforcements for composites[J].Colloids&Surfaces APhysicochemical&Engineering Aspects,2017,512:26.
[19]LI RongI,Kim Dongzhu.Fiber Length,Coarseness and Their Effects on Paper Structural Properties[J].China Pulp&Paper,2018,37(7):49.李荣一,金东柱.纤维长度和粗度对纸张结构性能的影响[J].中国造纸,2018,37(7):49.
[20]Monteiro S N,Lopes F P D,Barbosa A P,et al.Natural lignocellulosicfibers as engineering materials-An overview[J].Metallurgical&Materials Transactions A,2011,42(10):2963.
[21]Clanet C,QuéréD.Onset of menisci[J].Journal of Fluid Mechanics,2002,460:131.
[22]Schellbach S L,Monteiro S N,Drelich J W.A novel method for contact angle measurements on natural fibers[J].Materials Letters,2016,164:599.
[23]Andrieu C,Sykes C,Brochard F.Average spreading parameter on heterogeneous surfaces[J].Langmuir,1994,10(7):2077.
[24]Fuentes C,Beckers K,Pfeiffer H,et al.Equilibrium contact angle measurements of natural fibers by an acoustic vibration technique[J].Colloids&Surfaces A Physicochemical&Engineering Aspects,2014,455:164.
[25]Dezellus O,Eustathopoulos N.Fundamental issues of reactive wetting by liquid metals[J].Journal of Materials Science,2010,45(16):4256.
[26]Hu H,Ji F,Sun Y.Role of oxygen vacancy on water wettability of Zn O surface[J].Phys.Chem.Chem.Phys.,2013,15(39):16557.
[27]Crawford R L,Robinson L E,Cheh A M.14C-labeled lignins as substrates for the study of lignin biodegradation and transformation[M]//Lignin biodegradation:microbiology,chemistry,and potential applications.Vol.I.CRC Press,USA,1980.
[28]LIU Chuanfu,SUN Runcang,YE Jun.Research Progress in Cellulose-based Adsorbents[J].Transactions of China Pulp and Paper,2005,20(2):207.刘传富,孙润仓,叶君.纤维素类吸附剂的研究进展[J].中国造纸学报,2005,20(2):207.
[29]CHENG Heli,ZHAN Huaiyu,LI Bingyun,et al.Isolation and Characterization of Corn Stover Hemicellulose[J].Transactions of China Pulp and Paper,2011,26(3):26.程合丽,詹怀宇,李兵云,等.玉米秆半纤维素的碱法提取与表征[J].中国造纸学报,2011,26(3):26.
[30]Xie J,Zhang H,An S,et al.Role of a“surface wettability switch”in inter-fiber bonding properties[J].RSC Advances,2018,8(6):3081.
[31]Ralston J.Solid-liquid interactions and functional surface wettability[J].Cheminform,2005,36(51):644.
[32]Hanly G,Fornasiero D,Ralston J,et al.Electrostatics and metal oxide wettability[J].J.Phys.Chem.C.,2011,115(30):14914.
[33]Hua Chao,Li Mingyuan,Lin Meiqin,et al.Characterization of sandstone surface wettability by surface potential[J].Journal of China University of Petroleum(Natural Science Edition),2015(2):142.华朝,李明远,林梅钦,等.利用表面电势表征砂岩储层岩石表面润湿性[J].中国石油大学学报(自然科学版),2015(2):142.
[34]Zhao C,Zhang H,Zeng X,et al.Enhancing the inter-fiber bonding properties of cellulosic fibers by increasing different fiber charges[J].Cellulose,2016,23(3):1617.
[35]Rehder B,Banh K,Neithalath N.Fracture behavior of pervious concretes:The effects of pore structure and fibers[J].Engineering Fracture Mechanics,2014,118(2):1.
[36]Stana-Kleinschek K,Kreze T,Ribitsch V,et al.Reactivity and electrokinetical properties of different types of regenerated cellulose fibres[J].Colloids&Surfaces A Physicochemical&Engineering Aspects,2001,195(1/3):275.
[37]Yue Y,Wu F,Choi H,et al.Electrochemical synthesis and hydrophilicity of micro-pored aluminum foil[J].Surface&Coatings Technology,2016,309:523.
[38]Moghaddam R N,Jamiolahmady M.An investigation into free-imbibition of sessile drop when measuring contact angle on porous substrates[C]//Eage Conference and Exhibition.2015.
[39]Kalia S,Kaith B S,Kaur I.Pretreatments of natural fibers and their application as reinforcing material in polymer composites-A review[J].Polymer Engineering&Science,2010,49(7):1253.
[40]Pietak A,Korte S,Tan E,et al.Atomic force microscopy characterization of the surface wettability of natural fibres[J].Applied Surface Science,2007,253(7):3627.
[41]Sinha E,Rout S K.Influence of fibre-surface treatment on structural,thermal and mechanical properties of jute fibre and its composite[J].Bulletin of Materials Science,2009,32(1):65.
[42]Weyenberg I V D,Truong T C,Vangrimde B,et al.Improving the properties of UD flax fibre reinforced composites by applying an alkaline fibre treatment[J].Composites Part A Applied Science&Manufacturing,2006,37(9):1368.
[43]Chen Q,Soykeabkaew N,Ni X,et al.The effect of fibre volume fraction and mercerization on the properties of all-cellulose composites[J].Carbohydrate Polymers,2008,71(3):458.
[44]Bogdanw?odek A,Kozio?M,Myalski J.Influence of surface treatment on the wetting process of jute fibres with thermosetting polyester resin[J].Polish Journal of Chemical Technology,2012,14(1):21.
[45]Wang J,Yiu B,Obermeyer J,et al.Effects of temperature and relative humidity on the stability of paper-immobilized antibodies[J].Biomacromolecules,2012,13(2):559.
[46]Li X,Ballerini D R,Shen W.A perspective on paper-based microfluidics:Current status and future trends[J].Biomicrofluidics,2012,6(1):1123.
[47]Guan L,Cao R,Tian J,et al.A preliminary study on the stabilization of blood typing antibodies sorbed into paper[J].Cellulose,2014,21(1):717.
[48]Huang Z,Gengenbach T,Tian J,et al.The role of polyaminoamide-epichlorohydrin(PAE)on antibody longevity in bioactive paper[J].Colloids&Surfaces B Biointerfaces,2017,158:197.
[49]Xu Min,Zhu Yi.Study on the surface wettability of wood/Plastic Composite[J].Forestry Science&Technology.2007(3):26.许民,朱毅.木塑复合材料的表面润湿性研究[J].林业科技,2007(3):26.
[50]Jiang B,Zhang L,Liao B,et al.Self-assembly of well-defined thermo-responsive fluoropolymer and its application in tunable wettability surface[J].Polymer,2014,55(21):5350.
[2]XIE Jinglei,ZHANG Hongjie,LI Zhiqiang,et al.Study Progress of Surface Properties and Its Measuring Methods of Pulp Fibers[J].China Pulp&Paper,2016,35(9):72.谢晶磊,张红杰,李志强,等.纸浆纤维表面性能及其分析方法研究进展[J].中国造纸,2016,35(9):72.
[3]Rafiee J,Mi X,Gullapalli H,et al.Wetting transparency of graphene[J].Nature Materials,2012,11(3):217.
[4]Mertens S F L,Hemmi A,Muff S,et al.Switching stiction and adhesion of a liquid on a solid[J].Nature,2015,534(7609):676.
[5]Introzzi L,Fuentes-Alventosa J M,Cozzolino C A,et al."Wetting Enhancer"pullulan coating for antifog packaging applications[J].ACS Applied Materials&Interfaces,2012,4(7):3692.
[6]De Gans B J,Duineveld P,Schubert U.Inkjet Printing of Polymers:State of the art and future developments[J].Advanced Materials,2010,16(3):203.
[7]ZHOU Shuanglin,YANG Chen,GAO Haiyan.The Simuliation application Experiment of Water-proof Materials in Conservation of Paper based Relics[J].China Pulp&Paper,2018,37(8):36.周双林,杨晨,高海彦.防水材料在纸张文物保护中的应用初探[J].中国造纸,2018,37(8):36.
[8]SI Jinghang,XU Mengjie,ZHOU Xuesong.Preparation and Characterization of Oil-Water Separation Filter Paper[J].China Pulp&Paper,2018,37(5):7.司景航,许孟杰,周雪松.油水分离滤纸的制备及其性能研究[J].中国造纸,2018,37(5):7.
[9]Yoon S W,Choi W K,Lee H M.Calculation of surface tension and wetting properties of Sn-Based solder alloys[J].Scripta Materialia,1999,40(3):297.
[10]Tavana H,Simon F,Grundke K,et al.Interpretation of contact angle measurements on two different fluoropolymers for the determination of solid surface tension[J].Journal of Colloid&Interface Science,2005,291(2):497.
[11]Tavana H,Neumann A W.Recent progress in the determination of solid surface tensions from contact angles[J].Advances in Colloid&Interface Science,2007,132(1):1.
[12]Grundke K,P9schel K,Synytska A,et al.Experimental studies of contact angle hysteresis phenomena on polymer surfaces-Toward the understanding and control of wettability for different applications[J].Advances in Colloid&Interface Science,2015,222:350.
[13]Shi Z,Zhang Y,Liu M,et al.Dynamic contact angle hysteresis in liquid bridges[J].Colloids&Surfaces A Physicalchemical&Engineering Aspects,2018,555:365.
[14]Drelich J.Guidelines to measurements of reproducible contact angles using a sessile-drop technique[J].Surface Innovations,2013,1(4):248.
[15]Clegg C.Contact Angle Made Easy[M].Succasunna:ramé-hart.,2013.
[16]Mchale G,Newton M I.Global geometry and the equilibrium shapes of liquid drops on fibers[J].Colloids&Surfaces A Physicochemical&Engineering Aspects,2002,206:79.
[17]Yulin Deng.Effect of Fiber surface chemistry on the fiber loss in flotation deinking[J].Tappi J.,2000,83(6):1.
[18]Pucci M F,Liotier P J,Drapier S.Tensiometric method to reliably assess wetting properties of single fibers with resins:validation on cellulosic reinforcements for composites[J].Colloids&Surfaces APhysicochemical&Engineering Aspects,2017,512:26.
[19]LI RongI,Kim Dongzhu.Fiber Length,Coarseness and Their Effects on Paper Structural Properties[J].China Pulp&Paper,2018,37(7):49.李荣一,金东柱.纤维长度和粗度对纸张结构性能的影响[J].中国造纸,2018,37(7):49.
[20]Monteiro S N,Lopes F P D,Barbosa A P,et al.Natural lignocellulosicfibers as engineering materials-An overview[J].Metallurgical&Materials Transactions A,2011,42(10):2963.
[21]Clanet C,QuéréD.Onset of menisci[J].Journal of Fluid Mechanics,2002,460:131.
[22]Schellbach S L,Monteiro S N,Drelich J W.A novel method for contact angle measurements on natural fibers[J].Materials Letters,2016,164:599.
[23]Andrieu C,Sykes C,Brochard F.Average spreading parameter on heterogeneous surfaces[J].Langmuir,1994,10(7):2077.
[24]Fuentes C,Beckers K,Pfeiffer H,et al.Equilibrium contact angle measurements of natural fibers by an acoustic vibration technique[J].Colloids&Surfaces A Physicochemical&Engineering Aspects,2014,455:164.
[25]Dezellus O,Eustathopoulos N.Fundamental issues of reactive wetting by liquid metals[J].Journal of Materials Science,2010,45(16):4256.
[26]Hu H,Ji F,Sun Y.Role of oxygen vacancy on water wettability of Zn O surface[J].Phys.Chem.Chem.Phys.,2013,15(39):16557.
[27]Crawford R L,Robinson L E,Cheh A M.14C-labeled lignins as substrates for the study of lignin biodegradation and transformation[M]//Lignin biodegradation:microbiology,chemistry,and potential applications.Vol.I.CRC Press,USA,1980.
[28]LIU Chuanfu,SUN Runcang,YE Jun.Research Progress in Cellulose-based Adsorbents[J].Transactions of China Pulp and Paper,2005,20(2):207.刘传富,孙润仓,叶君.纤维素类吸附剂的研究进展[J].中国造纸学报,2005,20(2):207.
[29]CHENG Heli,ZHAN Huaiyu,LI Bingyun,et al.Isolation and Characterization of Corn Stover Hemicellulose[J].Transactions of China Pulp and Paper,2011,26(3):26.程合丽,詹怀宇,李兵云,等.玉米秆半纤维素的碱法提取与表征[J].中国造纸学报,2011,26(3):26.
[30]Xie J,Zhang H,An S,et al.Role of a“surface wettability switch”in inter-fiber bonding properties[J].RSC Advances,2018,8(6):3081.
[31]Ralston J.Solid-liquid interactions and functional surface wettability[J].Cheminform,2005,36(51):644.
[32]Hanly G,Fornasiero D,Ralston J,et al.Electrostatics and metal oxide wettability[J].J.Phys.Chem.C.,2011,115(30):14914.
[33]Hua Chao,Li Mingyuan,Lin Meiqin,et al.Characterization of sandstone surface wettability by surface potential[J].Journal of China University of Petroleum(Natural Science Edition),2015(2):142.华朝,李明远,林梅钦,等.利用表面电势表征砂岩储层岩石表面润湿性[J].中国石油大学学报(自然科学版),2015(2):142.
[34]Zhao C,Zhang H,Zeng X,et al.Enhancing the inter-fiber bonding properties of cellulosic fibers by increasing different fiber charges[J].Cellulose,2016,23(3):1617.
[35]Rehder B,Banh K,Neithalath N.Fracture behavior of pervious concretes:The effects of pore structure and fibers[J].Engineering Fracture Mechanics,2014,118(2):1.
[36]Stana-Kleinschek K,Kreze T,Ribitsch V,et al.Reactivity and electrokinetical properties of different types of regenerated cellulose fibres[J].Colloids&Surfaces A Physicochemical&Engineering Aspects,2001,195(1/3):275.
[37]Yue Y,Wu F,Choi H,et al.Electrochemical synthesis and hydrophilicity of micro-pored aluminum foil[J].Surface&Coatings Technology,2016,309:523.
[38]Moghaddam R N,Jamiolahmady M.An investigation into free-imbibition of sessile drop when measuring contact angle on porous substrates[C]//Eage Conference and Exhibition.2015.
[39]Kalia S,Kaith B S,Kaur I.Pretreatments of natural fibers and their application as reinforcing material in polymer composites-A review[J].Polymer Engineering&Science,2010,49(7):1253.
[40]Pietak A,Korte S,Tan E,et al.Atomic force microscopy characterization of the surface wettability of natural fibres[J].Applied Surface Science,2007,253(7):3627.
[41]Sinha E,Rout S K.Influence of fibre-surface treatment on structural,thermal and mechanical properties of jute fibre and its composite[J].Bulletin of Materials Science,2009,32(1):65.
[42]Weyenberg I V D,Truong T C,Vangrimde B,et al.Improving the properties of UD flax fibre reinforced composites by applying an alkaline fibre treatment[J].Composites Part A Applied Science&Manufacturing,2006,37(9):1368.
[43]Chen Q,Soykeabkaew N,Ni X,et al.The effect of fibre volume fraction and mercerization on the properties of all-cellulose composites[J].Carbohydrate Polymers,2008,71(3):458.
[44]Bogdanw?odek A,Kozio?M,Myalski J.Influence of surface treatment on the wetting process of jute fibres with thermosetting polyester resin[J].Polish Journal of Chemical Technology,2012,14(1):21.
[45]Wang J,Yiu B,Obermeyer J,et al.Effects of temperature and relative humidity on the stability of paper-immobilized antibodies[J].Biomacromolecules,2012,13(2):559.
[46]Li X,Ballerini D R,Shen W.A perspective on paper-based microfluidics:Current status and future trends[J].Biomicrofluidics,2012,6(1):1123.
[47]Guan L,Cao R,Tian J,et al.A preliminary study on the stabilization of blood typing antibodies sorbed into paper[J].Cellulose,2014,21(1):717.
[48]Huang Z,Gengenbach T,Tian J,et al.The role of polyaminoamide-epichlorohydrin(PAE)on antibody longevity in bioactive paper[J].Colloids&Surfaces B Biointerfaces,2017,158:197.
[49]Xu Min,Zhu Yi.Study on the surface wettability of wood/Plastic Composite[J].Forestry Science&Technology.2007(3):26.许民,朱毅.木塑复合材料的表面润湿性研究[J].林业科技,2007(3):26.
[50]Jiang B,Zhang L,Liao B,et al.Self-assembly of well-defined thermo-responsive fluoropolymer and its application in tunable wettability surface[J].Polymer,2014,55(21):5350.