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首页 > 过刊浏览>2021年第24卷第4期 >858-865. DOI:103969/j.issn.1007 9629202104025
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混凝土用淀粉基化学功能材料的研究进展和展望
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国家自然科学基金资助项目(51961135202)


Research Progress and Prospect of Starch Based Chemical Functional Materials for Concrete
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    摘要:

    淀粉是一种绿色可再生材料,近几年围绕建材行业需求,以淀粉为原料,通过化学合成制备得到的多种淀粉基化学功能材料展现出良好的性能和巨大的应用潜能.针对以淀粉基化学功能材料作为黏度改性剂、减水剂、水化温升抑制剂,以及高吸水性材料的相关工作,包括制备方法、作用机理和应用效果进行了综述,并对该研究领域今后的发展方向进行了展望.

    Abstract:

    Starch, as a green renewable material has great application potential in building materials. Especially in recent years, many starch based chemical functional materials had been applied in building materials and exhibited excellent performance. Research progress of starch based chemical functional materials using as viscosity modifying agent, water reducing agent, temperature rise inhibitor and superabsorbent materials, and their preparation methods, mechanism of function and application effects were summarized. Moreover, the future research direction in this field was also discussed.

    参考文献
    [1]ORFORD P D,RING S G,CARROLL V,et al.The effect of concentration and botanical source on the gelation and retrogradation of starch[J].Journal of the Science of Food and Agriculture,1987,39(2):169 177.
    [2]WEI M,ANDERSSON R,XIE G,et al.Properties of cassava stem starch being a new starch resource[J].Starch Strke,2017,70:1700125.
    [3]GUEDIRA M,PAULSEN G M.Accumulation of starch in wheat grain under different shoot/root temperatures during maturation[J].Functional Plant Biology,2002,29(4):495 503.
    [4]LIU H,YU L,XIE F,et al.Gelatinization of cornstarch with different amylose/amylopectin content[J].Carbohydrate Polymers,2006,65(3):357 363.
    [5]CHEN M H,BERGMAN C J.Method for determining the amylose content,molecular weights,and weight and molar based distributions of degree of polymerization of amylose and fine structure of amylopectin[J].Carbohydrate Polymers,2007,69(3):562 578.
    [6]WILLIAMS V R,WU W T,TSAI H Y,et al.Rice starch,varietal differences in amylose content of rice starch[J].Journal of Agricultural and Food Chemistry,1958,6(1):47 48.
    [7]ASZCZAK B W,FORNAL J,VALVERDE S,et al.Pressure induced changes in the structure of corn starches with different amylose content[J].Carbohydrate Polymers,2006,61(2):132 140.
    [8]MORTEZA G S,MOHAMMAD R S,MEISAM S,et al.Epoxy/starch modified nano zinc oxide transparent nanocomposite coatings:A showcase of superior curing behavior[J].Progress in Organic Coatings,2018,115:143 150.
    [9]NI S,WANG C,BIAN H,et al.Enhancing physical performance and hydrophobicity of paper based cellulosic material via impregnation with starch and PEI KH560[J].Cellulose,2018,25(2):1365 1375.
    [10]HAROON M,WANG L,YU H,et al.Chemical modification of starch and its application as an adsorbent material[J].RSC Advances,2016,6(82):78264 78285.
    [11]WALTER R.Origin of polysaccharide supramolecular assemblies[M].New York:Marcel Dekker Inc,1998:1 13.
    [12]SZCZESNIAK A S.Rheology of industrial polysaccharides:Theory and applications[J].Food Technology,1997,51(2):108.
    [13]LACHEMI M,HOSSAIN K M A,LAMBROS V,et al.Performance of new viscosity modifying admixtures in enhancing the rheological properties of cement paste[J].Cement and Concrete Research,2004,34(2):185 193.
    [14]IZAGUIRRE A,LANAS J,LVAREZ J I.Behaviour of a starch as a viscosity modifier for aerial lime based mortars[J].Carbohydrate Polymers,2010,80(1):222 228.
    [15]KHAYAT K H.Viscosity enhancing admixtures for cement based materials — An overview[J].Cement and Concrete Composites,1998,20(2):171 188.
    [16]FORTES REVILLA C,MARTINEZ REMIREZ S,BLANCO VARELA M T.Modelling of slaked lime metacaolin mortar engineering characteristics in terms of process variables[J].Cement and Concrete Composites,2006,28(5):458 467.
    [17]VIEIRA M,KLEMM D,EINFELDT L,et al.Dispersing agents for cement based on modified polysaccharides[J].Cement and Concrete Research,2005,35(5):883 890.
    [18]LACHEMI M,HOSSAIN K M A,LAMBROS V,et al.Self consolidating concrete incorporating new viscosity modifying admixtures[J].Cement and Concrete Research,2004,34(6):917 926.
    [19]ISIK I E,OZKUL M H.Utilization of polysaccharides as viscosity modifying agent in self compacting concrete[J].Construction and Building Materials,2014,72(15):239 247.
    [20]ZHANG D F,JU B Z,ZHANG S F,et al.The study on the dispersing mechanism of starch sulfonate as a water reducing agent for cement[J].Carbohydrate Polymers,2007,70(4):363 368.
    [21]吴井志,吕志锋,佘维娜,等.改性淀粉制减水剂的机理研究与展望[J].新型建筑材料,2015,9:4 7.
    WU Jingzhi,L Zhifeng,SHE Weina,et al.Mechanism and prospect of preparing superplasticizer by modified starch[J].New Building Materials,2015,9:4 7.(in Chinese)
    [22]ZHANG D F,JU B Z,ZHANG S F,et al.The study on the synthesis and action mechanism of starch succinate half ester as water reducing agent with super retarding performance[J].Carbohydrate Polymers,2008,71(1):80 84.
    [23]LUCIE C,PETIT J Y,WIRQUIN E,et al.Synthesis and evaluation of starch based polymers as potential dispersants in cement pastes and self leveling compounds[J].Cement and Concrete Composites,2014,45:29 38.
    [24]ZHANG D F,JU B Z,ZHANG S F,et al.Dispersing mechanism of carboxymethyl starch as water reducing agent[J].Journal of Applied Polymer Science,2007,105(2):486 491.
    [25]程发,侯桂丽,伊长青.磺化淀粉开发用作新型水泥减水剂的研究[J].精细化工,2006,23(7):711 716.
    CHENG Fa,HOU Guili,YI Changqing.Study on the development of sulfonated starch as a new type cement water reducer[J].Fine Chemicals,2006,23(7):711 716.(in Chinese)
    [26]VIEIRA M C,KLEMM D,EINFELDT L,et al.Dispersing agents for cement based on modified polysaccharides[J].Cement and Concrete Research,2005,35(5):883 890.
    [27]石从黎.淀粉基缓凝减水剂的制备及性能研究[D].重庆:重庆大学,2009.
    SHI Congli.Study on preparartion and performance of starch based slow setting water reducer.[D].Chongqing:Chongqing University,2009.(in Chinese)
    [28]赵平,严云,胡志华.改性淀粉作为混凝土缓凝减水剂的性能研究[J].混凝土与水泥制品,2012,7:1 5.
    ZHAO Ping,YAN Yun,HU Zhihua.Study on properties of modified starch as concrete retarding and water reducer[J].China Concrete and Cement Products,2012,7:1 15.(in Chinese)
    [29]水亮亮,杨海静,孙振平,等.聚羧酸减水剂作用机理的研究进展[J].建筑材料学报,2020,23(1):64 70.
    SHUI Liangliang,YANG Haijing,SUN Zhenping,et al.Research progress on the mechanism of polycarboxylate superplasticizer[J].Journal of Building Materials,2020,23(1):64 70.(in Chinese)
    [30]曲烈,郭磊,刘红丽,等.磺化淀粉聚羧酸复合减水剂的制备与表征[J].天津城市建筑设学院学报,2012,18(3):210 213.
    QU Lie,GUO Lei,LIU Hongli,et al.Preparation and characterization of sulfonated starch polycarboxylic acid composite water reducer[J].Journal of Tianjin Chenjian University,2012,18(3):210 213.(in Chinese)
    [31]廖国胜,吴琼,王琰皓.玉米淀粉改性聚羧酸减水剂实验研究[J].新型建筑材料,2018(7):139 142.
    LIAO Guosheng,WU Qiong,WANG Yanhao.Expermental study on corn starch modified polycarboxylate superplasticizer[J].New Building Material,2018(7):139 142.(in Chinese)
    [32]TOWNSEND C L.Control of cracking in mass concrete structures[J].A Water Resources Technical Publication Engineering Monograph,1981,34:112 130.
    [33]ZHU B F.Thermal stress and temperature control of mass concrete[M].Oxford:Elsevier,2014:235 266.
    [34]JUSTNES H,WUYTS F,VAN G D.Hardenging retarders for massive concrete[J].American Concrete Institute,2008,41:39 53
    [35]ZIELENKIEWICZ W,KAMIN'SKI M.A conduction calorimeter for measuring the heat of cement hydration in the initial hydration period[J].Journal of Thermal Analysis & Calorimetry,2001,65(2):335 340.
    [36]LI L X,XIE Y J,FENG Z W,et al.Cement hydration mechanism and research methods[J].Concrete,2011,6:76 80.
    [37]SCRIVENER K L,JUILLAND P,MONTEIRO P J M.Advances in understanding hydration of Portland cement[J].Cement and Concrete Research,2015,78:38 56.
    [38]MITCHELL A W.Starch solubility[J].Journal
    [61]QIAO D l,LIU H S,YU L,et al.Preparation and characterization of slow release fertilizer encapsulated by starch based superabsorbent polymer[J].Carbohydrate Polymers,2016,147:146 154.
    [62]XIAO X,YU L,XIE F,et al.One step method to prepare starch based superabsorbent polymer for slow release of fertilizer[J].Chemical Engineering Journal,2017,309:607 616.
    uction calorimetric investigation of the effect of retarders on the hydration of Portland cement[J].Thermochimica Acta,1992,195:373 387.
    [42]PESCHARD A,GOVIN A,GROSSEAU P,et al.Effect of polysaccharides on the hydration of cement paste at early ages[J].Cement and Concrete Research,2004,34(11):2153 2158.
    [43]YAN Y,OUZIA A,YU C,et al.Effect of a novel starch based temperature rise inhibitor on cement hydration and microstructure development[J].Cement and Concrete Research,2020,129:105961.
    [44]吕志锋,于诚,佘维娜,等.淀粉基水泥水化热调控材料的制备及作用机理[J].建筑材料学报,2016,19(4):625 630.
    L Zhifeng,YU Cheng,SHE Weina,et al.Preparation and action mechanism of starch based cement hydration heat regulating materials[J].Journal of Building Materials,2016,19(4):625 630.(in Chinese)
    [45]ZHANG H,WANG W,LI Q,et al.A starch based admixture for reduction of hydration heat in cement composites[J].Construction and Building Materials,2018,173:317 322.
    [46]POINOT T,GOVIN A,GROSSEAU P.Impact of hydroxypropylguars on the early age hydration of Portland cement[J].Cement and Concrete Research,2013,44:69 76.
    [47]POURCHEZ J,GROSSEAU P,RUOT B.Changes in C3S hydration in the presence of cellulose ethers[J].Cement and Concrete Research,2010,40(2):179 188.
    [48]OUZIA A,SCRIVENER K.The needle model:A new model for the main hydration peak of alite[J].Cement and Concrete Research,2019,115:339 360.
    [49]GORGES M.Relation between the molecular structure and the efficiency of superabsorbent polymers(SAP) as concrete admixture to mitigate autogenous shrinkage[J].Cement and Concrete Research,2012,42(6):865 873.
    [50]VAN VLIERBERGHE S.pH sensitive superabsorbent polymers:A potential candidate material for self healing concrete[J].Journal of Materials Science,2015,50(2):970 979.
    [51]FALIKMAN V.Testing superabsorbent polymer(SAP) sorption properties prior to implementation in concrete:Results of a RILEM Round Robin Test[J].Materials & Structures,2018,51(1):28.
    [52]TELI M D,MALLICK A.Application of sorghum starch for preparing superabsorbent[J].Journal of Polymers and Environment,2017,26(4):1 11.
    [53]LI T X,LI K,WANG Y M,et al.Effects of gelatinization characteristics on starch based superabsorbent polymer[J].Materials Research Innovations,2015,19(Suppl 5):817 821.
    [54]ZHU B,DONGZHUO M A,QIANKUN H E,et al.Preparation and water absorbency performance of corn straw grafted acrylic acid acrylamide superabsorbents[J].Chemical Industry & Engineering Progress,2015,34(1):198 202.
    [55]HOSSEINZADEH H,RAMIN S.Magnetic and pH responsive starch g poly(acrylic acid co acrylamide)/graphene oxide superabsorbent nanocomposites:One pot synthesis,characterization,and swelling behavior[J].Die Starke,2015,68(3/4):200 212.
    [56]LU S J,DUAN M L,LIN S B.Synthesis of superabsorbent starch graft poly(potassium acrylate co acrylamide) and its properties[J].Journal of Applied Polymer Science,2003,88(6):1536 1542.
    [57]BERLIN A A,KRONMAN A G,YANOVSKII D M,et al.A new method for preparation of graft copolymers[J].Polymer Science U.S.S.R.,1962,3(3):508 514.
    [58]柳明珠.丙烯酰胺与洋芋淀粉接枝共聚物的合成及其超高吸水性能的研究[J].高分子材料科学与工程,1992,8(4):19 20.
    LIU Mingzhu.Study on synthesis and water absorbent of graft copolymer of acrylamide onto potato starch[J].Polymeric Materials Science and Engineering,1992,8(4):19 20.(in Chinese)
    [59]HUO Q,LIU D,ZHAO J,et al.Construction and water absorption capacity of a 3D network structure starch g poly(sodium acrylate)/PVP semi IPN superabsorbent resin[J].Starch Strke,2017,69(11):1700091.
    [60]LAN G,ZHANG M,LIU Y,et al.Synthesis and swelling behavior of super absorbent soluble starch g poly(AM co NaAMC14S) through graft copolymerization and hydrolysis[J].Starch Strke,2018,71:e1800272.
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李彬,王玲.混凝土用淀粉基化学功能材料的研究进展和展望[J].建筑材料学报,2021,24(4):858-865

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  • 收稿日期:2020-05-11
  • 最后修改日期:2020-06-13
  • 在线发布日期: 2021-09-06
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