坡缕石在建材领域的应用研究进展
|
摘要
我国优势非金属矿之一的坡缕石是一种价格低廉的硅酸盐矿物材料,由于具有良好的物理、化学性质且储量丰富,被广泛应用于各类建筑材料,以降低材料成本、提高材料性能。在广泛收集、归纳国内外研究成果的基础上,基于坡缕石的结构和基本特性,详述了坡缕石在建筑材料领域的应用开发现状,着重阐述了坡缕石在水泥、沥青、建筑涂料等方面的应用现状及作用机理,希望能为坡缕石在建筑材料领域的开发和利用提供参考。
Palygorskite,one of the advantages of nonmetallic ore in China,is a kind of low cost silicate mineral material.Due to its good physical and chemical properties and abundant reserves,it is widely used in various types of building materials to reduce the cost and improve the performances.Based on the structure and characteristics of palygorskite,this paper summarizes the application and development of palygorskite in building materials,especially on the application status and mechanism of the application in cement,asphalt and architectural coatings.And it hopes to provide a reference of the development and utilization of palygorskite in the field of building materials.
Palygorskite,one of the advantages of nonmetallic ore in China,is a kind of low cost silicate mineral material.Due to its good physical and chemical properties and abundant reserves,it is widely used in various types of building materials to reduce the cost and improve the performances.Based on the structure and characteristics of palygorskite,this paper summarizes the application and development of palygorskite in building materials,especially on the application status and mechanism of the application in cement,asphalt and architectural coatings.And it hopes to provide a reference of the development and utilization of palygorskite in the field of building materials.
引文
[1]交通运输部.2016年交通运输行业发展统计公报[N].中国交通报,2017-04-17(2).
[2]Gueye R S,Davy C A,Cazaux F,et al.Mineralogical and physico-chemical characterization of Mbodiene palygorskite for pharmaceutical applications[J].Journal of African Earth Sciences,2017,135:186-203.
[3]Ling R,Peng Z.Effect of attapulgite on the rheological properties of polyvinyl alcohol solutions by steady shearing[J].Polymer Materials Science&Engineering,2011,27(7):38-41.
[4]Baltar C A M,Luz A B D,Baltar L M,et al.Influence of morphology and surface charge on the suitability of palygorskite as drilling fluid[J].Applied Clay Science,2009,42(3):597-600.
[5]Habert G,Choupay N,Escadeillas G.Clay content of argillites:Influence on cement based mortars[J].Applied Clay Science,2009,43(3):322-330.
[6]Murray H H.Traditional and new applications for kaolin,smectite,and palygorskite:a general overview[J].Applied Clay Science,2000,17(5):207-221.
[7]王玉倩,潘钢华,张菁燕.凹凸棒石粘土在建材中的应用研究[J].硅酸盐通报,2010,29(6):1353-1357.
[8]邵俊丰.纳米凹凸棒石粘土对水泥基材料物理力学及耐久性影响研究[D].大连:大连海事大学,2017.
[9]Tregger N A,Pakula M E,Shah S P.Influence of clays on the rheology of cement pastes[J].Cement&Concrete Research,2010,40(3):384-391.
[10]Lindgreen H,Geiker M,Kryer H,et al.Microstructure engineering of Portland cement pastes and mortars through addition of ultrafine layer silicates[J].Cement&Concrete Composites,2008,30(8):686-699.
[11]潘钢华,夏艺,孙伟,等.煅烧凹凸棒石粘土对干拌砂浆性能影响机理的研究[J].混凝土,2006(10):17-20.
[12]张国防,王培铭,赵建斌,等.一种干混砂浆用保水增稠材料及其应用[P].中国专利:CN104003646A,2014-08-27.
[13]Kim J H,Beacraft M,Shah S P.Effect of mineral admixtures on formwork pressure of self-consolidating concrete[J].Cement&Concrete Composites,2010,32(9):665-671.
[14]Kawashima S,Chaouche M,Corr D J,et al.Rate of thixotropic rebuilding of cement pastes modified with highly purified attapulgite clays[J].Cement&Concrete Research,2013,53(11):112-118.
[15]曲美燕.掺纳米层状材料的水泥稳定碎石抗裂性能研究[D].南京:东南大学,2015.
[16]韩静云,顾兴东.凹凸棒石粘土在水下不分散混凝土中应用的探索试验[J].非金属矿,2000,23(5):26-28.
[17]詹炳根,林兴胜,陈婷.PVA纤维增强高性能水泥基材料的韧性[J].合肥工业大学学报:自然科学版,2007,30(9):1178-1182.
[18]冯启明.利用凹凸棒石粘土生产干燥剂的试验研究[J].矿产保护与利用,1995(3):27-29.
[19]邓最亮,郑柏存,傅乐峰.凹凸棒石改性水泥基材料自调湿性能研究[J].非金属矿,2007,30(4):27-30.
[20]孙璐,朱浩然,辛宪涛,等.纳米改性沥青制备和路用性能研究[J].中国公路学报,2013,26(1):15-22.
[21]谭彦卿,金娇,郑健龙,等.有机改性膨润土制备及其用于改性沥青的研究进展[J].硅酸盐通报,2017,36(8):2636-2641.
[22]Liu P,Wang H,Pan C.Surface organo-functionalization of palygorskite nanorods withγ-mercaptopropyltrimethoxysilane[J].Applied Clay Science,2018,159:37-41.
[23]王有朋,何小荣,韩建军,等.坡缕石的有机改性及其在改性沥青中的应用研究[J].非金属矿,2010,33(5):43-44.
[24]孟文专.冷补沥青混合料的制备及改良[D].武汉:武汉工程大学,2012.
[25]Zhang J,Wang J,Wu Y,et al.Preparation and properties of organic palygorskite SBR/organic palygorskite compound and asphalt modified with the compound[J].Construction&Building Materials,2008,22(8):1820-1830.
[26]马全红,邢雪婷,许雪松,等.冷补沥青混合料的制备及其性能分析[J].东南大学学报(自然科学版),2016,46(3):594-598.
[27]Sun Y,Zhang Y,Xu K,et al.Thermal,mechanical properties,and low-temperature performance of fibrous nanoclay-reinforced epoxy asphalt composites and their concretes[J].Journal of Applied Polymer Science,2015,132(12):41694.
[28]孙一帆.环氧沥青/纳米粘土复合物的性能研究[D].南京:南京大学,2016.
[29]Liu P.Hyperbranched aliphatic polyester grafted attapulgite via a melt polycondensation process[J].Applied Clay Science,2007,35(1):11-16.
[30]金叶玲,钱运华,陈静,等.凹凸棒石粘土在双组分聚氨酯涂料中的应用[J].应用化工,2005,34(10):601-603.
[31]刘允超.一种凹凸棒建筑墙面塑型装饰腻子及其制备方法[P].中国专利:CN105086562A,2015-11-25.
[32]程晟,王群英,熊君山,等.改性凹凸棒土作为隔热单元的新型水性隔热外墙涂料的制备[J].新型建筑材料,2010,37(6):85-88.
[33]A6taghzzaf A,Rhouta B,Rocca E,et al.Grafted palygorskite as containers of heptanoate for corrosion protection of steel in Na Cl medium[J].Corrosion Science,2017,114:88-95.
[34]Zhou L,Xu S,Zhang G,et al.A facile approach to fabricate self-cleaning paint[J].Applied Clay Science,2016,132-133:290-295.
[35]周伟,钱运华.纳米Ti O2/凹凸棒土复合材料的制备及其光催化涂料[J].化工新型材料,2014(4):50-52.
[36]许庆华,许盛英,袁长兵,等.具有净化空气功能的凹凸棒彩色涂料粉[P].中国专利:CN105272055A,2016-01-27
[37]仇志铭.凹凸棒土对矿棉吸声板性能影响分析[J].新型建筑材料,2007,34(10):60-62.
[38]李学东,许庆华,许盛英,等.凹凸棒粉煤灰保温砖[P].中国专利:CN102863256A,2013-01-09.
[39]张爱民.一种以碎玻璃为基质的加气砖及其加工方法[P].中国专利:CN102887672A,2013-01-23.
[40]任劲松.一种矿渣加气砖及其制作方法[P].中国专利:CN103833304A,2014-01-14.
[41]许庆华,袁欣,许盛英,等.免烧凹凸棒发泡吸音板[P].中国专利:CN103556740A,2014-02-05.
[42]陆玉,陆洪彬,唐伟,等.改性凹凸棒土制备新型柔性饰面砖保温隔热性能的研究[J].新型建筑材料,2014,41(3):56-59.
[2]Gueye R S,Davy C A,Cazaux F,et al.Mineralogical and physico-chemical characterization of Mbodiene palygorskite for pharmaceutical applications[J].Journal of African Earth Sciences,2017,135:186-203.
[3]Ling R,Peng Z.Effect of attapulgite on the rheological properties of polyvinyl alcohol solutions by steady shearing[J].Polymer Materials Science&Engineering,2011,27(7):38-41.
[4]Baltar C A M,Luz A B D,Baltar L M,et al.Influence of morphology and surface charge on the suitability of palygorskite as drilling fluid[J].Applied Clay Science,2009,42(3):597-600.
[5]Habert G,Choupay N,Escadeillas G.Clay content of argillites:Influence on cement based mortars[J].Applied Clay Science,2009,43(3):322-330.
[6]Murray H H.Traditional and new applications for kaolin,smectite,and palygorskite:a general overview[J].Applied Clay Science,2000,17(5):207-221.
[7]王玉倩,潘钢华,张菁燕.凹凸棒石粘土在建材中的应用研究[J].硅酸盐通报,2010,29(6):1353-1357.
[8]邵俊丰.纳米凹凸棒石粘土对水泥基材料物理力学及耐久性影响研究[D].大连:大连海事大学,2017.
[9]Tregger N A,Pakula M E,Shah S P.Influence of clays on the rheology of cement pastes[J].Cement&Concrete Research,2010,40(3):384-391.
[10]Lindgreen H,Geiker M,Kryer H,et al.Microstructure engineering of Portland cement pastes and mortars through addition of ultrafine layer silicates[J].Cement&Concrete Composites,2008,30(8):686-699.
[11]潘钢华,夏艺,孙伟,等.煅烧凹凸棒石粘土对干拌砂浆性能影响机理的研究[J].混凝土,2006(10):17-20.
[12]张国防,王培铭,赵建斌,等.一种干混砂浆用保水增稠材料及其应用[P].中国专利:CN104003646A,2014-08-27.
[13]Kim J H,Beacraft M,Shah S P.Effect of mineral admixtures on formwork pressure of self-consolidating concrete[J].Cement&Concrete Composites,2010,32(9):665-671.
[14]Kawashima S,Chaouche M,Corr D J,et al.Rate of thixotropic rebuilding of cement pastes modified with highly purified attapulgite clays[J].Cement&Concrete Research,2013,53(11):112-118.
[15]曲美燕.掺纳米层状材料的水泥稳定碎石抗裂性能研究[D].南京:东南大学,2015.
[16]韩静云,顾兴东.凹凸棒石粘土在水下不分散混凝土中应用的探索试验[J].非金属矿,2000,23(5):26-28.
[17]詹炳根,林兴胜,陈婷.PVA纤维增强高性能水泥基材料的韧性[J].合肥工业大学学报:自然科学版,2007,30(9):1178-1182.
[18]冯启明.利用凹凸棒石粘土生产干燥剂的试验研究[J].矿产保护与利用,1995(3):27-29.
[19]邓最亮,郑柏存,傅乐峰.凹凸棒石改性水泥基材料自调湿性能研究[J].非金属矿,2007,30(4):27-30.
[20]孙璐,朱浩然,辛宪涛,等.纳米改性沥青制备和路用性能研究[J].中国公路学报,2013,26(1):15-22.
[21]谭彦卿,金娇,郑健龙,等.有机改性膨润土制备及其用于改性沥青的研究进展[J].硅酸盐通报,2017,36(8):2636-2641.
[22]Liu P,Wang H,Pan C.Surface organo-functionalization of palygorskite nanorods withγ-mercaptopropyltrimethoxysilane[J].Applied Clay Science,2018,159:37-41.
[23]王有朋,何小荣,韩建军,等.坡缕石的有机改性及其在改性沥青中的应用研究[J].非金属矿,2010,33(5):43-44.
[24]孟文专.冷补沥青混合料的制备及改良[D].武汉:武汉工程大学,2012.
[25]Zhang J,Wang J,Wu Y,et al.Preparation and properties of organic palygorskite SBR/organic palygorskite compound and asphalt modified with the compound[J].Construction&Building Materials,2008,22(8):1820-1830.
[26]马全红,邢雪婷,许雪松,等.冷补沥青混合料的制备及其性能分析[J].东南大学学报(自然科学版),2016,46(3):594-598.
[27]Sun Y,Zhang Y,Xu K,et al.Thermal,mechanical properties,and low-temperature performance of fibrous nanoclay-reinforced epoxy asphalt composites and their concretes[J].Journal of Applied Polymer Science,2015,132(12):41694.
[28]孙一帆.环氧沥青/纳米粘土复合物的性能研究[D].南京:南京大学,2016.
[29]Liu P.Hyperbranched aliphatic polyester grafted attapulgite via a melt polycondensation process[J].Applied Clay Science,2007,35(1):11-16.
[30]金叶玲,钱运华,陈静,等.凹凸棒石粘土在双组分聚氨酯涂料中的应用[J].应用化工,2005,34(10):601-603.
[31]刘允超.一种凹凸棒建筑墙面塑型装饰腻子及其制备方法[P].中国专利:CN105086562A,2015-11-25.
[32]程晟,王群英,熊君山,等.改性凹凸棒土作为隔热单元的新型水性隔热外墙涂料的制备[J].新型建筑材料,2010,37(6):85-88.
[33]A6taghzzaf A,Rhouta B,Rocca E,et al.Grafted palygorskite as containers of heptanoate for corrosion protection of steel in Na Cl medium[J].Corrosion Science,2017,114:88-95.
[34]Zhou L,Xu S,Zhang G,et al.A facile approach to fabricate self-cleaning paint[J].Applied Clay Science,2016,132-133:290-295.
[35]周伟,钱运华.纳米Ti O2/凹凸棒土复合材料的制备及其光催化涂料[J].化工新型材料,2014(4):50-52.
[36]许庆华,许盛英,袁长兵,等.具有净化空气功能的凹凸棒彩色涂料粉[P].中国专利:CN105272055A,2016-01-27
[37]仇志铭.凹凸棒土对矿棉吸声板性能影响分析[J].新型建筑材料,2007,34(10):60-62.
[38]李学东,许庆华,许盛英,等.凹凸棒粉煤灰保温砖[P].中国专利:CN102863256A,2013-01-09.
[39]张爱民.一种以碎玻璃为基质的加气砖及其加工方法[P].中国专利:CN102887672A,2013-01-23.
[40]任劲松.一种矿渣加气砖及其制作方法[P].中国专利:CN103833304A,2014-01-14.
[41]许庆华,袁欣,许盛英,等.免烧凹凸棒发泡吸音板[P].中国专利:CN103556740A,2014-02-05.
[42]陆玉,陆洪彬,唐伟,等.改性凹凸棒土制备新型柔性饰面砖保温隔热性能的研究[J].新型建筑材料,2014,41(3):56-59.