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《建筑科学与工程学报》[ISSN:1673-2049/CN:61-1442/TU]

Issue:

2023年02期

Page:

150-159

Research Field:

岩土工程

Publishing date:

Info

Title:

Swelling and shrinkage characteristics of high content phosphogypsum stabilized red clay

Author(s):

CHEN Kaisheng;  LUO Dipu;  HU Xing

(College of Civil Engineering, Guizhou University, Guiyang 550025, Guizhou, China)

Keywords:

improved soil;  phosphogypsum;  cement;  red clay;  swelling and shrinkage characteristic

PACS:

TU446

DOI:

10.19815/j.jace.2021.11002

Abstract:

In order to study the swelling and shrinkage deformation characteristics of high content phosphogypsum stabilized red clay, changing the previous research idea of using phosphogypsum and cement as external stabilizer to improve soil, phosphogypsum and red clay were used as main raw materials, the specimens with the cement content of 5% and the ratio of phosphogypsum to red clay 1:1, 1:2 and 1:3 were made. The swelling and shrinkage deformation characteristics of plain red clay and phosphogypsum stabilized red clay under different water content and compaction degree were carried out. The results show that the absolute expansion rate of plain red clay increases linearly in 0-3 h, and reaches stable after 3 h. The absolute expansion rate of phosphogypsum stabilized red clay slowly increases in 0-3 h, and the deformation is less than that of plain red clay. After 3 h, the deformation of phosphogypsum stabilized red clay continues to increase, and exceeds that of plain red clay in about 2 d, showing greater expansibility, and the expansion stability time is about 10 d. The absolute expansion rate of phosphogypsum cement-stabilized red clay mixture has a lag effect compared with the expansion deformation of plain red clay. The addition of phosphogypsum and cement can effectively reduce the expansion deformation of the mixture in the early stage, and under the same water content, the lower the content of phosphogypsum, the greater the absolute expansion rate. The lower the initial water content of phosphogypsum stabilized red clay, the greater the absolute expansion rate. The linear shrinkage of phosphogypsum stabilized red clay and plain red clay increases with the increase of water content and compaction degree. The horizontal shrinkage increases with the increase of water content and decreases with the increase of compaction degree. At the same moisture content and compaction, the linear shrinkage of phosphogypsum cement stabilized red clay is greater than that of plain red clay, and the horizontal shrinkage is less than that of plain red clay. The 7 d unconfined compressive strength of high content phosphogypsum stabilized red clay can meet the requirements of the specification for the strength of cement stabilized materials for the subbase of class II and below highways, but its expansion deformation is large and the stability time is long. It is suggested that further research should be carried out to reduce the expansion deformation of cement phosphogypsum stabilized red clay by adding additives.

References:

[1] 周 昊.干湿循环下红黏土力学特性及边坡稳定性研究[D].北京:北京交通大学,2019.
ZHOU Hao.Research on the mechanical properties of red clay and slope stability under dry-wet cycle[D].Beijing:Beijing Jiaotong University,2019.
[2]孔令伟,陈正汉.特殊土与边坡技术发展综述[J].土木工程学报,2012,45(5):141-161.
KONG Lingwei,CHEN Zhenghan.Advancement in the techniques for special soils and slopes[J].China Civil Engineering Journal,2012,45(5):141-161.
[3]龙安发,陈开圣,季永新.不同降雨强度下红黏土边坡干湿循环试验研究[J].岩土工程学报,2019,41(增2):193-196.
LONG Anfa,CHEN Kaisheng,JI Yongxin.Experimental study on wetting-drying cycles of red clay slopes under different rainfall intensities[J].Chinese Journal of Geotechnical Engineering,2019,41(S2):193-196.
[4]蒋 洪,蒋 浩,陈开圣,等.江西省红粘土公路边坡病害调查[J].贵州大学学报(自然科学版),2019,36(6):109-113.
JIANG Hong,JIANG Hao,CHEN Kaisheng,et al.Investigation of red clay highway's slope damages in Jiangxi Province[J].Journal of Guizhou University(Natural Sciences),2019,36(6):109-113.
[5]蒋 浩,陈开圣.干湿循环下红黏土路堤边坡稳定性分析方法研究[J].贵州大学学报(自然科学版),2019,36(6):104-108.
JIANG Hao,CHEN Kaisheng.Study on stability evaluation method of red clay slope[J].Journal of Guizhou University(Natural Sciences),2019,36(6):104-108.
[6]徐雪源,徐玉中,陈桂松,等.工业废料磷石膏的工程特性试验研究[J].岩石力学与工程学报,2004,23(12):2096-2099.
XU Xueyuan,XU Yuzhong,CHEN Guisong,et al.Testing study on engineering characteristics of phosphogypsum[J].Chinese Journal of Rock Mechanics and Engineering,2004,23(12):2096-2099.
[7]PARREIRA A B,KOBAYASHI A R K,SILVESTRE O B J.Influence of Portland cement type on unconfined compressive strength and linear expansion of cement-stabilized phosphogypsum[J].Journal of Environmental Engineering,2003,129(10):956-960.
[8]RASHAD A M.Phosphogypsum as a construction material[J].Journal of Cleaner Production,2017,166:732-743.
[9]沈卫国,姜 舰,张 丽,等.磷石膏改性二灰路面基层材料的性能研究[J].公路,2008,53(1):141-145.
SHEN Weiguo,JIANG Jian,ZHANG Li,et al.A study on properties of phosphogypsum modificated lime-flyash road base materials[J].Highway,2008,53(1):141-145.
[10]CORUH S,ERGUN O N.Use of fly ash,phosphogypsum and red mud as a liner material for the disposal of hazardous zinc leach residue waste[J].Journal of Hazardous Materials,2010,173(1/2/3):468-473.
[11]SINGH M.Treating waste phosphogypsum for cement and plaster manufacture[J].Cement and Concrete Research,2002,32(7):1033-1038.
[12]查 进,周明凯,沈卫国.水泥稳定磷渣碎石基层材料的研究[J].公路,2004,49(12):186-189.
ZHA Jin,ZHOU Mingkai,SHEN Weiguo.A study on basecourse of cement stabilizing phosphorous slag and gravel[J].Highway,2004,49(12):186-189.
[13]COCHRANE B,REICHERT J M,ELTZ F,et al.Controlling soil erosion and runoff with polyacrylamide and phosphogypsum on subtropical soil[J].Transactions of the ASABE,2005,48:149-154.
[14]黄 新,胡同安.水泥-废石膏加固软土的试验研究[J].岩土工程学报,1998,20(5):72-76.
HUANG Xin,HU Tongan.On stabilization of soft soil with waste gypsum and cement[J].Chinese Journal of Geotechnical Engineering,1998,20(5):72-76.
[15]荀 勇.含工业废料的水泥系固化剂加固软土试验研究[J].岩土工程学报,2000,22(2):210-213.
XUN Yong.Test on strengthening soft soil with cementatory solidifying agent containing industrial waste[J].Chinese Journal of Geotechnical Engineering,2000,22(2):210-213.
[16]徐雪源.磷石膏及其混合料的工程特性研究[D].南京:河海大学,2005.
XU Xueyuan.A study on engineering characteristics of phosphogypsum and its mixtures[D].Nanjing:Hohai University,2005.
[17]尚思伯.水泥/石灰改良黄土及工程应用试验研究[D].西安:长安大学,2017.
SHANG Sibo.Experimental study on cement/lime modified loess and its engineering application[D].Xi'an:Chang'an University,2017.
[18]王 岩.酸性环境下红黏土工程特性变化规律及化学作用机制研究[D].成都:西南交通大学,2020.
WANG Yan.Study on engineering charateristics and chemical mechanism of red clay under acid environment[D].Chengdu:Southwest Jiaotong University,2020.
[19]章李坚.膨胀土膨胀性与收缩性的对比试验研究[D].成都:西南交通大学,2014.
ZHANG Lijian.Experimental research for comparing swelling and shrinkage of expansive soil[D].Chengdu:Southwest Jiaotong University,2014.
[20]崔雪雪.干湿循环条件下川中红层软岩崩解特性与微观机理分析[D].淮南:安徽理工大学,2019.
CUI Xuexue.Analysis of disintegration characteristics and microscopic mechanism of red bed soft rock in central Sichuan Province under dry-wet cycle[D].Huainan:Anhui University of Science & Technology,2019.
[21]刘奔放.强弱膨胀土胀缩变形特性的试验研究[D].成都:西南交通大学,2018.
LIU Benfang.Experimental study on swelling and shrinkage deformation characteristics of strong and weak expansive soils[D].Chengdu:Southwest Jiaotong University,2018.

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Last Update: 2023-03-20