马士宾¹,蒋佳俊¹,周文强²,梁 栋¹,杨林森¹

（1. 河北工业大学土木与交通学院,天津300401;2. 广州亚泰建筑设计院有限公司,江苏无锡214000）

引用格式：马士宾,蒋佳俊,周文强,等.基于CT技术的预填骨料混凝土孔隙结构特征[J].中国粉体技术,2023,29(3)：47-62.

MA S B,JIANG J J,ZHOU W Q,et al.Pore structure characteristics of prefilled aggregate concrete based on CT technology[J].China Powder Science and Technology,2023,29(3)：47-62.

DOI：10.13732/j.issn.1008-5548.2023.03.005

收稿日期： 2022-10-11,修回日期：2022-12-08，在线出版时间：2023-04-11：09：46。

基金项目：国家自然科学基金项目,编号：51978236;天津市交通运输科技发展计划项目,编号：2022-01。

第一作者简介：马士宾(1973—),男,教授,博士,硕士生导师,研究方向为路基路面材料以及桥梁施工。E-mail：marotolo@hebut.edu.cn。

摘要： 预填骨料混凝土(PAC)由于独特的生产工艺,致使内部容易产生孔隙,进而影响PAC的宏观性能。为考察PAC孔隙率及孔隙形态等细观结构对PAC宏观力学性能的影响,对不同级配的PAC进行抗压强度和抗弯拉强度实验,运用CT(computed tomography)技术对试件进行扫描,利用计算机图像处理技术和三维可视化模型,分别进行二维、三维层面的孔隙结构特征差异分析,通过灰色关联法探究细观结构的特征参数对PAC宏观力学强度的影响程度。结果表明：PAC早期抗弯拉强度发展比较快,且不同的级配对PAC抗弯拉强度有一定影响;孔隙平均球度、平均紧密度与孔隙大小等参数的灰色关联度在0.8以上,对强度发展关系密切,其中孔径大小对强度影响最大。

关键词： 预填骨料混凝土;力学性能;孔隙结构;计算机断层扫描

Abstract：Prefilled aggregate concrete (PAC) is easy to produce pores because of its unique production process,which affects its macro performance.In order to investigate the influence of microstructures such as porosity and pore morphology of PAC on its macroscopic mechanical properties,the compressive strength and flexural and tensile strength tests of PAC with different levels were carried out first,and then the specimens were scanned by CT(computed tomography) technology.Based on the computer image processing technology and three-dimensional visualization model,the difference analysis of pore structure characteristics in two and three dimensions was carried out,and the influence of the characteristics parameters of PAC microstructure on its macroscopic mechanical strength was explored by the grey correlation method.The results show that the flexural and tensile strength of PAC develops rapidly in the early stage,and different stages have certain effects on the flexural and tensile strength of PAC.The gray correlation degree between pore size and mean pore sphericity is above 0.8,which has a close relationship with strength development,and pore size has the greatest influence on strength.

Keywords：preplaced aggregate concrete;mechanical properties;pore structure;computed tomography

参考文献(References)：

[1]NAJJAR M F,NEHDI M L ,SOLIMAN A M,et al.Damage mechanisms of two-stage concrete exposed to chemical and physical sulfate attack[J].Construction and Building Materials,2017,137：141-152.

[2]CHENG Y H,LIU S,ZHU B L,et al.Preparation of preplaced aggregate concrete and experimental study on its strength[J].Construction and Building Materials,2019,229(C)：116847.

[3]ABDELGADER H,FEDIUK R,KURPINSKA M,et al.Mechanical properties of two-stage concrete modified by silica fume[J].Magazine of Civil Engineering,2019(89)：26-38.

[4]LI P P,YU Q L,BROUWERS H J H,et al.Conceptual design and performance evaluation of two-stage ultra-low binder ultra-high performance concrete[J].Cement and Concrete Research,2019,125(C)：105858.

[5]COO M,PHEERAPHAN T.Effect of sand,fly ash,and coarse aggregate gradation on preplaced aggregate concrete studied through factorial design[J].Construction and Building Materials,2015,93：812-821

[6]COO M,PHEERAPHAN T.Effect of sand,fly ash and limestone powder on preplaced aggregate concrete mechanical properties and reinforced beam shear capacity[J].Construction and Building Materials,2016,120：581-592.

[7]RAJABI A M,MOAF F O,ABDELGADER H S.Evaluation of mechanical properties of two-stage concrete and conventional concrete using nondestructive tests[J].Journal of Materials in Civil Engineering,2020,32(7)：04020185.

[8]XU L,HUANG Y F.Effects of voids on concrete tensile fracturing：a mesoscale study[J].Advances in Materials Science and Engineering,2017,2017：1-14.

[9]LIU T J,QIN S S,ZOU D J,et al.Mesoscopic modeling method of concrete based on statistical analysis of CT images[J].Construction and Building Materials,2018,192：429-441.

[10]杨佑升.水泥混凝土微观结构对抗压强度的影响[J].公路工程,2009,34(4)：151-154.

YANG Y S.Relationship between pore structure of concrete and its frost durability degradation[J].Highway Engineering,2009,34(4)：151-154.

[11]KANG S H,HONG S G,MOON J.The effect of superabsorbent polymer on various scale of pore structure in ultra-high performance concrete[J].Construction and Building Materials,2018,172：29-40.

[12]任文渊,杨贞军,黄宇劼.基于X射线计算断层扫描图像的混凝土细观断裂模拟[J].水利学报,2015,46(4)：452-459.

REN W Y,YANG Z J,HUANG Y J.Simulation of concrete meso-fracture based on X-ray computed tomography images[J].Journal of Hydraulic Engineering,2015,46(4)：452-459.

[13]郝景宏,姜袁,梅世强,等.基于X射线CT的混凝土内部裂纹识别研究[J].混凝土,2010(10)：44-47.

HAO J H,JIANG Y,MEI S Q,et al.Dentification of crack in concrete interior based on X-ray CT[J].Concrete,2010(10)：44-47.

[14]VICENTE M A,GONZALEZ D C,MINGUEZ J.Recent advances in the use of computed tomography in concrete technology and other engineering fields[J].Micron,2019,118：22-34.

[15]VICENTE M A,GONZALEZ D C,MINGUEZ J,et al.Influence of the pore morphology of high strength concrete on its fatigue life[J].International Journal of Fatigue,2018,112：106-116.

[16]ZOU C,LONG G C,ZENG X H,et al.Hydration and multiscale pore structure characterization of steam-cured cement paste investigated by X-ray CT[J].Construction and Building Materials,2021,282：122629.

[17]YU F,SUN D Q,HU M J,et al.Study on the pores characteristics and permeability simulation of pervious concrete based on 2D/3D CT images[J].Construction and Building Materials,2019,200：687-702.

[18]DU S Z,ZHANG Y,ZHANG J,et al.Study on pore characteristics of recycled aggregate concrete mixed with glazed hollow beads at high temperatures based on 3-D reconstruction of computed tomography images[J].Construction and Building Materials,2022,323：126564.

[19]交通运输部公路科学研究院.公路工程水泥及水泥混凝土试验规程：JTG E 30—2005 [S].北京：人民交通出版社,2005.

Research Institute of Highway Ministry of Transport.Test methods of cement and concrete for highway engineering：JTG E 30—2005[S].Beijing：China Standard Press,2005.

[20]李磊,王茹,武雪杉,等.HPMC对铝酸盐水泥-石膏二元胶凝体系砂浆性能的影响[J].建筑材料学报,2022,25(4)：415-423.

LI L,WANG R,WU X S,et al.Effect of hydroxypropy methy cellulose on aluminate cement-gypsum mortar[J].Journal of Building Materials,2022,25(4)：415-423.

[21]陈洁静,秦拥军,肖建庄,等.基于CT技术的掺锂渣再生混凝土孔隙结构特征[J].建筑材料学报,2021,24(6)：1179-1186.

CHEN J J,QIN Y J,XIAO J Z,et al.Pore structure characteristics of recycled concrete with lithium slag based on CT technology[J].Journal of Building Materials,2021,24(6)：1179-1186.

[22]葛竞成.养护制度对轻质超高性能混凝土微观结构的影响机理[D].合肥：安徽建筑大学,2021.

GE J C.Influence mechanism of curing system on microstructure of lightweight UHPC[D].Hefei：Anhui Jianzhu University,2021.

[23]尹文强.基于孔隙结构特征的高岩温下喷射混凝土力学性能研究[D].邯郸：河北工程大学,2021.

YIN W Q.Study on mechanical properties of shotcrete under high rock temperature based on pore structure characteristics[D].Handan：Hebei University of Engineering,2021.

[24]梁宁慧,任联玺,周侃,等.聚丙烯粗纤维对泵送混凝土性能的影响及灰色关联分析[J].硅酸盐通报,2022,41(1)：88-99.

LIANG N H,REN L X,ZHOU K,et al.Influence of coarse polypropylene fiber on performance of pumping concrete and grey correlation analysis[J].Bulletin of the Chinese Cermic Society,2022,41(1)：88-99.