|Table of Contents|

Study on Influence of limestone powder on compressive properties and hydration heat of C60 concrete(PDF)

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

Issue:
2024年05期
Page:
123-130
Research Field:
建筑材料
Publishing date:

Info

Title:
Study on Influence of limestone powder on compressive properties and hydration heat of C60 concrete
Author(s):
HUANG Xiantao12 SHEN Bo12 WU Hongmei12 DENG Mao12 CHEN Song12 XIE Qingqing12
(1. Research Center of Space Structures, Guizhou University, Guiyang 550025, Guizhou, China; 2. Key Laboratory of Structural Engineering of Guizhou Province, Guizhou University, Guiyang 550025, Guizhou, China)
Keywords:
limestone powder compressive strength hydration heat specific surface area cementitious system
PACS:
TU528.31
DOI:
10.19815/j.jace.2022.06093
Abstract:
In order to study the influence of limestone powder content on the mechanical properties and hydration heat of C60 high-strength concrete, the experiment was carried out to analyze the mechanical properties and hydration heat release of high-strength concrete with different specific surface areas and contents of limestone powder. The results show that the addition of limestone powder can effectively improve the compressive strength of concrete, and the increase range is between 1.3% and 19.3%. The improvement of concrete compressive strength is the most obvious under the limestone powder specific surface area is 6 000 cm2·g-1 and the content is 5%-15%. Since the activity of stone powder is much lower than that of cement, with the increase of limestone powder content, the total heat release of cementitious system gradually decreases and the time-hydration heat release rate curve shifts to the left, among which the hydration rate of S15-6000 group concrete is the fastest in the early stage. No newly generated phase is detected in the hydration product of cementitious system with the addition of limestone powder. When limestone powder content is 15%, the peak strength of Ca(OH)2 reaches the highest and meanwhile generates a large amount of C-S-H gel. The reason is that the addition of limestone powder has a dilution effect, and the increase of the water-binder ratio of cementitious system makes the cement obtain sufficient water during hydration. In addition, 15% limestone powder content provides the best calcium content for the cementitious system to further promote hydration. The formation of a large amount of C-S-H gel provides a guarantee for the development of compressive strength of S15-6000 group concrete, and the group can make full use of limestone powder to a greater extent.

References:

[1] 杜正伟,梁韵婕,郑义文,等.高强混凝土的应用和发展趋势[J].建材与装饰,2018(33):54-55.
DU Zhengwei,LIANG Yunjie,ZHENG Yiwen,et al.Application and development trend of high strength concrete[J].Construction Materials & Decoration,2018(33):54-55.
[2]陈家珑.人工砂-新型建筑用砂[J].新型建筑材料,2002,29(6):32-34.
CHEN Jialong.Artificial sand-new building sand[J].New Building Materials,2002,29(6):32-34.
[3]RYU H G,WOO J K.An analysis on concrete properties with the fineness of waste limestone[J].Korean Society of Biological Engineering,2007,7(1):458-463.
[4]王旭昊,甘 珑,余海洋,等.石粉含量对C45凝灰岩机制砂混凝土性能的影响[J].硅酸盐通报,2021,40(3):775-783,820.
WANG Xuhao,GAN Long,YU Haiyang,et al.Effect of stone powder content on properties of C45 tuff manufactured sand concrete[J].Bulletin of the Chinese Ceramic Society,2021,40(3):775-783,820.
[5]刘 凯,张海政,宋正林,等.高石粉机制砂C60自密实混凝土的制备与应用[J].混凝土,2019(11):141-144,148.
LIU Kai,ZHANG Haizheng,SONG Zhenglin,et al.Preparation and application of C60 self-compacting concrete using manufactured sand with high content stone powder[J].Concrete,2019(11):141-144,148.
[6]王远春.高石粉机制砂C60自密实混凝土的制备与应用[J].绿色环保建材,2020,25(5),18,21.
WANG Yuanchun.Preparation and application of C60 self-compacting concrete with high stone powder machine-made sand[J].Green Building Materials,2020,25(5):18,21.
[7]杨 方,申 波,李友彬,等.基于正交试验C70山砂混凝土的配和比设计[J].贵州大学学报(自然科学版),2020,37(4):93-98.
YANG Fang,SHEN Bo,LI Youbin,et al.The mix design of C70 rock sand concrete based on orthogonal experiment[J].Journal of Guizhou University(Natural Sciences),2020,37(4):93-98.
[8]ZHANG X Z,HAN C S,YIN X.Influence of limestone powder on performance of the pre-mixed cement mortar[J].Advanced Materials Research,2011,306-307:1096-1100.
[9]刘 强,都增延,丁华柱,等.机制砂石粉含量对高强混凝土性能的影响[J].四川建材,2018,44(6):15-16.
LIU Qiang,DU Zengyan,DING Huazhu,et al.Effect of the content of machine-made sand and gravel powder on the properties of high-strength concrete[J].Sichuan Building Materials,2018,44(6):15-16.
[10]HYUN J,LEE B,KIM Y.Composite properties and micromechanical analysis of highly ductile cement composite incorporating limestone powder[J].Applied Sciences,2018,8(2):151.
[11]张兰芳,岳 瑜.磨细石灰石粉配制超早强、高强混凝土[J].混凝土,2010(10):107-108,117.
ZHANG Lanfang,YUE Yu.Study on high-strength concrete made with fine limestone powder[J].Concrete,2010(10):107-108,117.
[12]SONG S M,LIU J H,WANG L.Effects of ultra-fine limestone powder on workability and strength of high strength concrete[J].Advanced Materials Research,2010,152-153:212-217.
[13]肖 斐,崔洪涛,陈剑雄,等.超磨细石灰石粉高强混凝土的研究[J].硅酸盐通报,2010,29(6):1303-1307.
XIAO Fei,CUI Hongtao,CHEN Jianxiong,et al.Study on high strength concrete containing ultra-fine limestone powder[J].Bulletin of the Chinese Ceramic Society,2010,29(6):1303-1307.
[14]ZHU P F,YANG G H,JIANG L H,et al.Influence of high-volume limestone powder on hydration and microstructural development of cement[J].Advances in Cement Research,2021,33(5):197-209.
[15]彭艳周,魏 亮,刘冬梅,等.高石粉含量水工混凝土干缩与微观结构的试验研究[J].水电能源科学,2018,36(5):83-86.
PENG Yanzhou,WEI Liang,LIU Dongmei,et al.Experimental study on dry shrinkage and microstructure of hydraulic concrete with high stone powder content[J].Water Resources and Power,2018,36(5):83-86.
[16]管明杰,鲁 瑶,张钰烨,等.石粉的含量对混凝土早期收缩的影响试验研究[J].中国高新区,2018(2):191.
GUAN Mingjie,LU Yao,ZHANG Yuye,et al.Experimental study on the influence of stone powder content on early shrinkage of concrete[J].Science & Technology Industry Parks,2018(2):191.
[17]何彦琪,蒋 震,陈 凯,等.石灰石粉对水泥水化及C-S-H成核的动力学影响[J].硅酸盐通报,2018,37(8):2531-2535,2542.
HE Yanqi,JIANG Zhen,CHEN Kai,et al.Dynamic influence of ground limestone on cement hydration and the nucleation of C-S-H[J].Bulletin of the Chinese Ceramic Society,2018,37(8):2531-2535,2542.
[18]LIU S H,GAO Z Y,RAO M J.Study on the ultra high performance concrete containing limestone powder[J].Advanced Materials Research,2011,250-253:686-689.
[19]JIANG D B,LI X G,LV Y,et al.Utilization of limestone powder and fly ash in blended cement:rheology,strength and hydration characteristics[J].Construction and Building Materials,2020,232:117228.
[20]普通混凝土拌合物性能试验方法:GB/T 50080—2016[S].北京:中国建筑工业出版社,2016.
Test methods for properties of ordinary concrete mixtures:GB/T 50080—2016[S].Beijing:China Architecture & Building Press,2016.
[21]水泥水化热测定方法:GB/T 12959—2008[S].北京:中国标准出版社,2008.
Test methods for heat of hydration of cement:GB/T 12959—2008[S].Beijing:Standards Press of China,2008.
[22]BABAEE M,KHAN M S H,CASTEL A.Passivity of embedded reinforcement in carbonated low-calcium fly ash-based geopolymer concrete[J].Cement and Concrete Composites,2018,85:32-43.
[23]申爱琴,郭寅川.水泥与水泥混凝土[M].2版.北京:人民交通出版社,2019.
SHEN Aiqin,GUO Yinchuan.Cement and concrete[M].2nd ed.Beijing:China Communications Press,2019.
[24]肖 佳,勾成福,金勇刚,等.CaCO3对硅酸三钙水化性能的影响[J].中南大学学报(自然科学版),2010,41(5):1894-1899.
XIAO Jia,GOU Chengfu,JIN Yonggang,et al.Effects of CaCO3 on hydration performance of C3S[J].Journal of Central South University(Science and Technology),2010,41(5):1894-1899.

Memo

Memo:
-
Last Update: 2024-09-30