[1]黄炎林,周 安. 玻璃粉细骨料混凝土力学性能研究[J].湖北工业大学学报,2021,(4):79-84.
 HUANG Yanlin,ZHOU An. Study on Mechanical Properties of Concrete with Glass Powder as Fine Aggregate[J].,2021,(4):79-84.
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 玻璃粉细骨料混凝土力学性能研究()
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《湖北工业大学学报》[ISSN:1003-4684/CN:42-1752/Z]

卷:
期数:
2021年第4期
页码:
79-84
栏目:
湖北工业大学学报
出版日期:
2021-08-26

文章信息/Info

Title:
 Study on Mechanical Properties of Concrete with Glass Powder as Fine Aggregate
文章编号:
1003-4684(2021)04-0079-06
作者:
 黄炎林 周 安
 湖北工业大学土木建筑与环境学院, 湖北 武汉 430068
Author(s):
 HUANG Yanlin ZHOU An
 School of Civil Engin., Architecture and Environment,Hubei Univ.of Tech.,Wuhan 430068,China
关键词:
 玻璃粉细骨料 力学性能 本构方程 主成份分析
Keywords:
 glass powder fine aggregate mechanical properties constitutive equation principal component analysis
分类号:
TU528
文献标志码:
A
摘要:
 为探讨玻璃粉替代河沙对混凝土力学性能的影响, 设计了90个试件, 通过混凝土基本力学试验, 研究玻璃粉替代率从0增加到50%时, 玻璃粉细骨料混凝土坍落度、 细度模数、 抗压强度、 劈裂拉伸强度和静压弹性模量的变化趋势, 并分析玻璃粉细骨料混凝土应力-应变本构方程和基于主成份分析法的综合性能。 结果表明:随着玻璃粉替代率的增加, 玻璃粉细骨料混凝土的细度模数和坍落度不断降低, 当替代率为30%时, 坍落度为13.7 cm;立方体抗压强度、 轴心抗压强度和劈裂拉伸强度呈先上升后下降再增加的趋势;弹性模量呈先上升后下降的趋势;玻璃粉细骨料混凝土的应力-应变全过程曲线和普通混凝土类似, 其本构方程计算结果和试验数据基本吻合;玻璃粉替代率为30%时, 主成份分析的综合得分高于普通混凝土, 玻璃粉细骨料混凝土的抗压性能和抗拉性能较佳, 具有实际应用价值。
Abstract:
 In order to explore the influence of glass powder instead of river sand on the mechanical properties of concrete, 90 specimens were designed for the experiment; Through the basic mechanical test of concrete, the slump, fineness modulus, compressive strength, split tensile strength and static elastic modulus of glass powder fine aggregate concrete are studied when the glass powder replacement rate increases from 0 to 50%. The change trend of the quantity, and the stress-strain constitutive equation of glass powder fine aggregate concrete and the comprehensive performance based on principal component analysis method are analyzed. The results show that with the increase of glass powder replacement rate, the fineness modulus and slump of glass powder fine aggregate concrete continue to decrease. When the replacement rate is 30%, the slump is 13.7cm; the cubic compressive strength, the axial compressive strength and split tensile strength show a trend of increasing first, then decreasing and then increasing; the elastic modulus shows a trend of increasing first and then decreasing; The stress-strain curve of glass powder fine aggregate concrete is similar to that of ordinary concrete, and the calculation results of the constitutive equation are basically consistent with the experimental data; When the glass powder replacement rate is 30%, the comprehensive score of the principal component analysis is higher than that of ordinary concrete, and the glass powder fine aggregate concrete has better compressive and tensile properties, which has practical application value.

参考文献/References:

[1] 曾超,甘元初,柯国军, 等.废玻璃粉混凝土力学性能试验研究[J].硅酸盐通报,2014,33(2):377-381.
[2] 徐美君.国际国内废玻璃的回收与利用(下)[J].建材发展导向,2007(3):55-59.
[3] 赫文秀.废玻璃细骨料混凝土试验研究[J].硅酸盐通报,2016,35(5):1647-1651.
[4] KHMIRI A, CHAABOUNI M, SAMET B. Chemical behaviour of ground waste glass when used as partial cement replacement in mortars[J]. Construction and Building Materials,2013, 44:74-80.
[5] 宁宝宽,张俊祥,孟晋, 等.废玻璃粉-尾矿砂混凝土的强度试验研究[J].矿产综合利用,2015(3):69-72+54.
[6] KARAMBERI A, MOUTSATSOU A. Participation of coloured glass cullet in cementitious materials. 2004, 27(2):319-327.
[7] HYEONGI LEE,ASAD HANIF,MUHAMMAD USMAN,et al. Performance evaluation of concrete incorporating glass powder and glass sludge wastes as supplementary cementing material[J]. Journal of Cleaner Production, 2018,170: 683-693.
[8] 杨震,李雪,高海杰, 等.废玻璃粉再生细骨料混凝土的性能研究[J].山西建筑,2019,45(5):85-86.
[9] 赫文秀.废玻璃细骨料混凝土试验研究[J].硅酸盐通报,2016,35(5):1647-1651.
[10] WANG H. A study of the effects of LCD glass sand on the properties of concrete[J].Waste Management,2008,29(1):335-341.
[11] MUKESH C. LIMBACHIYA. Bulk engineering and durability properties of washed glass sand concrete[J]. Construction and Building Materials, 2008,23(2) :1078-1083.
[12] EZ -ZAKI H, EL GHARBI B,DIOURI A.Development of eco-friendly mortars incorporating glass and shell powders[J].Construction and Building Materials,2018(159):198-204.
[13] 何正华.废玻璃粉掺合料对砂浆气体渗透性和力学特性的影响研究[D].湖北:湖北工业大学,2019.
[14] 曾三海,王光辉,笔杆旭光.轻骨料混凝土配合比设计的试验研究[J].新型建筑材料,2013,40(10):55-57+76.
[15] 李志强,王国庆,杨森, 等.玻璃粉混凝土力学性能及应力[CD*2/3]应变本构关系试验研究[J].应用力学学报,2019,36(5):1131-1137+1261.
[16] 过振海,时旭东.钢筋混凝土原理和分析[M].北京:清华大学出版社,2003:27-30. 
[17] 宇传华.SPSS与统计分析[M].北京:电子工业出版社,2006:491-493.
[18] 汪海东,曾志兴.基于主成份分析法的高性能再生混凝土性能优化设计[J].混凝土,2011(4):51-53.
[19] 司守奎,数学建模算法与应用[M].2版.北京:国防工业出版社,2019:231-232.
[20] 赵双权,毛明杰,张文博, 等.基于主成份分析的粉煤灰细骨料混凝土最优配合比研究[J].混凝土,2017(8):104-106.
[21] 陈晓梅,王文华.混杂纤维轻骨料混凝土配合比优选研究[J].混凝土与水泥制品,2016(9):44-47.

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备注/Memo

备注/Memo:
[收稿日期] 2020-10-29
[第一作者] 黄炎林(1992-), 男, 河南信阳人,湖北工业大学硕士研究生,研究方为新材料力学性能
[通信作者] 周 安(1983-), 男, 湖北武汉人,理学博士,湖北工业大学讲师,研究方向为新材料力学性能
更新日期/Last Update: 2021-08-27