Materials Reports 2020, Vol. 34 Issue (Z2): 242-245 |
INORGANIC MATERIALS AND CERAMIC MATRIX COMPOSITES |
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Influence of Washing Concrete Transfer Car Mud Powder on Concrete Performance |
DONG Longrui1, HANG Meiyan1, ZHOU Gangming1, JIA Chun2, XU Junwei1
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1 School of Civil Engineering, Inner Mongolia University of Science and Technology, Baotou 014010, China 2 Baotou Tianlong Concrete Limited Liability Company, Baotou 014010, China |
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Abstract Use the mixing plant to rinse the waste mud powder deposited by the concrete transfer car and replace the fine aggregate in the concrete after drying,the working performance, mechanical performance, micro-pore structure distribution and the influence on the early and long-term shrinkage of concrete under different dosage of concrete are studied.The test results show that with the increase of mud powder content, concrete strength decreases gradually in the early stage, strength increases first and then decreases in the later stage, slump decreases, slump loss increases after 1 h, early and long-term shrinkage is proportional to mud powder content, and shrinkage of concrete in the first 21 days increases. After adding 10% mud powder, the pore structure of concrete is optimized, the large and medium holes in concrete are transferred to small holes, the proportion of harmful and multi-harmful holes is reduced, and the pore structure of concrete is optimized, the porosity of concrete is the smallest and the strength of concrete is improved in the later period.
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Published: 08 January 2021
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Fund:This work was financially supported by the Natural Science Foundation of Inner Mongolia (2018MS0534). |
About author:: Longrui Dong, master's degree, the research direction is the comprehensive utilization of solid waste and the development and application of new building materials.Meiyan Hang, is a master tutor at the Inner Mongolia University of Science and Technology, deputy director of Research Institute of Inner Mongolia University of Science and Technology, professor of engineering(A3), mainly engaged in new concrete and concrete admixtures, solid waste building materials and other aspects of the research. From 1986 to now, she has been engaged in teaching, scientific research and scientific service in the College of Civil Engineering, Inner Mongolia University of Science and Technology. |
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1 陈军亮,张哲明,葛栋,等.混凝土,2014(9),130. 2 马先伟,刘畅.混凝土,2017(7),102. 3 余和友,徐亮.中国城市经济,2010(8),136. 4 李应文,贾兴文.墙材革新与建筑节能,2016(7),38. 5 吴方贵,汤进,黄海斌.商品混凝土,2010(9),57. 6 邓明丽.长沙理工大学学报(社会科学版),2020,35(1),53. 7 赖志标,高强,郑立达.混凝土世界,2012(12),90. 8 张意,陈家全,何小勇.重庆建筑,2010,9(6),35. 9 杨志伟,石从黎,张克.粉煤灰,2012,24(4),25. 10 但波,贾兴文,吴洲.混凝土,2014(3),119. 11 周戈,刘栋,卞周宏.建材世界,2019,40(4),10. 12 杭美艳,孙忠科,郭艳梅.西安建筑科技大学学报(自然科学版),2020,52(1),15. 13 韩宇栋,张君,岳清瑞,等.混凝土,2019(2),1. 14 Wu L,Farzadnia N,Shi C,et al.Construction & Building Materials,2017,149,62. 15 赖俊英,童彦伟,詹树林,等.东南大学学报(自然科学版),2018,48(5),903. 16 毛永琳,朱江,杨勇,等.混凝土,2019(2),76. 17 李海波,朱巨义,郭和坤.波谱学杂志,2008(2),273. 18 王仁远,申向东,薛慧君,等.应用基础与工程科学学报,2019,27(2),418. 19 乔宏霞,彭宽,陈克凡,等.材料导报:研究篇,2020,34(5),10035. 20 郭晓潞,宋猛.材料导报,2018,32(专辑32),440. |
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