Response Surface Method for Strength Analysis and Proportion Optimization of New Type Sealing Materials

Response Surface Method for Strength Analysis and Proportion Optimization of New Type Sealing Materials

The influence of the interaction among water-cement ratio, content of expansion agent, water reducing agent, and retarder on the compressive strength of new sealing material was studied. The Design-Expert software was used to design experiments, establish a quadratic polynomial regression model, dra...

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Main Authors: Sheng Xue, Xin Guo, Chunshan Zheng, Yaobin Li, Xiaoliang Zheng
Format: Article
Language:English
Published: Hindawi-Wiley 2021-01-01
Series:Geofluids
Online Access:http://dx.doi.org/10.1155/2021/8769809
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spelling doaj-b9cba5e7bae84ed9a19f63d5b20dcfac2021-08-16T00:00:05ZengHindawi-WileyGeofluids1468-81232021-01-01202110.1155/2021/8769809Response Surface Method for Strength Analysis and Proportion Optimization of New Type Sealing MaterialsSheng Xue0Xin Guo1Chunshan Zheng2Yaobin Li3Xiaoliang Zheng4Anhui University of Science & TechnologyAnhui University of Science & TechnologyAnhui University of Science & TechnologyAnhui University of Science & TechnologyAnhui University of Science & TechnologyThe influence of the interaction among water-cement ratio, content of expansion agent, water reducing agent, and retarder on the compressive strength of new sealing material was studied. The Design-Expert software was used to design experiments, establish a quadratic polynomial regression model, draw response surface, and optimize parameters. The microstructure morphology of the sample is explored by a scanning electron microscope (hereinafter referred to as SEM). The research results show that the interaction between the water-cement ratio and expansion agent content is the most crucial factor affecting the compressive strength of the new sealing material. Under the optimal condition of 0.4% water reducing agent, 0.04% retarder, 0.8 water-cement ratio, and 8% expansion agent, the compressive strength of the sealing material cured for 3 d and 7 d is 39.247 MPa and 41.044 MPa, with the maximum absolute error of 1.71% and 2.81%, which proves the high accuracy of the model. The main hydration products of the new sealing material are ettringite and C-S-H gel, interlacing each other to form a dense structure, which contributes to the high strength of the new sealing material.http://dx.doi.org/10.1155/2021/8769809
collection DOAJ
language English
format Article
sources DOAJ
author Sheng Xue
Xin Guo
Chunshan Zheng
Yaobin Li
Xiaoliang Zheng
spellingShingle Sheng Xue
Xin Guo
Chunshan Zheng
Yaobin Li
Xiaoliang Zheng
Response Surface Method for Strength Analysis and Proportion Optimization of New Type Sealing Materials
Geofluids
author_facet Sheng Xue
Xin Guo
Chunshan Zheng
Yaobin Li
Xiaoliang Zheng
author_sort Sheng Xue
title Response Surface Method for Strength Analysis and Proportion Optimization of New Type Sealing Materials
title_short Response Surface Method for Strength Analysis and Proportion Optimization of New Type Sealing Materials
title_full Response Surface Method for Strength Analysis and Proportion Optimization of New Type Sealing Materials
title_fullStr Response Surface Method for Strength Analysis and Proportion Optimization of New Type Sealing Materials
title_full_unstemmed Response Surface Method for Strength Analysis and Proportion Optimization of New Type Sealing Materials
title_sort response surface method for strength analysis and proportion optimization of new type sealing materials
publisher Hindawi-Wiley
series Geofluids
issn 1468-8123
publishDate 2021-01-01
description The influence of the interaction among water-cement ratio, content of expansion agent, water reducing agent, and retarder on the compressive strength of new sealing material was studied. The Design-Expert software was used to design experiments, establish a quadratic polynomial regression model, draw response surface, and optimize parameters. The microstructure morphology of the sample is explored by a scanning electron microscope (hereinafter referred to as SEM). The research results show that the interaction between the water-cement ratio and expansion agent content is the most crucial factor affecting the compressive strength of the new sealing material. Under the optimal condition of 0.4% water reducing agent, 0.04% retarder, 0.8 water-cement ratio, and 8% expansion agent, the compressive strength of the sealing material cured for 3 d and 7 d is 39.247 MPa and 41.044 MPa, with the maximum absolute error of 1.71% and 2.81%, which proves the high accuracy of the model. The main hydration products of the new sealing material are ettringite and C-S-H gel, interlacing each other to form a dense structure, which contributes to the high strength of the new sealing material.
url http://dx.doi.org/10.1155/2021/8769809
work_keys_str_mv AT shengxue responsesurfacemethodforstrengthanalysisandproportionoptimizationofnewtypesealingmaterials
AT xinguo responsesurfacemethodforstrengthanalysisandproportionoptimizationofnewtypesealingmaterials
AT chunshanzheng responsesurfacemethodforstrengthanalysisandproportionoptimizationofnewtypesealingmaterials
AT yaobinli responsesurfacemethodforstrengthanalysisandproportionoptimizationofnewtypesealingmaterials
AT xiaoliangzheng responsesurfacemethodforstrengthanalysisandproportionoptimizationofnewtypesealingmaterials
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