Calcined Attapulgite Clay as Supplementary Cementing Material: Thermal Treatment, Hydration Activity and Mechanical Properties

The present paper studied the effects of calcination temperatures (200–800 °C) on the appearance, mineral composition, and active SiO 2 content in attapulgite and investigated the effects of attapulgite before and after calcination on the chemically bonded water content, the degree of reaction of ce...

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Bibliographic Details
Published in:International journal of concrete structures and materials 2022, 16(2), 65, pp.187-196
Main Authors: Shi, Tao, Liu, Yanming, Zhang, Yanlin, Lan, Yingjia, Zhao, Qifan, Zhao, Yujing, Wang, Haobo
Format: Article
Language:English
Subjects:
Attapulgite
attapulgite clay
Building Materials
calcination temperature
Cement
Cement paste
Cementing
Chemical bonds
Clay
Clay minerals
Composition
Compressive strength
Energy consumption
Engineering
Flexural strength
Heat treatment
Hydration
hydration activity
Mechanical properties
Moisture content
Mortars (material)
Roasting
Silicon dioxide
Solid Mechanics
Structural Materials
supplementary cementing material
Sustainable development
Tensile strength
토목공학
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Summary:The present paper studied the effects of calcination temperatures (200–800 °C) on the appearance, mineral composition, and active SiO 2 content in attapulgite and investigated the effects of attapulgite before and after calcination on the chemically bonded water content, the degree of reaction of cement paste, and the mechanical properties such as the flexural strength, compressive strength, and splitting-tensile strength of cement mortar. The results indicate that the calcination temperature changes the mineral composition of attapulgite, thereby affecting the hydration activity of cement-based materials. The attapulgite calcined at 500 °C (AT500) has the best enhancement on the hydration activity of cement-based materials. The calcination at 500 °C is most beneficial to the dissolution of SiO 2 , and the content of SiO 2 reaches 20.96%. The contents of chemically bonded water in the samples incorporated with calcined attapulgite reduced and that of the samples incorporated with AT500 at 28 d is the same as that of the control group. The reaction degree of AT500 is 78.61% at 28 days. Calcined attapulgite clay can reduce the energy consumption of the cement industry and promote the sustainable development of attapulgite clay.
ISSN:1976-0485
2234-1315
DOI:10.1186/s40069-022-00499-8