Mechanical Properties of Alkali Activated Material Based on Red Clay and Silica Gel Precursor

Būmanis, Ģirts; Vaičiukynienė, Danutė

doi:10.2478/rtuect-2021-0070

Environmental and Climate Technologies

2021

DOI: 10.2478/rtuect-2021-0070

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Mechanical Properties of Alkali Activated Material Based on Red Clay and Silica Gel Precursor

Ģirts Būmanis

Danutė Vaičiukynienė

Abstract: The search for alternative alumosilicates source for production of alkali activated materials (AAM) is intensively researched. Wide spread of natural materials such as clays and waste materials are one of potential alternatives. In this research AAM was made from local waste brick made of red clay and calcined low-carbonate illite clay precursor and its properties evaluated. Waste silica gel containing amorphous silica from fertilizer production plant was proposed as additional raw material. 6 M and 7 M NaOH a… Show more

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Cited by 3 publications

References 29 publications

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Bond strength of alkali-activated flyash based masonry system for sustainable construction

Kumble,

Prashant,

Achar

2023

SN Appl. Sci.

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Bond strength is a crucial factor that impacts the performance, structural reliability and stability of masonry constructions. This paper aims to examine the efficacy of various masonry unit and mortar combinations and their bond strength thereby, evaluating their adhesion performance. It experimentally analyzes two masonry unit types paired with two mortar combinations. One is the traditional clay brick and the other is an alkali activated flyash based brick. Alkali activated flyash bricks and mortars use flyash as a sole binder, activated with popular alkalis, thereby reducing carbon footprints compared to cement manufacturing. Two types of mortar used are conventional cement mortar and alkali activated flyash mortar. Bonded prisms were tested to determine the compressive, tensile, shear, and flexural bond strengths. The results revealed significant variations in bond strength across different combinations of masonry units and mortar. Notably, it was observed that alkali-activated bricks bonded with alkali-activated mortar exhibited higher bond strength, compared to conventional cement mortar. These findings provide valuable insights in assessing the compatibility between masonry units and mortar, highlighting the potential of this technology for sustainable construction practices.

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Bond strength of alkali-activated flyash based masonry system for sustainable construction

Kumble,

Prashant,

Achar

2023

SN Appl. Sci.

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Alkali-activated materials made of construction and demolition waste as precursors: A review

Kravchenko,

Lazorenko,

Jiang

et al. 2024

Sustainable Materials and Technologies

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Alkali Activation of Milled Red Brick Waste and Calcined Illite Clay with Silica Gel Addition

Būmanis

Vaičiukynienė

2022

Materials

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The role of precursor characteristics and mixture composition design of alkali-activated materials (AAM) has been intensively researched with different types of alumino-silicate sources. Two illite-based precursors were prepared and investigated—(i) raw illite clay (IC) treated in a laboratory at 700, 750, and 800 ∘C and (ii) a red brick waste coming from the brick production plant. The fineness of precursors was determined and compared. The precursors were activated with 6 M and 7 M NaOH alkali solutions. Silica gel addition was considered in the composition of AAM. The XRD results indicate the transformation of both precursor types under alkali activation. The efflorescence salts were analyzed on the samples with silica gel addition. Calcined IC precursor allowed us to obtain AAM with a strength from 11 to 16 MPa with an increasing strength gain during curing. The red brick waste precursor showed a compressive strength from 14 to 28 MPa. A high early strength was obtained with no further strength increase. The hydrosodalite and zeolite crystals were detected in the structure of AAM based on the red brick waste precursor. The results indicate different characteristics of AAM based on similar source precursors, showing the important role of the proper treatment of precursors before alkali activation.

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Mechanical Properties of Alkali Activated Material Based on Red Clay and Silica Gel Precursor

Cited by 3 publications

References 29 publications

Bond strength of alkali-activated flyash based masonry system for sustainable construction

Bond strength of alkali-activated flyash based masonry system for sustainable construction

Alkali-activated materials made of construction and demolition waste as precursors: A review

Alkali Activation of Milled Red Brick Waste and Calcined Illite Clay with Silica Gel Addition

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