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Role of anionic group of methylallyl ether-based PCEs on behavior of cementitious systems with various C3A contents

Title	Role of anionic group of methylallyl ether-based PCEs on behavior of cementitious systems with various C3A contents
Author	Ramyar, K., Felekoglu, B., Mardani, A., Kobya, V., Karakuzu, Kemal
Publication Date:	2024-07-01
Publication Place	- ASCE
Subject	C(3)A, Cement-admixture compatibility, Rheology, Anionic groups, Adsorption, Polycarboxylate ether (PCE)
Type	Periodical
Language	English
Digital	Yes
Manuscript	No
Library:	Özyeğin University
Library Asset ID	0899-1561
Record ID	da04cc97-43f4-4d38-9ef4-c508ee4c0725
Date	2024-07-01
Notes	TÜBİTAK ; Ministry of National Education - Turkey
Sample Text	In this study, the performances of methylallyl ether (HPEG) type polycarboxylate ether-based water reducing admixtures (PCE) partially substituted with phosphate and sulfonate anionic groups were investigated. The effects of synthesized PCE's on the fresh, rheological, and some hardened properties of mixtures prepared with cements having different C(3)A contents were examined. Increasing the phosphate and sulfonate substitution ratio of PCE up to a certain value improved the rheological properties of the mixtures. Best flow retention and rheological properties were obtained with 9% phosphate (P9) and 7% sulfonate (S7) PCEs. Due to the high PCE dosage used in the Marsh-funnel and mini slump experiments, the nonadsorbed PCE in the pore solution blocked the adsorbed polymers on the cement particles. Also, the hydrodynamic radius of the polymer had a significant effect on the adsorption and dispersion performance of PCE. Morover, with the increase of cement C(3)A content, the fresh properties of the mixtures were adversely affected. However, the increase in C(3)A content up to a certain value improved the hardened properties of the cementitious system. (c) 2024 American Society of Civil Engineers.
DOI	10.1061/JMCEE7.MTENG-16601
Cilt	36

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Özyeğin University

Role of anionic group of methylallyl ether-based PCEs on behavior of cementitious systems with various C3A contents

Author Ramyar, K., Felekoglu, B., Mardani, A., Kobya, V., Karakuzu, Kemal

Publication Date 2024-07-01

Publication Place - ASCE

Subject C(3)A, Cement-admixture compatibility, Rheology, Anionic groups, Adsorption, Polycarboxylate ether (PCE)

Type Periodical

Language English

Digital Yes

Manuscript No

Library Özyeğin University

Library Asset ID 0899-1561

Record ID da04cc97-43f4-4d38-9ef4-c508ee4c0725

Date 2024-07-01

Notes TÜBİTAK ; Ministry of National Education - Turkey

Sample Text In this study, the performances of methylallyl ether (HPEG) type polycarboxylate ether-based water reducing admixtures (PCE) partially substituted with phosphate and sulfonate anionic groups were investigated. The effects of synthesized PCE's on the fresh, rheological, and some hardened properties of mixtures prepared with cements having different C(3)A contents were examined. Increasing the phosphate and sulfonate substitution ratio of PCE up to a certain value improved the rheological properties of the mixtures. Best flow retention and rheological properties were obtained with 9% phosphate (P9) and 7% sulfonate (S7) PCEs. Due to the high PCE dosage used in the Marsh-funnel and mini slump experiments, the nonadsorbed PCE in the pore solution blocked the adsorbed polymers on the cement particles. Also, the hydrodynamic radius of the polymer had a significant effect on the adsorption and dispersion performance of PCE. Morover, with the increase of cement C(3)A content, the fresh properties of the mixtures were adversely affected. However, the increase in C(3)A content up to a certain value improved the hardened properties of the cementitious system. (c) 2024 American Society of Civil Engineers.

DOI 10.1061/JMCEE7.MTENG-16601

Cilt 36