聚羧酸减水剂的研究与应用综述

doi:10.11896/cldb.25040256

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Abstract As the core material of modern civil engineering, cement concrete’s performance improvement and low-carbon transformation place higher demands on water reducer technology. Since the first generation of common water reducers emerged in the 1950s, water reducers have undergone three generations of innovation. Currently, the third generation of high-performance water reducers represented by polycarboxylic acid-based water reducers has become the focus of research due to its high water reduction rate, environmental protection and molecular designability. Despite the superior performance of polycarboxylate superplasticizers, their application still faces multiple challenges. Functions such as dispersion, collapse prevention, and mud resistance involve the synergistic effects of multiple theories such as electrostatic repulsion, steric hindrance, and hydration film lubrication. Existing theories are difficult to explain their macroscopic manifestations in a unified way. Complex working conditions place higher demands on the collapse resistance and mud resistance of water reducers, but conventional molecular design is difficult to meet diverse needs. Due to factors such as cement mineral composition, alkali content, and gypsum type, the adaptability of water reducers varies significantly. Therefore, a systematic solution is urgently needed. This summary systematically reviews the research progress of polycarboxylate water reducers from molecular design to engineering application: the development history of water reducers, the mechanism of dispersion, collapse prevention and mud resistance, the factors affecting compatibility with cement, the synthesis process, classification and evaluation methods, and the key development direction in the future. It should provide important ideas for the performance optimization and green development of polycarboxylate water reducers.

Key words： polycarboxylate water reducer mechanism of action mud resistance collapse prevention compatibility synthesis process structural classification

Published: 25 April 2026 Online: 2026-05-06

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	ZHANG Derun
	TANG Jinbiao
	WANG Lijing
	CAO Qian
	ZHANG Xuan
	Ruben Paul Borg

Cite this article:

ZHANG Derun,TANG Jinbiao,WANG Lijing, et al. A Review of the Research and Application of Polycarboxylate Water Reducer[J]. Materials Reports, 2026, 40(8): 25040256-17.

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https://www.mater-rep.com/EN/10.11896/cldb.25040256 OR https://www.mater-rep.com/EN/Y2026/V40/I8/25040256

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