Review of the Influence of Acrylate Lotion on the Properties of Cement-Based Materials

Author:

Su Fuyun12ORCID,Wang Haiyan2,Ma Xiaodong1ORCID,He Tingshu1,Lin Yike1

Affiliation:

1. College of Materials Science and Engineering, Xi’an University of Architecture and Technology, Xi’an 710055, China

2. Gansu Civil Engineering Research Institute, Lanzhou 730020, China

Abstract

Polymer-modified cement-based materials have been widely used in the construction field. Acrylate lotion significantly improves durability, toughness, and bending resistance, especially durability, because the porosity of cement-based materials is reduced, preventing the entry of harmful ions and water. When acrylate lotion was at 20%, the resistance of cement-based materials to chloride ion penetration increased by 40%. At the same time, the fracture toughness of cement-based materials modified with acrylate lotion and carbon nanotubes increased by 10–15%. The flexural strength of cement-based materials modified by acrylate lotion and fiber increased by 29%. Additives such as TiO2 have a unique impact on the modification of cement-based materials, which has attracted the interest of researchers. This paper reviewed the performance of acrylate lotion-modified cement-based materials and the application of acrylate lotion in the field, which systematically increased the durability, mechanical properties, and waterproof properties of cement-based materials when acrylate lotion was modified, acrylate lotion was modified with nanomaterials, acrylate lotion was modified with other polymers, acrylate lotion was modified with fiber, and when acrylate lotion was modified with other additives. The shortcomings of acrylate lotion modification with different materials were reviewed and evaluated, and the comprehensive performance of cement-based materials modified by acrylate lotion was expected to achieve maximum strength improvement under the synergistic effect of various modifications.

Publisher

MDPI AG

Subject

General Materials Science

Reference106 articles.

1. Recent progress in concrete-polymer composites;Ohama;Adv. Cem. Based Mater.,1997

2. Real-time detection of surface deformation and strain in recycled aggregate concrete-filled steel tubular columns via four-ocular vision;Tang;Robot. Comput. Integr. Manuf.,2019

3. Örmecioğlu, H.T. (2021). Engineering and Technology Management, Güven Plus Group Inc.

4. How to make today’s repairs durable for tomorrow corrosion protection in concrete repair;Vaysburd;Constr. Build. Mater.,2000

5. Microstructure and Mechanism of Polymer Cement;Yang;Integr. Ferroelectr.,2021

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