1、Research on the durability of composite epoxy resin modified repair

The gradient composite epoxy resin-modified cement-based rapid repair mortar (MCEP) exhibits good durability in various tests and reveals the morphology of the gradient structure and the effect of composite epoxy resin (CEP) modification on repair material performance through methods such as X-CT.

2、水性环氧树脂

为改善机场道面修补砂浆脆性大和粘结性能差等问题,本文利用水性环氧树脂 (WER)、聚丙烯 (PP)纤维和硫铝酸盐水泥 (SAC)制备出一种快速修补砂浆,并对其工作性能、力学性能、阻尼性能和耐硫酸盐腐蚀性能进行研究。 结果表明,PP纤维和WER可显著提高快速修补砂浆韧性和粘结性能,使得快速修补砂浆2 h抗压、抗折强度和粘结强度分别达到22.3,5.1和3.7 MPa,满足民用机场规范要求,同时可改善快速修补砂浆的阻尼性能和抗硫酸盐侵蚀性能。

3、Research review of water

Traditional cement-based materials commonly experience issues such as cracking, ⿿aking, and holes, which reduce their lifespan. However, by adding epoxy resin, these problems can be e￿ectively addressed.

Epoxy Resin Mortar

Epoxy Resin Mortar by FUXI has a high performance on reinforcement and maintenance of the surface. Epoxy based mortar is with stable chemical properties, good corrosion and weather resistance.

Zhengzhou Modified Epoxy Resin Repair Mortar

Changzhou Modified Epoxy Resin Repair Mortar is a high-tech synthetic material that enhances the properties of traditional epoxy resin through modification processes, delivering superior adhesion, durability, and adaptability.

Performance of Epoxy Resin Polymer as Self

This research investigated the application of epoxy resin polymer as a self-healing strategy for improving the mechanical and durability properties of cement-based mortar.

Investigation of waterborne epoxy

In this work, different amounts of waterborne epoxy resin were incorporated into cement mortar and their impacts on cement hydration, mortar performance, and pore structure were comprehensively investigated.

Research on the durability of composite epoxy resin modified

We developed a water-oil gradient composite epoxy resin (CEP) modified cement-based repair mortar (MCEP) using self-synthesized water-based epoxy resin (WEP) and oil-based epoxy resin (EP).

Performance of waterborne epoxy resin

The results show that PP fiber and WER can significantly improve the toughness and bonding properties of the quick repair mortar, making the 2 h compressive and folding strength and bonding strength of the quick repair mortar reach 22.3, 5.1 and 3.7 MPa respectively, meeting the requirements of civil airport specifications, and improving the dam...

Experimental study and analytical model for the pore structure of epoxy

Epoxy latex-modified cementitious materials have shown promise for a number of applications in building and construction, but the mix design processes remain arbitrary because their pore...

In modern construction, the selection of materials is critical, as it not only determines the quality of the project but also impacts overall costs and sustainability. Modified epoxy resin mortar, as a high-performance building material, has garnered significant attention in recent years. With its exceptional adhesive properties, superior durability, and cost-effectiveness, it has become a preferred choice for many construction projects. This article explores the characteristics, applications, and importance of modified epoxy resin mortar in contemporary architecture.

Modified epoxy resin mortar is enhanced through the addition of specific chemical agents, such as curing agents, solvents, and fillers. These components work synergistically to improve adhesion, compressive strength, and corrosion resistance. Compared to traditional cement mortar, modified epoxy resin mortar offers enhanced physical properties, extended service life, and reduced maintenance costs. As a result, it is widely used in various architectural structures.

In civil engineering, modified epoxy resin mortar is particularly versatile. It is employed for concrete structure reinforcement, bridge repairs, and waterproofing in buildings. For instance, bridges exposed to harsh environmental conditions may develop cracks or loosening over time. Using modified epoxy resin mortar for repairs significantly enhances the structural integrity of bridges and prolongs their lifespan. Similarly, in waterproofing applications, this material excels due to its impermeability and weather resistance, effectively preventing water infiltration and safeguarding structural safety.

Beyond civil engineering, modified epoxy resin mortar plays vital roles in other fields. In pipeline repair and insulation engineering, its strong adhesive properties make it ideal for securing pipes against vibrations or thermal expansion. Additionally, its electrical insulating capabilities ensure the safe operation of equipment.

Despite its advantages, challenges remain in practical applications. The preparation process is relatively complex, requiring specialized equipment and technical expertise, which increases construction difficulty. Higher costs compared to alternative materials may also limit its use in budget-constrained projects. Furthermore, environmental factors like humidity and temperature can affect its performance, necessitating careful consideration during application.

To address these challenges, future research should focus on simplifying production methods, reducing costs, and improving environmental adaptability. Enhanced studies on the material’s properties are also needed to better suit diverse application scenarios.

modified epoxy resin mortar holds broad prospects in civil engineering, pipeline repair, and insulation applications due to its high-performance characteristics. While challenges persist, ongoing technological advancements and research will likely expand its utility across more domains.