1、辉亚新材料HY

HY-6802是一种环氧-胺加成物，以固体分含量为 80%的溶液形式供货，可与合适的环氧树脂混合配制水性涂料配方，以满足各种终端用途的要求，由于其全面的功能，本产品是众多应用的理想选择。

2、Research Progress in Waterborne Epoxy Resin Curing Agent

The effect of the compatibility and reactivity of waterborne epoxy curing agents on the curing films and its control methods were also discussed，which provided guidance for selection of suitable curing agents and development of waterborne epoxy curing agent with excellent performance.

3、常温固化自乳化型水性环氧固化剂的制备及性能研究

以聚乙二醇、环氧树脂E20、间苯二甲胺 (MXDA)为原料、过硫酸钾为催化剂,合成了一种非离子型常温固化自乳化型水性环氧固化剂。

4、Stable waterborne epoxy resins: Impact of toughening agents on coating

The CEB waterborne epoxy resins (CEBs) were synthesized through blending CA-4 with BPA at controlled ratios, followed by reaction with liquid epoxy resin. The research examined how the chain length in each CA influenced the properties of the resins, films and coatings.

Waterborne Epoxy Curing Agent Product Line

Our new NX-8501 is a waterborne curing agent for epoxy coatings and adhesives. This completely solvent free curing agent enables zero and low VOC formulations without compromising performance.

Shanghai Huayi Fine Chemical Co., Ltd.

Product features: Butylated urea formaldehyde resin, with good fullness, high gloss, and fast curing. Application areas: Curing agent for coil primer, curing agent for epoxy and polyester baking paint.

Waterborne Epoxy Curatives

You can choose from a number of waterborne epoxy systems, depending on your priorities. anquawhite® 100 curing agent and ancarez ar555 epoxy resin offer very fast dry speed of less than an hour with high gloss, low color and no carbamation issues. this coating will also provide high stain resistance and good cleanability. alternatively, a ...

Synthesis of a waterborne epoxy curing agent based on

Polyether polyols can improve the performance of waterborne epoxy curing agent. In this paper, intermediates were synthesized from polyether triols with epoxy resin E-51 and introduced into the epoxy curing agent by reacting with TETA.

翻译Synthesis and Characterization of Waterborne Epoxy

本文，以GPTMS和由TETA和液态环氧树脂（E-51）合成的，C12标示的AGE作为加合物的封端剂，制备了新型的硅烷改性水乳型环氧树脂固化剂。

輝亞新材料HY

HY-6802是一種環氧-胺加成物，以固體分含量為 80%的溶液形式供貨，可與合適的環氧樹脂混合配製水性塗料配方，以滿足各種終端用途的要求，由於其全面的功能，本產品是眾多應用的理想選擇。

In modern industrial fields, advancements in material selection and processing technologies play a decisive role in product performance and production efficiency. Among these, epoxy materials stand out for their excellent mechanical properties, chemical resistance, and electrical insulation, making them widely used in electronics, automotive, construction, and other industries. traditional epoxy systems often rely on organic solvents as diluents, which not only increases costs but also poses environmental pollution risks. The emergence of waterborne epoxy curing agents has opened new possibilities for the development of eco-friendly epoxy materials.

A waterborne epoxy curing agent is specifically designed for water-based epoxy systems. It reacts with epoxy resin in water to form a stable cross-linked network, enabling curing. Compared to traditional solvent-based epoxy curing agents, it offers several significant advantages:

1. Environmental Performance: By using water as the primary solvent, waterborne epoxy curing agents drastically reduce reliance on organic solvents and volatile organic compound (VOC) emissions, aligning with modern environmental regulations.

2. Safety: With minimal or no organic solvents, these curing agents eliminate health hazards during application and reduce fire risks associated with flammable solvents.

3. Ease of Application: Waterborne epoxy curing agents cure rapidly at room temperature, yielding physical and chemical properties comparable to traditional epoxies. This simplifies施工 processes and accelerates workflows.

4. Versatility: Suitable for nearly all epoxy resin types—from general-purpose to specialized grades—they deliver strong adhesion and mechanical strength across diverse applications.

5. Cost-Effectiveness: While initial investments may be higher, lower VOC emissions reduce long-term maintenance and environmental remediation costs.

6. Compatibility: These curing agents can integrate with various resin systems, such as polyesters and phenolics, expanding opportunities for composite material innovation.

7. Adaptability: They maintain performance stability under extreme conditions, including high temperatures, humidity, and salt spray environments, ensuring reliability in harsh settings.

8. Tunability: By adjusting formulation ratios, curing time and material properties can be precisely controlled to meet specific application requirements.

Despite these benefits, waterborne epoxy curing agents face challenges in practice. For instance, their curing speed is typically slower than traditional epoxies, potentially affecting production cycles. Additionally, high-performance variants may require specialized additives to optimize properties.

To address these challenges, researchers are developing next-generation waterborne epoxy curing agents with faster curing rates and improved performance. Enhancements in formulation design, production processes, and storage stability further elevate their overall utility.

Looking ahead, stricter environmental regulations and growing demand for sustainable products will drive waterborne epoxy curing agents to become a cornerstone of the epoxy industry. They offer a safer, greener, and more efficient material solution, propelling manufacturing toward greater sustainability.

HY-6802 waterborne epoxy curing agent—with its unique environmental benefits and broad application potential—is becoming an indispensable tool in modern industrial manufacturing. As technology advances and markets expand, waterborne epoxy curing agents are poised to play an increasingly vital role in shaping the future of industrial development.