1、1,3

Main applications: Synthetic resin, epoxy resin curing agents, intermediate of organic synthesis. Manufacturing plants, containers, identification of substances, physical/chemical properties, and major applicable laws, etc.

2、T12_TDS(CN)_13

1. 用于HP-RTM CFRP的环氧固化剂. 1-α. 加速配方. 2. 面向CFRP的环氧固化剂,耐黄变配方. Mitsubishi Gas Chemical Singapore Pte. Ltd.电话+65-6224-0059邮箱contact@mgcs.com.sg.

3、Modification of Epoxy Resin with 13bac Curing Agent

The 13bac curing agent, as an advanced epoxy curing system, has attracted attention due to its superior performance and broad application prospects. This paper aims to discuss the research progress on the modification of epoxy resin with the 13bac curing agent.

1,3

1.3-BAC is a diamine substance, it is colourless transparent and low viscosity liquid at room temperature, it has obvious ammonia smell, corrosive and combustible when it meets open fire.

13bac Epoxy Curing Agent

13bac Epoxy Curing Agent is a multi-functional organic compound capable of reacting with various types of epoxy resins to form stable cross-linked networks. This property makes it indispensable in numerous industrial applications.

Investigation of curing systems in modified epoxy anticorrosion

This study elucidated the mechanism by which the molecular structure of the curing agent influenced the anti-corrosion performance of epoxy coatings, further improving the research method for studying the constitutive effects of the curing agent system in simulation work on anti-corrosive coatings, and providing effective guidance for screening ...

Epoxy Curing Agents

Clear and pigmented coatings based upon Amicure® IC curing agents exhibit very rapid hardness development, excellent low temperature cure, very good color and UV stability and excellent surface appearance.

Curing Agents for Epoxy Resins "jERCURE"

This curing agent reacts with the jER™ epoxy resin to form the three-dimensional, hardened epoxy material. Various kinds of compounds are used as curing agents (or cross-linking agents) according to the particular application.

スライド 1

Epoxy Hardener Raw Material 1,3-BAC Advantages Excellent UV Resistance Low & Clarity Viscosity Excellent Curing even at HighTemperature & High Humidity Cost saving through material reduction

Designing a Novel Modified Curing Agent to Alleviate the

Therefore, this study proposes a simple and cost‐effective strategy by synthesizing a novel modified curing agent (BA‐ZT) through the Aza‐Michael addition reaction between trimethylolpropane tri‐polypropylene glycol ether (amine‐terminated, ZT‐143) and n ‐butyl acrylate (BA).

In modern materials science, epoxy resins are widely favored for their exceptional physical and chemical properties. traditional epoxy resins often face challenges such as excessive curing times and high shrinkage rates during the curing process. To address these issues, researchers continuously explore and develop new modified epoxy curing agents, among which 13bac (1,2-diglycidylcyclohexane) has emerged as a promising candidate. This article delves into the characteristics of 13bac and its potential applications in practice.

I. Basic Characteristics of 13bac

13bac is an organic compound containing two glycidyl functional groups. By reacting with hydroxyl groups in epoxy resins, it significantly enhances the crosslinking density of the epoxy matrix, thereby accelerating the curing process and reducing curing temperatures. Compared to conventional epoxy curing agents, 13bac offers the following advantages:

1. Rapid Curing: 13bac enables fast curing at low temperatures, which is critical for projects requiring quick implementation, such as electronic encapsulation, construction reinforcement, and other time-sensitive applications.

2. Superior Mechanical Performance: Due to its ability to increase crosslinking density, cured epoxy resins exhibit higher tensile strength, compressive strength, and wear resistance.

3. Excellent Electrical Properties: 13bac improves the dielectric properties of epoxy resins, making it suitable for electronic packaging materials.

4. Environmental Friendliness: 13bac is typically derived from renewable resources, such as biodiesel or plant-based fatty acids, reducing the environmental impact associated with traditional curing agents.

II. Application Potential of 13bac

13bac demonstrates versatile applications across multiple fields:

1. Electronic Packaging: In semiconductor manufacturing, LED encapsulation, and other precision electronics industries, 13bac serves as a modifier to enhance electrical performance and reliability.

2. Aerospace: It strengthens load-bearing capacity and durability in aircraft structural reinforcement and composite bonding.

3. Automotive Industry: 13bac can be used to bond and reinforce engine components, improving vehicle safety and longevity.

4. Construction Reinforcement: As a modifier for epoxy resins in repairing and reinforcing aging buildings, it enhances load-bearing capabilities and extends building lifespans.

5. Energy Sector: In wind turbine blades, solar panels, and other renewable energy equipment, 13bac improves material performance, ensuring stability and durability in harsh environments.

III. Challenges and Future Development

Despite its merits, 13bac faces several challenges in practical applications:

1. Cost Issues: The relatively high production cost of 13bac may limit its competitiveness in low-cost markets.

2. Application Limitations: Under extreme environmental conditions, its performance may fall short of specific demands.

3. Technology Proliferation: Broader adoption requires further research and innovation to integrate 13bac into diverse industries.

Looking ahead, ongoing research and technological advancements are expected to expand the role of 13bac. By optimizing production processes, reducing costs, enhancing compatibility with other materials, and exploring new applications, 13bac could become a mainstream choice for epoxy curing agents.

As a modified epoxy curing agent, 13bac is emerging as a rising star in materials science due to its unique properties and broad application potential. With continuous technological progress, 13bac is poised to deliver groundbreaking achievements in future engineering practices.