1、热固性丙烯酸树脂_百度百科

热固性丙烯酸树脂（英文名称thermosetting acrylic resin）是指以丙烯酸酯系单体（丙烯酸甲酯、丙烯酸乙酯、丙烯酸正丁酯和甲基丙烯酸甲酯、甲基丙烯酸正丁酯等）为基本成分，经交联成网络结构的不溶、不熔丙烯酸系聚合物。

2、Recent advances of thermosetting resin and its application prospect in

By combining the research status of drilling-related treatment agents and the property characteristics of different modified thermosetting resins, this work offers useful references to expand the research and application of thermosetting resins in oil and gas drilling and production engineering.

3、Reprocessable and ultratough epoxy thermosetting plastic

Utilizing an epoxy-amine chemistry, the authors demonstrate a thermoset epoxy that is reprocessable and tough, achieving improved sustainability for this widely used plastic material.

A Strong and Tough Thermosetting Epoxy Resin for

The epoxy resin demonstrates superior tensile strength of 123 MPa and record-breaking impact strength of 52.3 kJ m−2, making it ideal for high-performance on fiber-reinforced composites.

Waterborne Epoxy/Acrylic Resins Stabilized through the Neutralization

ABSTRACT: In this work, a class of stable waterborne epoxy/ acrylic resins with high performance is prepared through the simple blending of modified epoxy and acrylic copolymers.

Preparation and Properties of Epoxy Modified Acrylic Polymer

Thermogravimetric (TG) analysis indicated a significant improvement in the thermal stability of the resin due to GMA modification. The viscosity reduction test results demonstrated a substantial decrease in the viscosity of heavy oil, along with a notable increase in the viscosity reduction rate.

Epoxy Modified Acrylic RESIN

Epoxy Modified Acrylic RESIN-昆山三旺树脂有限公司,丙烯酸树脂,合成树脂厂家,树脂及高分子材料厂家,昆山三旺树脂有限公司

Improving the toughness of thermosetting epoxy resins

In recent years, nanostructured thermosetting resins have been obtained through blending a block copolymer (BCP) with a fine structure with an epoxy resin.

Epoxy resins thermosetting for mechanical engineering

This review presents various types of epoxy resins and curing agents commonly used as composite matrices. A brief review of cross-linking formation and the process of degradation or decomposition of epoxy resins by pyrolysis and solvolysis is also discussed.

Reprocessable and ultratough epoxy thermosetting plastic

Here we show epoxy thermosets with combined high toughness and reprocessability by innovating the chemistry of curing, a crosslinking process in polymers.

In the field of modern materials science, epoxy resins are widely acclaimed for their excellent mechanical properties, chemical stability, and electrical insulation. traditional epoxy resins often suffer from long curing times, high costs, and excessive brittleness. To address these issues, scientists have developed thermosetting acrylic epoxy modified resins. This novel material not only retains the advantageous characteristics of epoxy resins but also enhances curing speed, reduces costs, and improves flexibility by incorporating acrylic components. This article provides an in-depth exploration of the features and application prospects of thermosetting acrylic epoxy modified resins.

Thermosetting acrylic epoxy modified resin is a high-performance resin modified by combining a thermosetting acrylic resin matrix with epoxy resin and other components. Compared to traditional bisphenol A epoxy resins, this material exhibits the following significant advantages:

1. Rapid Curing: The addition of acrylic resin significantly lowers the activation energy of epoxy resins, enabling curing reactions to proceed rapidly at lower temperatures. This dramatically shortens curing cycles, making it highly valuable for applications requiring fast curing, such as electronic encapsulation and automotive coatings.

2. Cost-Effectiveness: Acrylic resins are relatively inexpensive and offer physical properties comparable to, or even surpassing, those of epoxy resins. This makes thermosetting acrylic epoxy modified resins competitive in cost-sensitive markets.

3. Enhanced Flexibility: By adjusting the proportion of acrylic resin, the material’s flexibility can be improved, making it suitable for applications demanding high toughness, such as composites and adhesives.

4. Good Electrical Insulation and Chemical Resistance: Since the resin retains epoxy components, it inherits the excellent electrical insulation and chemical resistance of epoxy resins, enabling widespread use in electronics, electrical industries, and chemical equipment.

5. Environmental Friendliness: Acrylic resins often derive from renewable resources, such as corn starch or petroleum derivatives, reducing environmental impact.

The application prospects of thermosetting acrylic epoxy modified resins are vast. In the electronics industry, it can serve as a high-performance encapsulant, offering superior electrical protection and thermal conductivity. In automotive manufacturing, it enables the production of lightweight, high-strength components, enhancing vehicle performance and safety. In construction, the resin can be used to produce high-performance adhesives and sealants, improving structural integrity and lifespan of buildings. Additionally, its potential in eco-friendly applications is substantial due to growing environmental awareness.

challenges remain, such as gas emissions during curing and stability under varying environmental conditions. Future research should focus on developing greener curing methods, optimizing resin formulations, and improving heat and moisture resistance.

thermosetting acrylic epoxy modified resins are emerging as a standout material in materials science due to their exceptional properties and broad applications. With ongoing technological advancements, this material is poised to play a larger role across diverse fields, contributing significantly to human progress.