1、Bio

Liquid crystal epoxy resin, as an ideal toughening agent, combines the features of liquid crystal ordering and network cross-linking, which can effectively optimize the comprehensive performance of blended epoxy resins and achieve an ideal balance of rigidity and toughness.

2、Ionic Liquid

New semiconducting resorcinol-formaldehyde resins (RFs) have been synthesized using butyl-methylimidazolium methylcarbonate ionic liquid.

3、Synthesis and Properties of Epoxy Resin Modified with Novel Reactive

In this work, the influence of the new epoxy-containing liquid rubber-based modifiers on the thermal and mechanical properties of the cured epoxy resins was investigated.

4、Ionic liquid modified lignin

For this purpose, soda bagasse lignin was modified by 1-ethyl-3-methylimidazolium acetate ( [Emim] [OAc]) ionic liquid and then various contents of virgin and modified lignin (20, 30 and 40 wt% based on weight of phenol), phenol and glyoxal were used for synthesis of LPG resins.

Mechanical behavior of liquid nitrile rubber

In order to extend their application areas, the mechanical properties of epoxy resin are modified using various methods. During material preparation, the mechanical behavior of the epoxy resins can be changed through the manufacturing process.

Ionic liquid modified lignin

Based on the results of this work, the mechanical strength and dimensional stability of the particleboards bonded with a LPG resin can be improved by using modified lignin.

Liquid Oxygen Compatibility and Ultra

In this study, a reactive phosphorus/nitrogen-containing aromatic ethylenediamine (BSEA) was introduced as a reactive component to enhance the LOC and ultra-low-temperature mechanical properties of...

Novel Bismaleimide Resins Modified by Allyl Compound Containing Liquid

In our study, a novel allyl compound containing liquid crystalline structure was synthesized, and a series of modified BMI resins were prepared and investigated based on different molar ratio of BAOBE and DABPA.

Ionic Liquid Modified Macropore Resin AB

In this paper, porous Brønsted acidic ionic liquid modified catalyst ILs-AB-8 was successfully synthesized by using 3 steps of Friedel–Crafts hyper-crosslinking synchronous chloromethylation, imidazlole grafting and sulfonic functionalization using macroporous polystyrene AB-8 resin as a raw material.

Fabrication of photocurable liquid

This paper reports the synthesis of a polydimethylsiloxane (PDMS) modified silicone resin additive for the preparation of easy-cleaning photocurable liquid-like coatings.

In numerous fields of modern industry, liquid modified resins, as a novel material, are gradually emerging. Their unique properties and broad application prospects have garnered significant attention from the industry. Liquid modified resins not only exhibit excellent physical and chemical properties but also perform well in terms of environmental protection and cost-effectiveness. This article delves into the definition, classification, characteristics, and applications of liquid modified resins across various sectors.

1. Overview of Liquid Modified Resins

Liquid modified resins are high-molecular-weight compounds prepared through specific processes. They remain in a liquid state at room temperature and undergo modifications via additives to alter their inherent physical and chemical properties. This modification typically involves adjustments to molecular structures, enhancing performance or tailoring them to specific application requirements.

2. Characteristics of Liquid Modified Resins

• High Flowability: Liquid modified resins possess moderate viscosity, ensuring good fluidity during processing, facilitating molding and shaping.
• Strong Plasticity: Their excellent fluidity allows these resins to be easily formed into complex shapes, meeting intricate design demands.
• 优越的机械性能: After modification, properties such as tensile strength, compressive strength, and hardness are significantly improved, suiting diverse industrial needs.
• Excellent Chemical Resistance: These resins demonstrate strong tolerance to various chemicals, enabling applications in harsh environments.
• Environmental Friendliness: Liquid modified resins generate minimal pollution during production and are recyclable, aligning with sustainable development goals.

3. Application Fields

• Automotive Manufacturing: Owing to their superior mechanical and chemical resistance, liquid modified resins are widely used in automotive components like engine parts and chassis elements.
• Electronics and Electricals: Components such as circuit boards and enclosures rely on these resins for reliability and durability.
• Construction Industry: Applications include windows, flooring, and wall materials, leveraging their versatility and durability.
• Aerospace: Their high strength and heat resistance make liquid modified resins ideal for aircraft and spacecraft components.
• Medical Devices: Precision instruments and implants utilize these resins to ensure safety and efficacy.

4. Future Development Trends of Liquid Modified Resins

As technology advances and market demands evolve, the development of liquid modified resins will diversify further. Researchers will continue exploring new modification techniques and formulations to enhance performance. Additionally, eco-friendly and high-performance resins will become market favorites, catering to green manufacturing and advanced performance requirements.

As a material with vast application potential, liquid modified resins hold immense promise for future growth. With ongoing technological innovation, they are poised to showcase their unique value and charm across even broader domains.