1、Amino acid
Sorbitol polyglycidyl ether (SPE), which is a bio-based water-soluble epoxy resin, was cured with lysine (Lys) and arginine (Arg) as basic amino acids and with cysteine (Cys) as an acidic amino acid.
2、Advancing bio
This study explored glyoxal–melamine–formaldehyde (GMF) resins for decorative laminate impregnation, focusing on sorbitol as a bio-based modifier. Sorbitol (10 wt.%) was incorporated at various synthesis stages to assess its impact on resin structure and performance.
3、Investigating the thermal cure behavior of sorbitol
In this study, we investigated the starch derivative sorbitol as a natural building block for the synthesis of MF resins with enhanced biobased properties.
4、Investigating the thermal cure behavior of sorbitol
Sorbitol, a biobased sugar alcohol derived from renewable sources, was used to synthesize impregnation resins and corresponding B-stage impregnated resins (resin-impregnated décor papers) with enhanced biobased content.
5、Amino
In this work, a high surface area micro/mesoporous hyper-crosslinked resin based on vinylbenzyl chloride and divinylbenzene is synthesized through a solvent-free polymerization followed by Friedel-Crafts alkylation.
Synthesis and Performance Evaluation of Degradable Sorbitol
This study provides a theoretical basis and technical path for the development of new bio-based electrical insulating materials with both high insulation and degradation properties, which is conducive to the popularization and application of bio-based resins in the field of electrical equipment.
Double modified amino phenolic resin particles: A novel modifier to
We proposed a method to prepare double modified amino phenolic resin (D-APS) particles, which includes a hydrothermal synthesis and subsequent two-step modification.
A Study of Isosorbide Synthesis from Sorbitol for Material Applications
Isosorbide dimethacrylate (ISDMMA) synthesized from isosorbide (ISD) can serve as a cross-linker from renewable sources. Isosorbide is a bicyclic carbon molecule produced by the reaction modification of sorbitol and the optimal conditions of this reaction were studied in this work.
Journal of Applied Polymer Science
In this work, a novel sorbitol-based epoxy anti-smudge coatings (EPs) system were developed with sorbitol epoxy resin (SE) as raw material, branched amino poly (dimethysiloxane) (PDMS-NH 2) as a liquid-repellent agent and isophorone diamine as a curing agent.
(PDF) Investigating the thermal cure behavior of sorbitol
The addition of sorbitol during the condensation phase of resin synthesis allowed the formulation of MF resins with enhanced biobased properties and good impregnation behavior.
In today's era, where high performance and environmental sustainability are paramount, advancements in materials science provide robust support for human development. Particularly in the fields of coatings and adhesives, the development and application of novel materials have become focal points of industry attention. Among these, sorbitol-modified amino resin, as a synthetic resin with exceptional properties, is gradually gaining recognition. This article delves into the characteristics, applications, and future prospects of sorbitol-modified amino resin.
I. Introduction to Sorbitol-Modified Amino Resin
Sorbitol-modified amino resin is a novel synthetic resin that enhances the performance of amino resins by incorporating sorbitol, a polyol compound. This modified resin combines the excellent adhesion of amino resins with the plasticizing effect of sorbitol, resulting in significant improvements in mechanical strength, water resistance, and chemical resistance.
II. Characteristics of Sorbitol-Modified Amino Resin
- Superior Adhesive Properties: The hydroxyl groups in sorbitol molecules form hydrogen bonds with amino groups in the resin, enhancing cohesive strength. This enables the resin to deliver exceptional adhesion in various bonding applications.
- Excellent Mechanical Performance: The modified resin exhibits higher tensile and compressive strengths, making it suitable for scenarios requiring resistance to external forces.
- Enhanced Water and Chemical Resistance: Sorbitol-modified amino resin demonstrates strong resistance to water and chemicals, broadening its potential applications in construction, chemicals, and other industries.
- Eco-Friendly Material: Sorbitol, a renewable resource, reduces environmental pollution during production, aligning with contemporary green trends.
III. Applications of Sorbitol-Modified Amino Resin
- Coatings Industry: Used as a base material or additive, it improves adhesion, wear resistance, and corrosion resistance in automotive and architectural coatings.
- Adhesives Sector: Favored in furniture manufacturing and packaging materials for its durable bonding capabilities, reducing maintenance and replacement needs.
- Electronics and Electricals: Provides stable electrical connections and moisture resistance in electronic encapsulation materials, prolonging product lifespan.
- Medical Devices: Offers better biocompatibility and stability, meeting stringent material requirements for medical applications.
IV. Future Development Prospects
With technological progress and evolving market demands, the applications of sorbitol-modified amino resin are expected to expand further. Its eco-friendly nature and superior performance position it to play a pivotal role in driving industrial innovation. Ongoing advancements in production techniques may also enhance its properties, enabling use under more demanding conditions.
As an emerging synthetic resin, sorbitol-modified amino resin stands out for its outstanding performance and environmental benefits. With continuous technological advancements and market growth, this resin is poised to contribute significantly to human development through broader applications.
