1、Novel multifunctional melamine borate

Melamine borate is a boron and nitrogen co-efficacious flame retardant, which has both solid phase flame retardant of boron and gas phase flame retardant of nitrogen.

2、Preparation of B/C/N materials from melamine resin with

B/C/N materials were prepared through carbonization of the boron-containing resin at 800-1000 °C in an inert atmosphere. A high nitrogen content (N/C ratio) was achieved through the formation of B-N bonding due to the added boron.

3、Research Progress in Boron

In this review, the current state of development of BPF and its composites is presented and discussed. After introducing various methods to synthesize BPF, functionalization of BPF is briefly summarized.

Method for preparing boron modified melamine formaldehyde resin

The most critical idea of the present invention is: utilize the organoboron compound of special structure to modify melamine formaldehyde resin, introduce the B-O bond of high bond energy in melamine formaldehyde resin, make the boron modified melamine formaldehyde resin th...

Melamine

Melamine-modified resin powder is a high-polymer material derived from ordinary resins modified by the incorporation of melamine monomers. Its primary function involves integrating melamine chains to improve resin properties, such as heat resistance, chemical tolerance, and mechanical strength.

Research progress on modification of phenolic resin

In recent years, more and more researchers have focused on the discussion of the properties of modified phenolic resins and gradually ignored the research on the synthesis processes that can affect the molecular structure and properties of phenolic resins.

Novel multifunctional melamine borate

In brief, the MB-BNNS were prepared by grafting MB onto boron nitride surfaces via a simple ball-milling and eco-friendly water scrubbing process. Subsequently, the epoxy composites with uniformly dispersed MB-BNNS were obtained by wet processing. The obtained epoxy composite with 5 vol% EP/MB-BNNS showed a optimally comprehensive performance.

Enhanced mechanical properties of melamine

Herein, we report the synthesis of non-covalently functionalized BNNPs via simultaneous mechanical exfoliation of pristine h-BN and melamine and the fabrication of M-BNNP-reinforced epoxy nanocomposite materials.

Research Progress in Boron

In this review, the current state of development of BPF and its composites is presented and discussed. After introducing various methods to synthesize BPF, functionalization of BPF is briefly summarized.

Novel multifunctional melamine borate

Novel multifunctional melamine borate - boron nitride nanosheets/epoxy composites with enhanced thermal conductivity, flame retardancy and satisfying electrical insulation

Boron-modified melamine resin powder, as an emerging material, demonstrates unique properties and application potential in modern industry. This material combines the excellent physical and chemical properties of boron with the superior processability of melamine resin, offering an efficient and eco-friendly solution for numerous industries. This article aims to explore in depth the properties, preparation methods, and practical applications of boron-modified melamine resin powder.

I. Basic Concept of Boron-Modified Melamine Resin Powder

Boron-modified melamine resin powder is a composite material primarily composed of boron compounds and melamine resin. The incorporation of boron compounds not only enhances the mechanical strength of the material but also improves its thermal stability and corrosion resistance. Meanwhile, melamine resin provides excellent processability and molding capabilities, endowing boron-modified melamine resin powder with broad application prospects in many fields.

II. Performance Characteristics of Boron-Modified Melamine Resin Powder

1. High Strength and Modulus: The addition of boron significantly improves the strength and modulus of melamine resin, making it suitable for manufacturing complex structural parts such as gears and bearings.

2. Excellent Heat Resistance: Boron-modified melamine resin powder maintains good physical and chemical properties under high-temperature conditions, suitable for applications requiring heat resistance.

3. Superior Wear Resistance: The inclusion of boron compounds effectively enhances the material’s wear resistance, prolonging product lifespan.

4. Good Chemical Resistance: The powder exhibits strong corrosion resistance against various chemicals, making it ideal for use in chemical and petrochemical industries.

5. Ease of Processing: Thanks to the excellent processability of melamine resin, boron-modified melamine resin powder is easy to mold, facilitating large-scale production.

III. Preparation Methods of Boron-Modified Melamine Resin Powder

1. Mixing Process: Boron compounds and melamine resin are thoroughly mixed in specific proportions to ensure uniform dispersion.

2. Molding Process: The mixed resin powder is shaped into desired products via injection molding, extrusion, blow molding, or other techniques.

3. Heat Treatment Process: Post-molded products undergo appropriate heat treatment to optimize their performance.

IV. Practical Applications of Boron-Modified Melamine Resin Powder

1. Electronics and Electrical Equipment: Used to manufacture parts such as motors and transformers due to its excellent heat and wear resistance.

2. Automotive Manufacturing: Applied in engine components and transmission systems to enhance reliability and durability.

3. Chemical Equipment: Utilized in reactors, pipelines, and other equipment due to its strong corrosion resistance.

4. Building Materials: Employed in flooring, ceilings, and other construction materials to improve overall performance.

Boron-modified melamine resin powder, as a high-performance composite material, boasts high strength, modulus, heat resistance, chemical resistance, and ease of processing. These advantages highlight its vast application potential across multiple industries. With ongoing technological advancements and growing market demands, boron-modified melamine resin powder is expected to play an increasingly critical role in future industrial development.