1、Application of Maleic Anhydride
The review presents analysis of the published data on the manufacturing technologies and application areas of polyethylene modified with maleic anhydride.
2、Preparation of excellent
Water-borne alkyd/acrylic hybrid resins with varied maleic anhydride (MA) content were synthesized from the reaction between alkyd intermediate (AK) and maleic anhydride modified acrylic prepolymer (AC) followed by neutralization of carboxyl groups with triethylamine.
3、Maleic Anhydride and Its Derivatives: A Brief Review of Reactivity and
Maleic anhydride (MAnh) and its derivatives comprise a collection of underutilized monomer classes, each with unique reactivities and properties, which afford the design and synthesis of highly functional (co)polymers.
4、Investigating the Reactive Reinforcement Ability of Maleic Anhydride
In this report, the extracted cellulose nanocrystals were modified using maleic anhydride to fabricate the polystyrene-based composite during the in situ emulsion polymerization of styrene.
Preparation and Adsorption Properties of Maleic Anhydride
This study is the first to report the successful synthesis of maleic anhydride-modified CNFs (MA-CNFs) via the esterification of CNFs using a solvent-free molten maleic anhydride (MA) system, and it systematically evaluates MACNFs’ dual adsorption performance for water-soluble and lipophilic drugs.
Preparation of maleic anhydride modified polyvinyl butyral and its
PVB is a polymer material that contains hydroxyl, ester, and acetal groups in macromolecules. The presence of hydroxyl groups makes PVB resin soluble in polar or strongly polar solvents, and can undergo cross-linking reactions with phenolic, urea formaldehyde, epoxy resins, etc., providing strong tear resistance and good bonding performance ...
Preparation of maleic anhydride modified polyvinyl butyral and
In order to recover and reuse rPVB, PVB-M was obtained by modifying and grafting pure PVB with maleic anhydride and introducing double bonds. The coated fabric was prepared by UV curing coating technology. The structural characterization of PVB-M showed that the grafting reaction was successful.
Studies on the Preparation,Modification and UV
Studies on the Preparation,Modification and UV-Shielding Performance of Maleic Anhydride Copolymer Microspheres
Research on the UV curing of maleic anhydride modified PVB water
The polyvinyl butyral ( PVB) graft modification product ( MPVB- M) was prepared by the reaction of maleic anhydride and PVB. The MPVB- M structures was characterized by IR and1 HNMR.
Preparation, characterization and application of maleic anhydride
Merging DMP and FRR methods into one-pot to develop a new strategy for the functionalized PLA materials. The innovative macromolecular intermediate PLAM is suitable for the introduction of various third alkenyl monomers. PLAM 20 -BA is expected to be used as a biodegradable toughening macromolecule.
In the vast realm of modern materials science, UV resins, as a critical class of photocurable materials, have long been a focus for performance optimization by researchers. Maleic anhydride (MA), a commonly used crosslinking agent, offers novel possibilities for UV resin modification due to its unique chemical structure and excellent properties. This article explores the impact of maleic anhydride on the performance of UV resins and its advantages in practical applications.
I. Basic Properties of Maleic Anhydride
Maleic anhydride is an unsaturated dicarboxylic acid containing two carboxylic groups, characterized by high reactivity and good thermal stability. Under ultraviolet (UV) irradiation, it rapidly polymerizes into high-molecular-weight products, making it a pivotal raw material for modifying UV resins.
II. Maleic Anhydride-Modified UV Resins
- Enhanced Crosslinking Density The incorporation of maleic anhydride significantly improves the crosslinking density of UV resins. Through chemical reactions, maleic anhydride interacts with hydroxyl groups in the resin, forming a stable polymer network that enhances mechanical strength and chemical resistance.
- Improved Water and Solvent Resistance Maleic anhydride-modified UV resins exhibit markedly better water and solvent resistance. Polar groups introduced by maleic anhydride effectively repel water and organic solvents, prolonging the resin’s service life.
- Optimized Transparency and Flexibility While maintaining high strength, these modified resins retain excellent transparency and flexibility. This combination enables their widespread use in applications such as transparent coatings and flexible films.
III. Applications of Maleic Anhydride-Modified UV Resins
- Electronic Encapsulation Materials In electronic packaging, maleic anhydride-modified UV resins are widely used due to their superior electrical and mechanical properties. These materials cure rapidly with low energy input, meeting the demands of high-speed production.
- Optical Material Fabrication In the optical field, these resins are employed to fabricate optical films, such as anti-reflective and anti-glare coatings. They deliver enhanced optical performance and resolution, satisfying the needs of advanced display devices.
- Biomedical Materials Due to their biocompatibility and biodegradability, maleic anhydride-modified UV resins are applied in tissue engineering scaffolds and drug delivery systems. These materials enable controlled drug release or cell growth promotion, offering new avenues for disease treatment.
Maleic anhydride-modified UV resins represent innovation not only in chemical structure but also in performance breakthroughs. This modification expands the application scope of UV resins, particularly in high-performance scenarios. With advancements in science and technology, maleic anhydride-modified UV resins are poised to find broader use across diverse fields, contributing significantly to human development.
