1、Research and Prospect of Acrylic Polyester Resin Synthesis Process

This paper comprehensively introduces the synthesis method of acrylic polyester resin and systematically analyzes the key steps in the synthesis of acrylic polyester resin.

2、Preparation and Properties of Polyester Modified Waterborne High

A high hydroxyl content waterborne polyester-acrylate emulsion was successfully synthesized in two steps. Firstly, the carboxyl terminated unsaturated polyester was synthesized, then it was reacted as a monomer with acrylate monomer by emulsion polymerization using the semi-continuous seeded method.

3、Acrylic acid modified polyester polyol resin

LR-6363 is combining the advantages of polyester resin leveling, fullness, dispersibility and acrylic resin fast drying, weather ability, chemical resistance and other characteristics, included excellent pigment dispersion and suspension, recommended for 2KPU high gloss, high Fresh finish.

4、Study on Synthesis of Acrylic Modified Polyester Resin for

The resulting acrylic modified polyester resin coatings exhibited highertransparency and sloping flow compared to conventional polyester resin coatings，along with better water resistance and weathering resistance，while also maintaining mechanical properties and storage stability.

5、Polyester

This paper comprehensively introduces the synthesis method of acrylic polyester resin and systematically analyzes the key steps in the synthesis of acrylic polyester resin.

Research and Prospect of Acrylic Polyester Resin Synthesis Process

This paper comprehensively introduces the synthesis method of acrylic polyester resin and systematically analyzes the key steps in the synthesis of acrylic polyester resin.

Preparation and Properties of Polyester Modified Waterborne High

The introduction of polyester improved the flexibility and impact resistance of hydroxyl acrylate film, and made the modified resin have advantages of both.

Water

WLR-6500 is a super-disproportionation of water-soluble acrylic modified polyester resin with hydroxyl functional groups and has good adhesion on metal, Glass and Ceramics, excellent weather-resistant light-resistant properties and impact resistance.

水性丙烯酸改性饱和聚酯树脂

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Research and Prospect of Acrylic Polyester Resin Synthesis Process

This paper comprehensively introduces the synthesis method of acrylic polyester resin and systematically analyzes the key steps in the synthesis of acrylic polyester resin.

In today's chemical industry, advancements in materials science are driving industrial and technological progress at an unprecedented pace. Particularly in the production of coatings, adhesives, and composite materials, the research and application of new high-performance materials have become a hot topic. Among these, polyester-modified acrylic solid resin, as an emerging material, is gradually transforming traditional material usage paradigms due to its excellent performance characteristics.

Polyester-modified acrylic solid resin is a composite material that combines advanced polymer synthesis technology with chemical crosslinking techniques. It consists of two primary components: conventional acrylic solid resin and specially treated polyester resin. This hybrid structure endows the material with unique physical and chemical properties.

Firstly, in terms of physical properties, polyester-modified acrylic solid resin exhibits exceptional water resistance and solvent resistance. The acrylic component provides good hydrophilicity, while the polyester segment offers superior chemical stability and mechanical strength. This synergistic combination enables the material to maintain structural integrity and stability under harsh environmental conditions.

Chemically, the resin demonstrates outstanding aging resistance and ultraviolet (UV) durability. Over prolonged use, the material shows minimal performance degradation, thanks to the polyester component’s ability to resist UV radiation and extend the material’s service life.

Additionally, the resin boasts excellent processability. By adjusting the ratio of polyester to acrylic, critical performance parameters such as hardness, flexibility, and transparency can be precisely controlled. This adaptability allows the material to meet diverse industry demands, finding applications in construction, automotive, and electronics sectors.

In practical applications, polyester-modified acrylic solid resin has already showcased its advantages across multiple fields. For instance, in construction, it is widely used for flooring, wall, and ceiling coatings, delivering both decorative appeal and long-term protective functions. In the automotive industry, it serves as a corrosion-resistant and wear-resistant coating for vehicle bodies. In electronics, its superior insulating properties make it ideal for protective layers on circuit boards.

Despite its many benefits, the resin has certain limitations. For example, the inclusion of polyester increases material costs, potentially restricting its adoption in cost-sensitive markets. Additionally, its adaptability to extreme environmental conditions, such as high temperatures or humidity, may require further optimization.

Looking ahead, ongoing technological progress and deepening materials research promise further enhancements to the performance of polyester-modified acrylic solid resin. By refining production processes, reducing costs, and expanding applications, this material is poised to become a preferred choice for numerous industries.

as a novel material, polyester-modified acrylic solid resin is gradually reshaping traditional material usage patterns through its unique physical and chemical properties. Its emergence not only presents new opportunities for the chemical industry but also offers broader options and possibilities for various sectors. With continuous technological innovation, this material is expected to play an even greater role in advancing human society and development.