Hydrogenated Terpene Phenolic Resin

1、氢化萜烯酚醛树脂（CAS 1254557

Foreverest氢化萜烯酚醛树脂是氢化级萜烯酚醛树脂，它由可再生的萜烯树脂与苯酚共聚而成。在保持萜烯酚醛树脂原有性能的基础上，还具有优异的热稳定性和UV（紫外线）稳定性。该系列树脂可满足下游客户对透明度和稳定性的较高要求。 The above information is believed to be accurate and presents the best explanation currently available to us. We assume no liability resulting from above content.

2、Resin

This is a hydrogenated grade of terpene phenolic resin, which is a copolymer of renewable terpene monomers and phenol. In addition to the original properties of terpene phenolic resins, it offers excellent thermal and UV stability.

3、Hydrogenated Terpene Phenolic Resin

Hydrogenated Terpene Phenolic Resin is a light color transparent solid, made from terpenes and phenol through catalyzing polymerization and hydrogenation. It has good heat resistance, shear resistance, water resistance, long open time, high peel strength, and excellent tackiness.

4、Hydrogenated Terpene Phenolic Resin

Hydrogenated terpene phenolic resin is a variation of terpene phenolic resin derivative that has been chemically modified through a hydrogenation process. It offers superior technical properties compared to non-hydrogenated terpene resins.

5、Catalog

Bio-renewable: Compared with other hydrogenated tackifying resins groups (hydrogenated rosin resins and hydrogenated hydrocarbon resins), Hydrogenated terpene resins possess the highest amount of bio-renewable content.

DiagPoly™ Hydrogenated Terpene Phenolic Resin, Softening Point 110

Hydrogenated Terpene Phenolic Resin is a hydrogenated grade of terpene phenolic resin, which is copolymerized by combining the renewable terpene resin and phenol.

Bio

Phenols are a class of compounds that contain a hydroxyl (-OH) group attached to an aromatic ring. The resulting terpene phenolic resins are highly polar with very low molecular weight which make them useful in a variety of industrial adhesive and other applications.

YS Polyster UH115

YS Polyster UH115 by Yasuhara Chemical is an odorless, renewable, hydrogenated terpene phenolic resin with high softening point and high glass transition temperature.

Hydrogenated Terpene Phenolic Resin Suppliers, Manufacturer

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Terpene Phenolic Resins

CAS No.: 68648-57-7 Terpene Phenolic Resin is a light yellow, transparent solid, which has suitable softening point, good heat resistance, shear resistance, water resistance, long open time, high peel strength, and excellent tackiness.

In modern materials science, hydrogenated terpene phenolic resin has garnered significant attention due to its unique properties and widespread applications. This high-performance synthetic resin not only exhibits excellent physical and chemical properties but also demonstrates irreplaceable value across multiple domains. This article provides an in-depth exploration of the definition, characteristics, preparation methods, and applications of hydrogenated terpene phenolic resin.

Definition and Composition Hydrogenated terpene phenolic resin is a high-molecular-weight compound synthesized using terpenes as raw materials through phenolic resin synthesis processes. Its highly cross-linked network structure endows the resin with exceptional mechanical strength, thermal resistance, and chemical stability. Additionally, the presence of numerous polar groups in its molecular chains results in superior electrical insulation properties and anti-aging performance.

Physical and Chemical Properties

The thermal stability of hydrogenated terpene phenolic resin is remarkable, enabling it to maintain integrity under high temperatures. This characteristic makes it highly suitable for applications in aerospace, automotive manufacturing, and other fields requiring heat-resistant materials. For instance, it can be used as a high-temperature composite material for aircraft engine components or automotive exhaust system seals. In the electronics industry, its excellent electrical insulation properties make it ideal for use as adhesives in circuit boards or packaging materials.

The resin also boasts excellent processability, allowing for versatile shaping methods such as injection molding, extrusion, and lamination. Its wear resistance and corrosion resistance further enhance its suitability for harsh environments.

Applications

Hydrogenated terpene phenolic resin has diverse applications spanning from everyday life to advanced technology industries:

Construction: It is employed in building materials like doors, windows, flooring, and ceilings, where strength, durability, thermal insulation, and soundproofing are required.
Automotive Industry: Used in high-performance braking systems, fuel systems, and transmission components, which must withstand extreme temperature fluctuations and mechanical stress.
Electronics: Widely utilized in high-frequency circuit protection and signal transmission due to its low dielectric constant and electrical insulation properties. It also serves as encapsulation material for sensors and electronic components.
Aerospace: Applied in critical components of rocket engines and spacecraft structures, where ultra-high temperature and pressure resistance, along with tolerance to extreme environmental conditions, are essential.

Preparation Methods

The synthesis of hydrogenated terpene phenolic resin involves complex chemical reactions, including terpene extraction, phenolic resin synthesis, and hydrogenation. Terpenes are first extracted from natural sources (e.g., petroleum), followed by polymerization into phenolic resin. Hydrogenation is then performed to introduce polar groups, enhancing the resin’s properties. Meticulous control of reaction conditions is required to prevent side reactions.

As a novel high-performance synthetic resin, hydrogenated terpene phenolic resin plays an indispensable role across various sectors, from construction to automotive and electronic industries. With advancements in science and technology, its properties and application scope are expected to expand further, contributing significantly to human development.