1、C9 氢化石油树脂/C9 Hydrogenated Hydrocarbon Resin

氢化石油树脂/C9 Hydrogenated. Hydrocarbon Resin RES-900 1. 产品描述/Product Description 碳九氢化石油树脂是由乙烯裂解副产C. 9馏分通过聚合及加氢获得的水白色热塑性树脂。具有较好的热稳定性,以及与SIS、EVA、SBS、SEBS 、聚. 烃等聚合物有良好的相容性,可用于橡胶混炼。 RES-900 is water-white thermoplastic.

2、C9氢化石油树脂MA

C9氢化石油树脂是热塑性芳香族石油树脂，以裂解C9馏分为原料，通过催化后，加氢而制得的无色透明状固体。 无色透明、气味较小。 热稳定性好、抗氧性能优良、耐热、耐候性好。 易溶于有机溶剂，如苯、甲苯 、二甲苯 、烷烃、氯代烃等，不溶于水与醇类。

3、Hydrogenated Hydrocarbon Resins (pure Series)

NOVARES pure resins are produced with a well-controlled molecular design and a highly efficient hydrogenation and purifying process. They are based on C9 or DCPD/C9 Monomers.

4、Bitoner® C9 Hydrocarbon Resin

Bitoner® C9 Hydrocarbon Resins are thermoplastic resins with low molecular weight, obtained from polymerizing unsaturated aromatic petroleum feedstock. They are soluble in most industrial solvents, and particularly in aromatic and aliphatic ones.

台湾联超氢化C9石油树脂FUCLEAR FP 140 Hydrogenated

具有幾乎無味、淺色、高度氫化純碳 9 石油樹脂。 作為增黏劑，FUCLEAR 與 EVA 樹脂有良好的相容性，並具有極佳的熱穩定性。 藉由控制氫化程度，FUCLEAR 產品可使用於各種不同的領域，特別是高品質的 EVA 熱熔膠應用.

C9氢化石油树脂

C9氢化石油树脂具有较好的热稳定性，以及与SIS、EVA、SBS、SEBS、聚烯烃等聚合物有良好的相容性，因此广泛用于热溶胶和压敏胶领域。

C9 HYDROGENATED HYDROCARBON RESIN – Petroleum resin

This product is high quality, multi-purpose water white thermoplastic resin abtained by polymerization and hydrogenation of C9 fraction, a byproduct of the ethylene plant.

恒河 C9加氢石油树脂 Hydrogenated Hydrocarbon Resin

以下是关于加氢石油树脂的详细介绍：1.基本概念加氢石油树脂是通过对传统石油树脂（C5、C9或C5/C9共聚物）进行**催...

C9 Hydrogenated hydrocarbon Resin

Kaiying hydrogenated hydrocarbon resin can be used in high-end hot-melt adhesives for hygiene products, as well as hot-melt pressure-sensitive adhesives and other adhesive products.

Hydrogenated Hydrocarbon Resin / C9 Petroleum Resin From China for

It is a water-white thermoplastic resin derived from the polymerization and hydrogenation of the C9 fraction. The hydrogenation process enhances its properties, providing improved stability and versatility for various applications.

In modern industry and chemical engineering, resins—as essential organic polymeric materials—are widely utilized due to their unique physical and chemical properties. Among these, hydrogenated C9 resin stands out for its superior performance, becoming a preferred material across numerous fields. This article provides an in-depth exploration of hydrogenated C9 resin, covering its definition, characteristics, applications, preparation methods, and significance in modern industry to fully elucidate the distinctive features of this polymer.

Hydrogenated C9 resin is a polymer formed by introducing hydrogen atoms into the molecular chain of C9 compounds through specific chemical reactions, resulting in a highly saturated structure. This modification process enhances the resin’s mechanical strength, thermal stability, chemical resistance, and oil tolerance, expanding its application potential, particularly in fields such as petroleum refining, chemical production, and aerospace engineering.

Performance Characteristics

Hydrogenated C9 resin exhibits exceptional properties:

1. High Softening Point: It maintains structural integrity under extreme temperature fluctuations without deforming or melting.
2. Enhanced Mechanical Strength: Its tensile strength and modulus surpass those of traditional resins, ensuring durability under external forces.
3. Wear and Chemical Resistance: It retains stability in harsh environments, including abrasive and corrosive conditions.

Applications

Hydrogenated C9 resin delivers outstanding performance in practical use:

• Petroleum Refining: Acts as a catalyst carrier, improving efficiency and longevity in refining processes.
• Plastics Manufacturing: Widely used for high-performance plastics due to its excellent processing and mechanical properties.
• Aerospace Industry: Favored for lightweight yet strong components in aircraft structures and engines.

Preparation Methods

Advanced technologies are employed to synthesize hydrogenated C9 resin:

1. Catalytic Hydrogenation: The most common method, involving high-temperature, high-pressure hydrogenation of C9 compounds using specialized catalysts. This approach offers precise control over saturation and performance.
2. One-Step Method: Direct hydrogenation post-synthesis of C9 compounds, though limited by raw material purity and reaction conditions.
3. Gas-Phase Method: Utilizes inert gases to facilitate hydrogenation, enabling higher purity and controlled reactions.

Safety Considerations

Safety protocols are critical due to the resin’s reactivity with certain chemicals, which may release hazardous substances. Strict adherence to safety guidelines ensures risk-free handling and application.

Future Prospects

With technological advancements, hydrogenated C9 resin is poised to expand into new domains. Its unique properties position it to contribute significantly to industrial innovation and societal progress.

Hydrogenated C9 resin, as a high-performance polymer, plays an irreplaceable role in modern materials science. From its definition and properties to preparation methods and industrial applications, it exemplifies the fusion of chemical engineering and practical utility. As science and technology evolve, hydrogenated C9 resin’s potential remains boundless, offering limitless opportunities for future development.