1、C9石油树脂_百度百科

C9石油树脂是以裂解制乙烯装置的副产物C9馏分为主要原料，在催化剂存在下聚合，或将其与醛类、 芳烃、萜烯类化合物进行共聚合而制得的热塑性树脂。

2、Qilong

QILONG® L-Series Hydrocarbon Resin is a low molecular weight thermoplastic aromatic resin produced from petroleum derived C9 fraction through catalytic-polymerization technique. It's a transparent granular solid with the color of light yellow.

3、Puyang Changyu Petroleum Resins Co., Ltd.

Our resin products have been sold, 60 percent of products exported to Japan, Korea, Southeast Asia, Europe, North America, the Middle East, Taiwan and Hong Kong and other parts of the world.

C9 Hydrocarbon Resin_Wuzhou Long Teng Chemical Co., Ltd.

This series of resins is a thermoplastic aromatic petroleum resin produced by catalytic polymerization of C9 fractions derived from the thermal cracking process of naphtha.

C9冷聚石油树脂L

C9冷聚石油树脂是环型结构热塑性芳香族石油树脂，以裂解C9馏分为原料，在催化剂作用下反应，而制得的黄色透明状固体。

C9 氢化石油树脂/C9 Hydrogenated Hydrocarbon Resin

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. esin obtained from polymerizing of Aromatic and hydrogenation. With the good heat resistance and good compatibility with polymer such as SIS, EVA, SBS, . EB. , polyolefin, etc., HR-100 is w. <1. Gardner 3 �. . 500-700kg/ 袋.

C9 hydrocarbon resin

Luhua C9 petroleum resins are produced by catalytic or thermal polymerization of aromatic olefins from C9 feedstocks; and are pale yellow or dark pellets with good compatibility and stability.

C9 Resin & C5/C9 Resin

C5/C9 copolymer resin has excellent compatibility with EVA and SBS, suitable for EVA based woodworking adhesive and bookbinding adhesive, also can used in rubber compounding.

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.

C9 Hydrocarbon Resin

C9, Aromatic Resins are so named because they are generally polymers of nine-carbon aromatic monomers. They are based on aromatic feed-stocks that undergo very little refining prior to the polymerization of the resin.

In modern industrial production, resin materials are highly valued for their unique properties and widespread applications. As a high-performance synthetic resin, C9 Long Resin demonstrates exceptional value in industrial applications. This article explores its characteristics, advantages, and practical applications across multiple fields.

C9 Long Resin is a high-molecular-weight polymer synthesized through polymerization reactions using ethylene as the monomer. It exhibits excellent mechanical properties, including high strength, hardness, and wear resistance, making it highly advantageous for manufacturing wear-resistant components and high-strength structural parts. Additionally, its superior electrical insulation and corrosion resistance enable it to maintain stable performance under harsh environmental conditions.

In the automotive industry, C9 Long Resin is widely used in the manufacture of engine components, transmission systems, and vehicle bodies. Its outstanding mechanical and wear-resistant properties significantly extend the lifespan of vehicles while reducing maintenance costs. For example, pistons and connecting rods made from C9 Long Resin not only enhance overall engine performance but also decrease repair frequency and expenses.

The electronics industry also relies heavily on C9 Long Resin. It is commonly employed to produce circuit boards, housings, and protective layers for various electronic components. The resin’s excellent electrical insulation and anti-corrosion properties ensure stable operation of electronic devices in humid or high-temperature environments, safeguarding their safety and reliability.

Beyond traditional industrial applications, C9 Long Resin shows immense potential in aerospace. In aircraft manufacturing, it is used for critical components such as fuselage structures, wing spars, and landing gear, which must withstand extreme conditions like high temperatures, pressures, and friction. The use of C9 Long Resin in these areas improves aircraft performance while lowering production costs.

The preparation of C9 Long Resin typically involves free-radical polymerization technology. This method allows reactions to proceed at lower temperatures, simplifying production processes and reducing energy consumption. Additionally, the molecular structure of C9 Long Resin can be precisely controlled by adjusting the types and ratios of monomers, enabling tailored material properties to meet diverse industrial demands. This flexibility ensures its broad application prospects.

challenges remain in the application of C9 Long Resin. First, its relatively high cost limits its use in low-priced products. Second, its poor processability requires specialized techniques and equipment, increasing production complexity and costs. Furthermore, its stability under specific conditions warrants further research and improvement.

To overcome these challenges, future studies should focus on enhancing cost-effectiveness, improving processability, and stabilizing C9 Long Resin. By refining production techniques, developing new monomers and formulations, its performance can be optimized while reducing costs. Strengthened collaboration with downstream industries to expand its application scope will also be a key direction for future development.

as a high-performance synthetic resin, C9 Long Resin occupies an irreplaceable position in industrial fields. With continuous optimization of its properties and applications, C9 Long Resin is poised to play a larger role in future industrial production, contributing to human progress and development.