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。 它的分子质量一般小于 2 000,软化点小于 150 ℃,呈热塑性粘稠液体或固体。
2、恒河材料科技股份有限公司
碳九氢化石油树脂是由乙烯裂解副产C9馏分通过聚合及加氢获得的水白色热塑性树脂。 由于它具有较好的热稳定性,以及与EVA、SBS、SEBS、橡胶、BOPP、聚烯烃等树脂良好的相容性,因此广泛用于热熔胶和压敏胶领域。 本品可采用500-700kg塑料包装袋或用25KG塑料包装袋。 应室内储存,注意防火、防晒、防雨、放手钩,且环境温度不超过35℃,相对湿度不大于85%。
3、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.
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.
C9 Hydrogenated Hydrocarbon Resin
C9 Hydrogenated Hydrocarbon Resin specifications from Bohr Chemical - Water-white thermoplastic resin for hot melt adhesives, pressure sensitive adhesives, and rubber compounding. Technical specifications for HF, HP, HM, HS, HA, and HR series grades.
Esun®伊森 碳氢树脂 C9 SC
Esun® SC-120H 是一种浅色的芳烃树脂,由乙烯副产物芳香族C9馏分在分离提纯后经过催化聚合而成的合成树脂。 颜色浅,酸值低, 与其他各种树脂和聚合物 也有较好的相容性。 25kg袋装或根据客户需要。 颗粒状的树脂在较热的气候条件或离热源较近的情况下,很容易凝结或结块,请保存在阴凉通风处,避免太阳直接照射。
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 Catalyst Hydrocarbon Resin from China Manufacturer
C9 catalyst hydrocarbon resin is a kind of high performance synthetic resin, which is mainly made by polymerization of petroleum aromatics. Due to its excellent thermal stability and adhesion, cold-polymerized C9 resin is widely used in coatings, adhesives and other industrial products.
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 HYDROCARBON RESIN
C9 Hydrocarbon Resin exhibits outstanding solubility in various types of general solvents, and superb compatibility with synthetic resins including alkyd resin and phenol resin, and natural resins.
In numerous fields of modern industry, synthetic materials play a crucial role. Among them, C9 synthetic carbon-hydrogen resin, as a high-performance synthetic material, has been widely applied in multiple industries due to its excellent physical and chemical properties. This article explores the definition, characteristics, preparation methods, and practical significance of C9 synthetic carbon-hydrogen resin.
I. Definition and Composition
C9 synthetic carbon-hydrogen resin is a high-molecular-weight polymer synthesized from petroleum through polymerization reactions. It primarily consists of long-chain structures composed of carbon and hydrogen atoms, which are interconnected by covalent bonds. The unique molecular structure of C9 synthetic carbon-hydrogen resin endows it with superior mechanical properties, thermal stability, and chemical resistance.
II. Physical Properties
C9 synthetic carbon-hydrogen resin exhibits excellent mechanical properties, with adjustable strength and hardness depending on the formulation. Its low density makes it highly useful in manufacturing lightweight composite materials. Additionally, the resin demonstrates remarkable heat resistance and cold resistance, maintaining stable performance under extreme temperature conditions.
III. Chemical Properties
C9 synthetic carbon-hydrogen resin is highly resistant to most chemicals, including acids, alkalis, salts, and other organic solvents. Its chemical corrosion resistance has led to widespread applications in industries such as chemicals and petroleum extraction. The resin also possesses strong oxidation resistance, enabling it to withstand the effects of oxygen and moisture in the air, thereby extending its service life.
IV. Preparation Methods
The production of C9 synthetic carbon-hydrogen resin involves complex chemical reactions, including monomer selection, polymerization control, and post-processing. Suitable monomers such as styrene and acrylonitrile are first chosen, followed by polymerization via free-radical or ionic mechanisms. Controlling reaction conditions—such as temperature, pressure, and catalyst usage—is critical during polymerization. Finally, post-processing steps like drying, cutting, and grinding yield the finished product.
V. Application Fields
Due to its unique properties, C9 synthetic carbon-hydrogen resin is widely used across various sectors. In automotive manufacturing, it is employed for body panels and engine components; in aerospace, it serves as a lightweight yet robust structural material; in electronics, it is used for protective layers and casings of circuit boards; and in construction, it is utilized for waterproof roofing and exterior wall materials. Additionally, the resin is applied in pipelines, storage tanks, and insulating materials.
VI. Challenges and Prospects
Despite its advantages, C9 synthetic carbon-hydrogen resin faces certain challenges. For instance, high production costs limit its large-scale adoption. Researchers are exploring new manufacturing processes and technologies to improve efficiency and reduce energy consumption. amid growing environmental concerns, minimizing the ecological footprint of its production process represents a key direction for future research.
As a high-performance synthetic material, C9 synthetic carbon-hydrogen resin plays a vital role in modern industry. Its exceptional physical and chemical properties meet the demands of diverse sectors. With ongoing technological advancements and research, C9 synthetic carbon-hydrogen resin is poised to contribute even more significantly to industrial production, driving innovation and convenience in the future.
