1、氢化石油树脂_百度百科

氢化石油树脂是以裂解碳五馏分为主要原料，经阳离子聚合与氢化工艺制成的热塑性树脂。 该物质呈现白色至浅黄色固态颗粒或片状，密度介于0.95-1.01g/cm³，190℃熔融黏度≤400mPa·s。 其核心特性包含耐热老化性提升、色度低（铁钴色号）、与SBS/SIS/EVA等高分子材料相容性优异。 作为增黏剂广泛应用于热熔胶、压敏胶及溶剂型胶黏剂体系，通过调节粘度与粘结强度提升制品初始粘性，在无纺布卫生用品、汽车组装、商品包装等领域具有重要作用。 发明专利数据显示，该树脂在粘合剂配方中按5-100重量份添加时可增强高温高湿环境下的热保持性能。

2、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.

3、C5氢化石油树脂CH

应用于 SBR 橡胶、天然橡胶及丙烯酸等方面的溶剂型胶粘剂。 其它广泛应用于：油漆、路标漆、橡塑改性等行业。

Eastman™ 增黏樹脂 (石油樹脂)

Eastman™ Tackifier Resins (Hydrocarbon resin, HCR), also known as tackifier resins, are byproducts of petroleum cracking. They are generally categorized into four types: C5 aliphatic, C9 aromatic, DCPD (dicyclopentadiene, cycloaliphatic), and pure monomers (e.g., poly SM, AMS, etc.).

氢化石油树脂/Hydrogenated Hydrocarbon R

arbon Resin RES-100 1. 产品描述/Product Description RES-100 为颜色非常浅的氢化石油树脂,经过 DCPD(双环戊二烯)的聚合和加氢反应所产生,产品具有优秀的热稳定性,与 SBC、EVA 及 APAO 等各种弹性体有较好的相容性,主要用于热熔胶、热熔�. 敏胶及橡胶类溶剂型压敏胶等产品的增粘。 RES-100 is a very light color hydrogenated hydrocarbon resin, obtained from polymerization and hydrogenation of DCPD ingredients, with excellent heat stability and go.

Properties and Applications of Hydrogenated Petroleum Resin

Hydrogenated petroleum resin is a high-quality, versatile, water-white tackifying resin primarily used in the manufacturing of hot melt adhesives, pressure-sensitive adhesives, and other adhesives. It plays a role in tackification, compatibility, thermal stability, and light stability.

Hydrogenated Resin

Hydrogenated C5 resin is hydrogenated, water white tackifying resin. It has good compatibility with adhesive base polymers like EVA, APAO, SBC. The major usage are as tackifier for HMA, HMPSA and SBPSA. Hydrogenated DCPD Resin. Hydrogenated DCPD resin is hydrogenated, water white tackifying resin.

Hydrogenated Petroleum Resin: Guide to Types, Applications

Discover what hydrogenated petroleum resin is, its key types (C5, C9, DCPD), and how it enhances adhesives, coatings, rubber, and inks. Learn why it's a preferred material in industrial applications

Qilong

This resin shows outstanding affinity for pigments, superior process ability in the hot melt road marking application and good compatibility with base polymer, natural tackifier and good heat stability in hot melt adhesive application.

DCPD氢化石油树脂P

ENGLISH NAME : DCPD hydrogenated petroleum resin，Alicyclic hydrogenated petroleum resin 产品描述 DCPD氢化石油树脂是双环戊二烯在一定的温度和压力条件下，经过聚合、加氢、精制等工序后而制得的无色、透明状、热塑性、脂环族石油树脂。 特性 Ø 无色透明、气味较小。

Decoding the Science and Potential of Pure Hydrogenated Petroleum Resin

In the rapid advancement of modern industry and technology, a material known as pure hydrogenated petroleum resin is gradually emerging as a critical component. Renowned for its unique properties and promising applications, this material has garnered significant attention and research interest. This article delves into the scientific foundation, manufacturing processes, performance characteristics, and multifaceted application potential of pure hydrogenated petroleum resin.

Scientific Foundation Pure hydrogenated petroleum resin is a high-molecular-weight compound derived from petroleum products through chemical processing. Its basic structure consists of long-chain alkanes linked by hydrogen bonds or other chemical bonds. The abundance of carbon atoms in its molecular chains endows the resin with exceptional heat resistance, chemical corrosion resistance, and mechanical strength.

Manufacturing Process The production of pure hydrogenated petroleum resin begins with distillation and cracking of petroleum feedstocks to obtain light or heavy oils. These oils then undergo catalytic hydrogenation reactions, transforming hydrocarbons into stable long-chain alkanes. This process typically occurs under high-temperature and high-pressure conditions to achieve high-purity resin.

Performance Characteristics and Applications

1. Plastics Industry: Pure hydrogenated petroleum resin is widely used to produce high-performance plastics such as polyamides and polycarbonates. These materials, prized for their mechanical strength, wear resistance, and impact resistance, are integral to automotive, aerospace, and electronics sectors.

2. Coatings Industry: The resin enhances coatings by providing superior adhesion, abrasion resistance, and chemical stability, ensuring durability in extreme environments. Its versatility also allows for easy processing via extrusion, injection molding, and other techniques.

3. Rubber Industry: By improving heat resistance, chemical resistance, and mechanical strength, the resin extends the lifespan of rubber products. Its excellent electrical insulation properties make it suitable for cable materials and electrical insulation applications.

4. Construction Sector: The resin’s water vapor barrier and UV resistance capabilities safeguard building materials in harsh conditions. Additionally, its thermal insulation properties contribute to energy efficiency in structures.

Future Prospects and Challenges While pure hydrogenated petroleum resin holds immense potential, its adoption faces challenges. High production costs limit widespread use in certain fields, and its processing flexibility remains constrained in practical applications. To address these issues, researchers are exploring improved synthesis methods, cost-reduction strategies, and hybridization with other materials to expand functionality and applicability.

As a high-performance material, pure hydrogenated petroleum resin merits in-depth exploration of its scientific, manufacturing, and application-driven aspects. With ongoing technological advancements, it is poised to unlock new frontiers and deliver greater value across diverse industries.

This translation balances technical accuracy with readability, ensuring key terms (e.g., "catalytic hydrogenation," "mechanical strength") align with industrial terminology while maintaining clarity. Let me know if further refinements are needed!