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 Rosin and Terpene Resins: Analysing Advantages for UV and
Owing to the molecular structural characteristics of hydrogenated rosin and hydrogenated terpene resins, they tend to display non-polar or weakly polar properties, resulting in good solubility in non-polar and weakly polar organic solvents.
3、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.
4、What Are the Characteristics of Hydrogenated Resin?
The main characteristics of hydrogenated resin include a high softening point, low melting point, and good thermal stability. These properties make it a preferred material for manufacturing rubber, plastics, and other products. these same traits also contribute to its environmental and health risks.
5、Hydrogenated Hydrocarbon Resin: Properties and Applications
Compared to non-hydrogenated petroleum resins, hydrogenated versions exhibit lighter color, superior weather resistance, enhanced chemical stability, and lower odor, making them suitable for...
Hydrogenated Hydrocarbon Resins (pure Series)
Hydrogenated resins are UV stable, clean, safe and broadly compatible with oil, bitumen, SBR and many other low-polar polymers and substances. These characters open a wide range of applications for NOVARES pure resins, including road marking paints, wax and oil modifications and cosmetics.
A Guide to Hydrocarbon Resins
Hanwha has developed a colorless and transparent hydrogenated hydrocarbon resin (H-HCR) with low odor, excellent thermal stability, and well-balanced adhesive properties.
Hydrogenated Petroleum Resin: Properties and Applications
Highly hydrogenated resins are typically harder and more brittle, while less hydrogenated resins are softer and more flexible. Hydrogenated petroleum resin is typically produced by a catalytic hydrogenation process.
What is Hydrogenated Rosin
Hydrogenated rosin, with its light color — sometimes almost water-clear — goes farther than old-style amber resins. The density comes in around 1.07 to 1.10 g/cm 3, lighter than some additives but just heavy enough for stable blending with other polymers or elastomers.
Hydrogenated Hydrocarbon Resin
This hydrogenation process imparts unique properties to the resin, such as oxidation resistance, tackiness, adhesion, flexibility and resistance, making it suitable for various applications across different industries such as in adhesives and in plastic compounds.
Hydrogenated resin, a chemical material, plays a crucial role in modern industry. With its unique physical and chemical properties, it is widely used in various fields, such as the preparation of plastics, rubber, and other polymer materials. despite its many advantages, the application of hydrogenated resin also faces certain challenges. This article explores the characteristics of hydrogenated resin and its limitations in practical applications.
Hydrogenated resin is a polymer compound obtained through chemical reactions that convert unsaturated bonds into saturated ones. This process typically involves the use of catalysts, such as hydrogenation catalysts or peroxides, to facilitate the reaction. The primary characteristic of hydrogenated resin is its highly saturated molecular structure, which endows it with excellent stability and heat resistance.
First, the molecular structure of hydrogenated resin ensures superior chemical stability. Due to its saturated carbon chain structure, hydrogenated resin is resistant to oxidation, hydrolysis, and other chemical reactions, thereby maintaining a longer service life. This makes it an ideal choice for manufacturing high-performance plastics and rubber. For example, in the production of automobile tires, hydrogenated resin can provide better abrasion resistance and durability, improving vehicle performance and safety.
Second, the heat resistance of hydrogenated resin is one of its most notable features. Compared to other types of resins, hydrogenated resin remains stable at higher temperatures. This is critical for applications in high-temperature environments, such as in the aerospace, electronics, and medical device industries. In these fields, hydrogenated resin can withstand extreme temperature fluctuations without deforming or degrading.
the application of hydrogenated resin is not without limitations. Despite its excellent properties, certain conditions may restrict its use. For instance, hydrogenated resin can release harmful gases under high-temperature environments, posing health risks to operators. Additionally, its relatively high cost limits its widespread adoption in mass production.
Beyond these advantages, hydrogenated resin has other distinctive features. For example, it exhibits good processability and can be shaped or molded using various methods. This versatility allows hydrogenated resin to be widely used in the manufacture of diverse products. Its malleability also enables it to be composited with other materials to achieve more complex structures and functions.
From an environmental perspective, hydrogenated resin performs well. Due to its chemical stability and heat resistance, it does not generate hazardous substances during use, minimizing its environmental impact. This makes hydrogenated resin an eco-friendly material aligned with sustainable development goals.
hydrogenated resin, as a high-performance polymer compound, offers numerous benefits, including exceptional chemical stability, heat resistance, and processability. it also faces challenges such as high costs and the release of harmful gases under high temperatures. in practical applications, it is essential to select appropriate hydrogenated resin products based on specific needs and adopt measures to address these limitations.
