1、松香改性酚醛树脂
松香改性酚醛树脂可广泛应用于酚醛树脂涂料(通过与植物油加热聚合),纹理印刷油墨,低端压敏胶增粘剂,热熔胶或其他黏接剂。 和植物油加热聚合后,可应用于酚醛树脂涂料。 制得涂料具有快干、硬度强和具有光泽等特点. The above information is believed to be accurate and presents the best explanation currently available to us. We assume no liability resulting from above content.
2、松香改性酚醛树脂_化工百科
松香改性酚醛树脂是一种通过将松香与酚醛树脂进行化学反应得到的树脂材料。 它具有以下性质: 耐磨性:松香改性酚醛树脂具有良好的耐磨性,能够抵抗摩擦和磨损。 耐腐蚀性:它对酸、碱和有机溶剂具有较高的耐腐蚀性。 耐热性:松香改性酚醛树脂可以在高温下保持稳定性,不容易发生分解或变形。 粘合性:它有很强的粘接力,能够与多种材料如金属、塑料和木材等进行良好的粘合。 粘合剂:其良好的粘接性能,常被用作粘合剂,在木材加工、胶合板和纸张制造等领域广泛应用。 涂料:它可以用于制备耐热、耐腐蚀的涂料,常被用于防腐涂料、船舶涂料和地坪涂料等。 塑料添加剂:在塑料制品中添加松香改性酚醛树脂可以增强其机械性能和耐候性。
3、松香改性酚醛树脂 CAS#: 68152
ChemicalBook 致力于为化学行业用户提供松香改性酚醛树脂的性质、化学式、分子式、比重、密度,同时也包括松香改性酚醛树脂的沸点、熔点、MSDS、用途、作用、毒性、价格、生产厂家、用途、上游原料、下游产品等信息。
Research progress on modification of phenolic resin
In recent years, more and more researchers have focused on the discussion of the properties of modified phenolic resins and gradually ignored the research on the synthesis processes that can affect the molecular structure and properties of phenolic resins.
ROSIN MODIFIED PHENOLIC RESIN
This product can be polymerized by vegetable oil to make phenolic paints with fast drying, good hardness and high gloss. It can improve the adhesion and reduce the cost for pressure-sensitive adhesive, hot-melt adhesive and other bonding agents.
Rosin Modified Phenolic Resin
This series of resins, modified by phenol and aldehyde, is made from high quality gum rosin. These products feature high molecular weight, high viscosity, high solubility, and high viscoelasticity. They are widely used for offset printing ink.
宝林化工
是由松香与苯酚 (双酚A)及甲醛缩聚后加入甘油或季戊四醇酯化,经真空处理后制成的不规则透明片状固体。 溶解于煤焦类,酯类及松节油等溶剂,不溶于醇类溶剂部份溶于石油类溶剂上,与植物油混溶性较好。 本品具有软化点高,干燥较快等优点。 本品与植物油热炼聚合可以应用于酚醛漆类,其漆具有干燥快、硬度高、光亮等特点,也可以加入不干胶、热熔胶及粘胶剂中改善产品粘接性能和降低成本,在油墨及工业中改善光亮度及丰满度。 » 加入不干胶、热熔胶及粘胶剂中可改善产品粘接性能和降低成本。 » 与植物油热炼聚合可以应用于酚醛漆及涂料,具有快干、高光泽、硬度好等特点。 复合牛皮纸袋包装,净重25公斤/包,打托20’货柜可装16吨(20托 / 640包),不 …
China Rosin Modified Phenolic Resin
Rosin Modified Phenolic Resin is the vacuum treated product of esterification of polyhydric acid with the polycondensate of rosin, phenol or bisphenol A and formaldehyde. It dissolves in tar, ester, gum turpentine and similar solvents, partly in petroleum products but not in alcohol solvents.
Rosin Modified Phenolic Resin_化工百科
Rosin Modified Phenolic Resin - 简介 松香改性酚醛树脂是一种通过将松香与酚醛树脂进行化学反应得到的树脂材料。 它具有以下性质: 耐磨性:松香改性酚醛树脂具有良好的耐磨性,能够抵抗摩擦和磨损。 耐腐蚀性:它对酸、碱和有机溶剂具有较高的耐腐蚀性。
松香改性酚醛树脂
ChemicalBook 为您提供松香改性酚醛树脂的化学性质,熔点,沸点,密度,分子式,分子量,物理性质,毒性,结构式,海关编码等信息,同时您还可以浏览松香改性酚醛树脂产品的价格,供应商,贸易商,生产企业和生产厂家,最后松香改性酚醛树脂的中文,英文,用途 CAS cas number cas no可能也是您需要的。
In the field of modern material science, the development and application of synthetic materials are key to advancing technological progress and industrial upgrading. Among these, phenolic resin, a time-tested thermosetting polymer, has gained widespread use in electronics, electrical engineering, construction, aerospace, and other fields due to its excellent physical properties, chemical stability, and electrical insulation characteristics. inherent drawbacks such as poor heat resistance and low mechanical strength have limited its application under more demanding conditions. To overcome these limitations, researchers have continuously explored new modification methods to enhance the comprehensive performance of phenolic resins.
Rosin, a natural high-molecular-weight compound, exhibits good thermoplasticity, malleability, a low melting point, and a high softening point. Introducing rosin into phenolic resin not only improves its processing performance but also imparts new physical and chemical properties. Research on rosin-modified phenolic resins began in the 1960s, and after decades of technical innovation, various modification methods and technological pathways have been established.
Rosin-modified phenolic resin 201, as a novel high-performance composite material, has attracted significant attention due to its exceptional properties. This resin is prepared through a specific process that ensures effective bonding between rosin and phenolic resin. The addition of rosin not only enhances processing performance but, more importantly, endows the resin with higher thermal resistance and mechanical strength.
First, from the perspective of thermal resistance, rosin-modified phenolic resin 201 demonstrates a clear advantage. Compared to traditional phenolic resins, this modified resin maintains stable performance at higher temperatures. This is attributed to the high melting point and excellent thermal stability of rosin, which prevents the resin from decomposing or softening under high-temperature environments. This characteristic has led to its widespread use in applications requiring extreme heat resistance, such as aerospace components and automotive engine parts.
Second, rosin-modified phenolic resin 201 exhibits superior mechanical strength. By adjusting the dosage and ratio of rosin, the hardness, toughness, and impact resistance of the modified resin can be precisely controlled. This makes it highly suitable for manufacturing products requiring high strength and wear resistance. For example, in the production of gears and bearings, using rosin-modified phenolic resin 201 significantly improves the lifespan and reliability of these precision components.
Beyond thermal resistance and mechanical strength, rosin-modified phenolic resin 201 offers additional advantages, including excellent electrical insulation, low water absorption, and ease of processing. These properties give it a competitive edge in specialized applications, such as electronic packaging materials and insulating coatings, where stable and reliable performance is critical.
The preparation process of rosin-modified phenolic resin 201 is also a key technological area. Traditional methods, such as melt mixing and extrusion molding, achieve effective bonding between rosin and phenolic resin but have limitations. For instance, temperature control during melt mixing can be challenging, potentially affecting resin performance. Extrusion molding requires strict condition control to ensure uniformity and stability.
Advances in technology have opened new possibilities for enhancing the performance of rosin-modified phenolic resin 201. The integration of nanotechnology and bio-based materials enables fine-tuning of the resin’s microstructure and properties. These innovations not only further improve performance but also expand its application range to meet diverse demands.
rosin-modified phenolic resin 201, as a high-performance composite material, showcases broad application prospects in multiple fields due to its excellent thermal resistance, mechanical strength, and electrical insulation properties. With ongoing innovations in preparation techniques, rosin-modified phenolic resin 201 is poised to find even wider use and development in the future.
