1、萜烯酚树脂_百度百科
萜烯酚树脂是苯酚改性的萜烯树脂,由σ-蒎烯与苯酚在催化剂作用下反应制得,外观呈棕黄色块状或粒状固体,颜色较普通萜烯树脂更深。 其平均分子量超过800,羟基值约246mgKOH/g,相对密度0.90~1.03,软化点范围为80~148℃,150℃时黏度为1126mPa·s,可溶于芳烃、酮类及酯类溶剂,具有粘接力强、内聚力大、耐热性高、耐老化性能优异、与树脂及橡胶相容性好且无毒的特性。 该树脂按质量指标分为优等品与一等品,色度分别不超过8和11铁-钴色号,酸值上限为1.0mgKOH/g和2.0mgKOH/g。 国外主要牌号包括美国SP-567、560、553等型号。 广泛应用于胶黏剂增黏领域,适用于制造热熔胶、压敏胶、复膜胶、密封胶,同时在涂料、油墨、塑料改性和 …
2、Terpene Resins
Our product line ranges from straight terpene resins made solely from renewable materials to terpene-based copolymers with petroleum-based components. Our hydrogenated resins are excellent in terms of color, thermal stability, and UV resistance.
3、萜烯樹脂 (高分子化合物):基本信息,產品特性,理化性能
β- 萜烯樹脂 (Terpene resin)是一種易溶於有機溶劑,不溶於乙醇和水的化學試劑,常常用作溶劑型SBS膠黏劑、氯丁膠黏劑、壓敏膠和熱熔膠的增黏樹脂。
氢化萜烯酚醛树脂(CAS 1254557
Foreverest氢化萜烯酚醛树脂是氢化级萜烯酚醛树脂,它由可再生的萜烯树脂与苯酚共聚而成。 在保持萜烯酚醛树脂原有性能的基础上,还具有优异的热稳定性和UV(紫外线)稳定性。 该系列树脂可满足下游客户对透明度和稳定性的较高要求。 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.
TERPENE RESIN_化工百科
萜烯树脂乳液主要用于热熔和压敏胶黏剂、印刷油墨、涂料、食品包装和口香糖业。 热熔胶也用于织物的上浆剂,用于增强其附着性和防水性. 可存放牛皮纸袋或塑料容器,贮放于阴凉通风干燥处,远离火源,避免日晒雨淋和锐利物刺破包装袋。 可以使用多层重包装塑料袋或编织袋或内衬塑料膜包裹,适合非危险品运输。 萜烯树脂为低分子量的热塑性树脂,由黏稠液体直至脆性固体呈淡黄色,不变色遇光和热,耐稀酸、稀碱,但不溶于水、甲醇、乙醇、丙酮和乙酸乙酯等。 易溶于植物油、矿物油、苯、甲苯、节油、氯代烃、醚类等。 萜烯单体可以相互或与苯乙烯共聚,制成萜烯共聚物。 萜烯与苯酚反应可制萜烯一酚树脂。
Terpene Resins
Terpene Styrenated Resin is a light color, low odor, heat stable resin, made from turpentine and styrene, through catalyzing polymerization. It is well compatible with EVA, EMA, SBC, SIS, SBS, SEBS, styrene-butadiene block copolymer, SBR, nature rubber.
Terpene based resin TC
Terpene-based resin is a polymer obtained by introducing a small amount of piperylene for reaction in the process of producing terpene resin. This type of resin basically retains the characteristics of terpene resin and at the same time has the characteristics of petroleum resin.
Yasuhara YS Resin PX 1150 (Terpene Resin)
ChemicalBook 为您提供Yasuhara YS Resin PX 1150 (Terpene Resin) (35227-16-8)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Yasuhara YS Resin PX 1150 (Terpene Resin) (35227-16-8)产品的价格,供应商,贸易商,生产企业和 ...
Terpene Resin
A tackifier produced from the polymerization of the renewable material terpene monomer, and applied as a highly valued-added adhesive due to its excellent compatibility with various elastomers for exhibiting superior adhesive properties.
Terpene resin
Terpene resin (CAS 9003-74-1) information, including chemical properties, structure, melting point, boiling point, density, formula, molecular weight, uses, prices, suppliers, SDS and more, available at Chemicalbook.
On the stage of modern industry, terpene resin has become an indispensable part of many material science fields due to its unique properties and widespread applications. Among them, terpene resin 1160, as a high-performance synthetic resin, not only drives innovation in materials science but also brings revolutionary changes to various industries.
Terpene resin 1160 is a high-molecular-weight polymer derived from natural terpene compounds through complex chemical processing. It boasts excellent thermal stability, mechanical properties, and chemical inertness, enabling it to maintain performance in harsh environments. For instance, in the aerospace sector, its lightweight and high-strength characteristics make it widely used in the manufacturing of aircraft structural materials. In the electronics industry, its insulating and antistatic properties render it an ideal material for circuit board production.
From a production perspective, the preparation of terpene resin 1160 involves intricate chemical reactions, including catalytic hydrogenation, oxidation, and polymerization. These processes require precise control of temperature, pressure, and reaction conditions to optimize product performance. Notably, its production is energy-intensive, prompting researchers to focus on reducing energy consumption while maintaining efficiency.
Beyond traditional applications, terpene resin 1160 reveals surprising new uses. In healthcare, its biocompatibility and degradability allow it to serve as absorbable wound dressings and tissue engineering scaffolds. In agriculture, it can be processed into soilless cultivation substrates to enhance crop yield and quality. Additionally, with advancements in nanotechnology, terpene resin 1160 is being explored for nanocomposite manufacturing, showcasing immense potential.
despite its promising prospects, challenges remain. Improving stability under extreme conditions, cost reduction for broader commercialization, and minimizing pollution emissions during production are critical areas of research.
When discussing its future, terpene resin 1160’s eco-friendly traits deserve attention. Unlike petroleum-based plastics, this resin is a fully renewable resource. At the end of its life cycle, it naturally decomposes into harmless substances, leaving minimal environmental impact. This sustainability advantage positions it as a green alternative.
Looking ahead, ongoing technological progress and material research will likely expand terpene resin 1160’s applications. Whether in aerospace, electronics, healthcare, or agriculture, this versatile resin is poised to play a larger role. Scientists are also expected to address existing challenges, accelerating its commercial adoption and mainstream integration.
terpene resin 1160, as a high-performance synthetic resin, holds boundless possibilities for future development. Through continuous innovation and expanded applications, it is set to become a leader in diverse fields in the near future.
