1、聚合物/树脂/功能化学品｜产品信息｜三菱化学株式会社

现在三菱化学正在开发的透明生物工程塑料“DURABIO™”在透明性等特性方面超越了现有的以双酚A为原料的聚碳酸酯树脂（PC树脂），更因为使用了与PC树脂不同的具有独特的脂环式氧结构（非芳香族结构）的植物萃取原料，不仅光学特点优异（双折射低・透明度高・亮度高），还具有 (b)耐热性、 (c)耐光性良好、 (d)表面硬度高（铅笔硬度）、 (e)刚性强、 (f)生物塑胶度等，相折衷的功能、特点并存的特征。 DURABIO™虽然是植物萃取的聚合物，却具有以往生物分解聚合物所没有的优异耐久性。 三菱化学计划充分发挥这些特点，将其广泛应用于世界先进的光学与能源相关部材，高性能玻璃换代品材料，电子仪器、汽车箱体、内外装材料等领域中去。 PTMG (四氢呋 …

2、Terpene Resins

As one of our core products, terpene resins are widely used as tackifiers for adhesives. They offer broad compatibility by either homopolymerizing terpene monomers—biomass-based raw materials—or copolymerizing them with other components.

3、β

该树脂主要用于溶剂型SBS胶黏剂、氯丁胶黏剂、压敏胶及热熔胶的增黏树脂，并应用于油墨、涂料和塑料等领域。 其制备方法为α-蒎烯通过催化剂聚合生成，具备耐热性、耐光性及良好绝缘性能。

4、产品与技术

三菱化学功能塑料的产品组合，适用于高度具体化的应用。

5、萜烯树脂

[Internal Sharing Session Memo] Differences between Terpene Resins Synthesised from Different Pinene Monomers, Their Applications, and a Discussion on Resin Supply Chain Stability

TERPENE RESIN_化工百科

TERPENE RESIN - 简介 萜烯树脂是一种高分子化合物，具有以下特性： 物理性质：萜烯树脂通常为无色或淡黄色固体，具有良好的热稳定性和化学稳定性。 化学性质：萜烯树脂具有较好的溶解性，可以在一些有机溶剂中溶解，如丙酮、甲醇和二氯甲烷。

三菱工程塑料株式会社

作为工程塑料产品的综合制造企业，为顾客和社会不断提供值得信赖的产品和服务。

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.

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Published resin data is always generated from injection molded test specimens processed under ideal conditions and is suitable for comparing different resin grades. In practice the actual properties of molded parts are influenced by gating, part geometry and material flow within the mold cavity.

Polymers / Resins / High Performance Chemicals

Polymers / Resins / High Performance Chemicals of Mitsubishi Chemical Corporation.

In numerous fields of modern industry, materials science plays a pivotal role. Among these, a high-performance polymer material known as Mitsubishi Terpene Resin has garnered significant attention due to its unique properties and broad application prospects. Also referred to as polyterpene resin, this material is a high-molecular-weight polymer formed through the polymerization of various terpene monomers. Not only does it exhibit excellent physical and chemical properties, but it also demonstrates immense potential across diverse industries. This article explores the characteristics, applications, and future development trends of Mitsubishi Terpene Resin.

I. Basic Properties of Mitsubishi Terpene Resin

Mitsubishi Terpene Resin is a high-molecular-weight polymer synthesized from multiple terpene monomers, including α-pinene, β-pinene, and limonene. During polymerization, these monomers undergo addition reactions via carbon-carbon double bonds, forming long-chain polymer structures. Its key properties include:

1. High Purity: The production process rigorously selects and treats raw materials to ensure the absence of harmful substances such as heavy metals and volatile organic compounds (VOCs). This enables its use in high-end applications.

2. Thermal and Chemical Resistance: The resin boasts a high melting point, superior heat resistance, and strong tolerance to most chemicals, maintaining stability even in harsh environments.

3. Processing Versatility: It exhibits excellent solubility and workability, allowing fabrication into various shapes via extrusion, injection molding, and other methods. This versatility has fueled its adoption in packaging, construction, automotive, and other sectors.

II. Application Fields of Mitsubishi Terpene Resin

Owing to its exceptional performance, Mitsubishi Terpene Resin is widely used in the following areas:

1. Packaging Materials: Its barrier properties and transparency make it ideal for food packaging films, beverage caps, and other applications. These materials effectively preserve freshness while blocking UV radiation and oxygen permeation.

2. Building Materials: With superior fire resistance and sound insulation, the resin is employed in fireproof panels, acoustic boards, and other construction materials, enhancing safety and comfort in buildings.

3. Automotive Manufacturing: Its lightweight yet robust nature supports the production of automotive parts and interior components, reducing vehicle weight to improve fuel efficiency and safety.

4. Electronics: The resin’s insulating and antistatic properties are critical in liquid crystal displays (LCDs), solar cells, and other electronic devices.

III. Future Development Trends

Advancements in technology and evolving material needs will further expand the applications of Mitsubishi Terpene Resin. Key trends include:

1. Green Manufacturing: Growing environmental awareness drives efforts to optimize production processes, reduce energy consumption, and minimize pollutants, aligning with sustainable development goals.

2. Functionalization: By incorporating specialized monomers or modifying the resin’s structure, new functionalities (e.g., enhanced durability or conductivity) can be introduced to meet niche market demands.

3. Customized Solutions: Collaborating with downstream industries, tailored formulations will address specific performance or aesthetic requirements, catering to diversified consumer needs.

As a high-performance polymer, Mitsubishi Terpene Resin has demonstrated transformative potential across multiple industries. With ongoing technological progress and shifting market demands, its future prospects are promising. It is poised to continue leveraging its unique advantages, driving innovation and contributing to societal advancement.