1、氢化石油树脂

鲁华氢化石油树脂是多稀烃单体经聚合和加氢而得到的高品质、多用途的水白色热塑性树脂。 具有良好的热稳定性和相容性。

2、日本ENEOS氢化树脂HB103 低气味良好热稳定性 应用胶黏剂

阿里巴巴日本ENEOS氢化树脂HB103 低气味良好热稳定性 应用胶黏剂 热熔胶，不饱和聚酯树脂，这里云集了众多的供应商，采购商，制造商。

3、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。

4、PDS HB103

T-REZ HB103 resin is a water white hydrogenated aromatic modified cycloaliphatic hydrocarbon resin. It is designed to tackify a variety of adhesive polymers including EVA, SIS and SBS block copolymers.

5、HG_T 6042

内容提示： lCS 83．080．20CCS G 30中华人民共和国化工行业标准HG／T 6 042—2022氢化石油树脂Hydrogenated petroleum resin中华人民共和国工业和信息化部发布

HG/T 6042

本文件适用于经加氢工艺制得的加氢或部分加氢的石油树脂产品。 本文件规定了氢化石油树脂的分类和命名、技术要求、试验方法、检验规则及标志和随行文件、包装、运输和贮存。 本文件适用于经加氢工艺制得的加,标准网,标准分享网,标准下载网,免费标准网,标准信息网,国家标准网.

T

T-REZ HB103 by ENEOS is high quality, DCPD/C9-based hydrogenated alicyclic hydrocarbon resin. It can be used as a tackifier. It is recommended for EVA, SIS, SBS-hot melt adhesives. It is suitable for disposable paper, diaper, packaging & automobile assembly.

氢化石油树脂 CAS#:

ChemicalBook 致力于为化学行业用户提供氢化石油树脂的性质、化学式、分子式、比重、密度,同时也包括氢化石油树脂的沸点、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。

石油樹脂（炭化水素樹脂）／T

T-REZ Rシリーズは、天然ゴム、SIS、SBS、EVA、メタロセン系ポリオレフィンエラストマー、APP、APAO、ポリイソプレン、ポリイソブチレンおよびブチルゴムのような種々の粘・接着剤用ベースポリマーに対して優れた相溶性を示す未水添炭化水素樹脂です。 T-REZ Premiumシリーズは、ポリマー改質性能に優れた炭化水素樹脂です。 弊社商品の安全データシート（SDS）を閲覧用として掲載いたします。 商品によってはSDSの交付が法律で義務付けられているものもあるため、SDSをご利用される場合は弊社販売担当者より入手いただくようお願いいたします。

Hydrocarbon Resin / T

T-REZ H Series are water white hydrogenated cycloaliphatic hydrocarbon resins. Those are designed to tackify a variety of adhesive polymers including EVA, SIS, SEBS, SBS, metallocene polyolefin elastomer, APP and APAO.

In the vast realm of the chemical industry, petroleum derivatives have become indispensable due to their abundant resources and diverse applications. Among them, hydrogenated petroleum resin HB103 has attracted significant attention because of its unique properties and widespread use. As an important chemical raw material, HB103 not only plays a critical role in industrial production but also demonstrates its value in environmental protection and sustainable development. This article aims to explore in depth the characteristics, applications, and societal impact of hydrogenated petroleum resin HB103, with the goal of providing references for research and practice in related fields.

Hydrogenated petroleum resin HB103 is a high-molecular-weight compound produced through hydrogenation reactions during petroleum processing. Its molecular structure contains numerous carbon-carbon double bonds, endowing HB103 with distinctive physical and chemical properties, such as a high softening point, excellent heat resistance, and superior chemical corrosion resistance. These traits make HB103 widely used in the manufacture of high-performance materials and coatings.

In industrial applications, HB103 is extensively employed in the production of rubber, plastics, coatings, adhesives, and other products. For instance, in tire manufacturing, HB103 significantly improves wear resistance and aging resistance; in plastics, it enhances toughness and heat resistance; and in coatings, it strengthens adhesion and corrosion resistance.

Beyond traditional industries, HB103 has also shown promise in new energy sectors. As a key component of lithium battery electrolytes, HB103 boosts battery performance and safety. Additionally, it can be used in fuel cell electrolyte materials, improving efficiency and lifespan.

the broad application of HB103 has raised growing concerns about its environmental impact. Since its production may generate harmful byproducts and emissions, achieving eco-friendly manufacturing and recycling has become an urgent challenge.

To address this, researchers and enterprises are exploring greener production processes and recycling technologies. For example, optimizing catalyst use and reaction conditions can reduce energy consumption and waste discharge. Meanwhile, developing efficient separation and recycling techniques is crucial for sustainable utilization. Comprehensive resource recovery not only minimizes environmental harm but also enhances economic benefits.

When confronting the environmental impact of HB103, it is essential to recognize that technological advancements often accompany new challenges. sustained innovation and policy guidance will be vital to advancing the sustainable development of the HB103 industry. By increasing research investment, optimizing industrial structures, and promoting green manufacturing principles, we can move toward a more environmentally friendly, efficient, and sustainable future.

As a critical chemical raw material, hydrogenated petroleum resin HB103 has proven its immense value in industrial applications. Nevertheless, in light of increasingly severe environmental issues, we must prioritize its ecological impact and adopt effective governance and utilization strategies. Only by doing so can we ensure that the HB103 industry contributes to human progress while safeguarding our shared home—Earth.