1、恒河材料科技股份有限公司

DCPD hydrogenated hydrocarbon resin is a kind of water white tackifying resin prepared by polymerization and hydrogenation with Dicyclopentadiene (DCPD) as the main raw material, which has good tackifying, compatibility, thermal stability and light stability.

2、I

Our I-MARV™ is a DCPD (dicyclopentadiene)/aromatic copolymer hydrogenated hydrocarbon resin that uses C5 fraction as the main raw material. This product is colorless, transparent, and odorless, and has excellent thermal stability and heat resistance because it is highly hydrogenated.

3、Solutions for Sustainable Aromatic Hydrocarbon Tackifiers

The use of mass balanced ISCC PLUS certified raw material has emerged as a directly implementable option for the production of sustainable hydrocarbon resins. The ISCC PLUS system is an internationally recognized approach and is becoming increasingly established in the adhesives sector.

Hydrogenated Hydrocarbon Resins (pure Series)

In coating formulations, the fully hydrogenated low-polar NOVARES pure resins can be used to modify alkyd resins with long and middle oil length. They improve the UV stability, chemical resistance and solid content of coating formulations.

Top 10 manufacturers of hydrogenated resin in China

The global market's demands for hydrogenated resins have evolved from traditional requirements of light color, low odor, and high stability to emphasizing "biocompatibility" and "ultra-purity".

Soresyn®6100

what is Soresyn®6100? Soresyn®6100 is Water white aromatic hydrocarbon modified hydrogenated DCPD resin, using dicyclopentadiene as the raw material, the finished product is a water-white solid, odorless, with excellent thermal stability, strong waterproof and UV resistance, and EVA, SIS, SBS, SEBS, APP, APAO have good compatibility.

Top 10 Companies in the Modified Aromatic Hydrocarbon Resin Industry

In this blog, we profile the Top 10 Companies in the Modified Aromatic Hydrocarbon Resin Industry —a group of global chemical giants and specialized producers shaping the material science landscape.

BUSS ChemTech delivers first integrated HCR/HHCR plant

Based only on lab-scale tests to characterize the client’s raw material, we delivered a Technology Package for an integrated polymerization and hydrogenation plant to produce base and water white hydrocarbon resins.

恒河材料科技股份有限公司

C5 Hydrogenated Hydrocarbon resin’s main raw material is cracking C5 and is obtained by hydrogenation, to achieve high -quality, multi-purose water-white thermoplastic Hydrocarbon resin.

NOVARES

NOVARES TM resins are aromatic hydrocarbon resins based on pure monomers. They are characterized by very low Gardner color numbers and excellent UV and thermal stability.

In the field of modern material science, modified hydrogenated resins, as a specialized class of polymeric materials, have garnered significant attention due to their unique properties and broad application prospects. Hydrogenated resins are high-molecular-weight compounds synthesized from unsaturated monomers such as ethylene and propylene through addition polymerization. Their molecular structures contain numerous conjugated double bonds, endowing them with excellent physical and chemical properties. Modified hydrogenated resins, are engineered using specific chemical or physical methods to alter their inherent characteristics, thereby creating high-performance materials tailored to specific applications.

The preparation of modified hydrogenated resins typically involves two main steps: monomer polymerization and post-processing. Initially, monomers like ethylene and propylene undergo free-radical polymerization triggered by initiators, forming a primary polymer. This is followed by post-processing techniques such as cross-linking, grafting, or copolymerization to further enhance performance. For instance, cross-linking improves mechanical strength, yielding tougher materials, while grafting introduces new functional properties, such as conductivity or antistatic capabilities.

Key application areas of modified hydrogenated resins include:

1. Electronics Industry: Widely used in electronic encapsulation materials and semiconductor manufacturing due to their superior electrical insulation, thermal stability, and mechanical strength. For example, in chip packaging, modified hydrogenated resins serve as matrix materials combined with metal solders to ensure reliable fixation and protection of chips.

2. Automotive Industry: Employed in automotive interior/exterior components, soundproofing, and vibration-damping materials. These materials offer excellent wear resistance, weatherability, comfort, and aesthetic appeal.

3. Construction Sector: Increasingly utilized in building materials, such as exterior wall coatings, waterproofing, and insulation materials, owing to their eco-friendly properties and exceptional physical performance.

4. Aerospace: Applied in critical components like aircraft engine parts and spacecraft shells due to their high strength, heat resistance, and corrosion resistance.

5. Biomedical Materials: Hold significant potential in artificial joints, orthopedic implants, and drug delivery systems, thanks to their biocompatibility and degradability.

6. New Energy: Showcase promising applications in solar cell backsheets, wind turbine blades, and electric vehicle battery packs, leveraging their electrical conductivity and mechanical robustness.

Challenges persist nonetheless. First, the complex chemical structure of modified hydrogenated resins often necessitates intricate synthesis processes, hindering large-scale production. Second, their advanced functionality drives up costs, potentially limiting competitiveness in price-sensitive markets. Additionally, niche applications (e.g., aerospace, biomedicine) demand ultra-high performance, requiring further research to meet stringent requirements.

modified hydrogenated resins, as high-performance materials, offer vast application potential and economic benefits, positioning them as a focal point in material science. With ongoing technological advancements and deeper exploration of novel materials, modified hydrogenated resins are poised to unlock greater value across diverse sectors in the future.