1、TECHNICAL DATA SHEET

O-1102 is pure C5 aliphatic hydrocarbon resin. It’s designed for Solvent based pressure sensitive adhesive (SBPSA), especially for NR and IIR SBPSA. O‐1102 has lower crystallinity which can brings adhesive good flexibility and creep resistance.

2、恒河材料科技股份有限公司

Product Introduction: 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.

3、ZHEJIANGE HENGHE PETROCHEMICAL CO., LTD.

HHC-1100 is a low molecular weight aliphatic hydrocarbon resin that has been designed for pressure sensitive hot melt adhesives. This resin has well compatible with a large variety of polymeric materials, such as:SIS, EVA, Natural Rubber, Synthetic Rubber etc.

4、C5 hydrocarbon resin

Hwatac TM C5 hydrocarbon resin is derived from the polymerization of piperylene-rich unsaturated aliphatic olefins. The chemically modified C5 hydrocarbon resin enhances the performance, and is mainly used in high performance formulation of HMA and PSA.

WEITACK® C5 HYDROGENATED RESIN MH500

Used as tacky resins for hot-melt adhesives, pressure-sensitive and sealants, processing aids for various rubber systems; plastic modifier aids, ink additives and highway marking. This product information is indicative and does not include any guarantee.

C5 Hydrocarbon Resin

C5 hydrocarbon resin is also known as C5 petroleum resin, has occupied an important position as a viscosity increasing resin. The most commonly used ones are hot melt adhesive, pressure-sensitive adhesive, and rubber tires.

Hydrogenated C5 Hydrocarbon Resin (H5

Engineered as a premium tackifying agent for hot-melt adhesive (HMA) and pressure-sensitive adhesive (PSA) formulations, offering enhanced adhesion properties and processing versatility across multiple industrial applications.

32 T

T-REZ, Neopolymer and Neoresin are Themoplastic Hydrocarbon Resin produced by Polymerizing Unsaturated Hydrocarbons like Diolefins, and Aromatic Orefins. Key applications are Tackifier or Modifier for Hotmelt Adhesive, Tire, Adhesive Tape, Paint, Traffic Paint, Asphalt Binder and so on.

C5 Hydrogenated hydrocarbon Resin ALX

C5 Hydrogenated Petroleum Resin is water-white thermoplastic resin, no smell. And it has low molecular weight, easy to dissolve in the organic solvent. It has good heat stability and light stability. It also has broad compatibility and good oxidative stability.

MATERIAL SAFETY DATA SHEET

Indorez® H2 Hydrocarbon Resin is water-white thermoplastic resin obtained from polymerization and hydrogenation of cyclic ingredients.

In modern materials science, hydrogenated carbon 5 resin is widely utilized due to its unique physical and chemical properties. The melt index of this polymer compound is one of the critical indicators for measuring its flow performance, directly affecting the molding capabilities of the resin under different processing conditions. This article will explore the significance of hydrogenated carbon 5 resin and its melt index while analyzing its practical applications.

Hydrogenated carbon 5 resin, composed of carbon-hydrogen bonds, exhibits excellent mechanical properties, heat resistance, and electrical insulation. In industrial applications, it is commonly used to manufacture high-performance composites, which are extensively employed in aerospace, automotive manufacturing, electronic devices, and other fields. Due to its superior characteristics, hydrogenated carbon 5 resin holds broad application prospects in these industries.

The melt index is a key parameter for evaluating the flowability of resins. It refers to the ability of the resin to flow out of a mold under specific temperatures. A higher melt index indicates faster resin flow during processing, reducing production time and improving efficiency—critical factors for large-scale manufacturing, as productivity directly impacts product quality and cost.

an excessively high melt index may lead to issues such as bubbles or cracks during molding, compromising the final product's quality. selecting an appropriate melt index is crucial to ensuring product integrity.

In practice, engineers choose suitable melt indexes based on specific application scenarios. For instance, in fields requiring high strength and rigidity, such as aerospace, resins with lower melt indexes might be preferred to ensure structural stability. Conversely, in scenarios demanding rapid molding and cost reduction, resins with higher melt indexes could be selected.

Beyond the melt index, other factors like viscosity, softening point, and processing conditions also influence the resin's workability. Viscosity refers to the resistance of the resin during flow, while the softening point is the temperature at which the resin begins to flow. These parameters, combined with the melt index, determine the resin's processing characteristics.

Engineers must holistically optimize resin selection by considering multiple factors. Adjustments to resin formulations, processing conditions (e.g., temperature, pressure), or the addition of additives (e.g., plasticizers, stabilizers) may be employed to enhance performance.

Hydrogenated carbon 5 resin's exceptional properties have cemented its role across diverse industries. With technological advancements and evolving market demands, the need for this resin continues to grow. Researchers are actively developing new synthesis methods and refining techniques to improve performance and reduce costs.

Looking ahead, the development of hydrogenated carbon 5 resin and related technologies remains vibrant. As new materials emerge, hydrogenated carbon 5 resin is poised to play an even larger role in industrial applications. Continued research and innovation in this field are expected to drive further breakthroughs and propel industry-wide progress.

The melt index of hydrogenated carbon 5 resin is a vital metric for assessing its flow properties. By thoroughly understanding this parameter and its practical implications, we can better appreciate the resin's advantages and provide valuable insights for future research and applications.

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