1、碳五石油树脂_百度百科

碳五石油树脂（C5 petroleum resin）是以石油裂解产物碳五馏分为原料合成的增粘树脂，呈淡黄色或浅棕色固体，具有酸值低、耐水性和相容性优等特点。

2、C5 hydrocarbon resin

Luhua C5 petroleum resins are produced by catalytic polymerization of olefins from the C5 distillation as the main raw materials and are pale yellow pellets with good thermal stability and compatibility.

3、C5 Resin

The Quintone 100 series of petroleum resins are produced mainly from high-purity 1,3-pentadiene extracted from C5 fractions. These products demonstrate outstanding characteristics in a wide range of applications, including pressure-sensitive adhesives, hot-melt adhesives, and traffic paints.

4、C5石油树脂_化工百科

C5石油树脂 - 简介 石油树脂是一种由石油中提取的天然或合成树脂。 它具有以下性质： 它在常温下通常是不溶于水的，但可溶于多种有机溶剂，并具有良好的粘附性。 化学性质：石油树脂是非极性物质，具有较好的耐化学性和耐氧化性。

5、Piccotac 1115 Hydrocarbon Resin

PICCOTACTM 1115 hydrocarbon resin is a high softening point, thermoplastic, relatively high molecular weight, aliphatic C5 resin derived from dienes and other reactive olefin monomers.

C5 & Modified C5 Hydrocarbon Resins for Adhesive Industry

S2090, S2100, S2105, UCA9090, UCA9095 are styrene modified C5 resins improving compatibility with TPR. UCA100C, UCA120C are C5 modified C9 copolymer resins mainly used in EVA and SBS HMA.

Puyang Changyu Petroleum Resins Co., Ltd.

ZMBT (MZ) Chemical Name:Zinc 2-mercaptobenzothiazole Molecular Formula:C 14 H 8 N 2 S 4 Zn Structural Formula: Molecular Weight:397.86 CAS NO:155-04-4 Specification: ... Properties:Light yellow powder (granule) with a little bitter, no poison. The density is 1.70 (20oC), the decomposable temperature is 300oC.

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.

C5 HYDROCARBON RESIN T5205

TECHNICAL DATA SHEET Properties: T5205 is low molecular weight aliphatic hydrocarbon resin. Sound compatibility with base polymers like SIS.

C5 Resin & Modified C5 Resin

Styrene modified C5 resin with a narrow molecular weight distribution, has outstanding rolling ball tack, and excellent balance of peel and cohesive strength.

In the industrial field, resin materials are widely used, and C5 resin, as a high-performance thermosetting resin, is extensively applied in various high-end manufacturing fields due to its excellent physical and chemical properties. Among these, MZ (Methylenediamine) serves as a critical component in C5 resin, playing a decisive role in the resin's performance. This article aims to explore in depth the role and significance of MZ in C5 resin.

The functions of MZ in C5 resin mainly manifest in the following aspects:

First, MZ acts as a catalyst for the curing reaction of C5 resin. During the curing process, MZ promotes cross-linking reactions between resin molecules, forming a stable three-dimensional network structure. This structure endows C5 resin with superior mechanical properties, thermal stability, and chemical resistance, enabling it to maintain its performance under extreme conditions.

Second, MZ can regulate the viscosity of C5 resin. In the production process, the addition of MZ significantly reduces the resin's viscosity, facilitating processing and application. This is crucial for improving production efficiency and reducing costs.

Third, MZ improves the electrical insulation properties of C5 resin. By introducing MZ, the electrical insulation performance of the resin is enhanced, making it suitable for applications requiring high electrical insulation.

Fourth, MZ enhances the heat resistance of C5 resin. In high-temperature environments, MZ increases the resin's thermal stability, allowing it to maintain performance at elevated temperatures. This is particularly important for aerospace, automotive manufacturing, and other high-temperature applications.

Additionally, MZ improves the chemical resistance of C5 resin. The incorporation of MZ strengthens the resin's ability to withstand exposure to various chemicals, ensuring reliable performance in complex chemical environments.

MZ plays a vital role in C5 resin. It not only accelerates the curing reaction but also enhances mechanical properties, electrical insulation, and heat resistance, while improving chemical resistance. studying the role of MZ in C5 resin is significant for advancing its widespread application and development.

it is essential to recognize that excessive MZ may negatively impact resin performance. For instance, too much MZ could increase viscosity, hindering processing, or raise costs. Thus, practical applications require careful dosage adjustments to balance performance and cost-effectiveness.

Looking ahead, further research should focus on the synergistic effects between MZ and other components in C5 resin. Different additives and fillers may interact with MZ, influencing the resin's overall performance. Understanding these interactions is critical for optimizing C5 resin properties.

MZ is indispensable in C5 resin, enabling curing, enhancing mechanical and thermal properties, and improving chemical resistance. excessive use must be avoided. Future advancements depend on exploring synergies with other components and precise dosage control to achieve optimal performance and cost balance in C5 resin.