Characteristics
- Reinforcement: The resin reinforces rubber compounds, improving mechanical properties such as tensile strength and tear resistance.
- Flexibility: The resin enhances the flexibility of rubber, making it more adaptable to dynamic stress and strain, crucial in applications like tire manufacturing.
- Thermal Stability: The resin contributes to the thermal stability of rubber compounds, preventing degradation at elevated temperatures.
- Abrasion Resistance: The inclusion of petroleum resin enhances the resistance of rubber to wear and abrasion, extending the lifespan of rubber-based products.
- Compatibility: Its compatibility with various rubber polymers allows for versatile applications across different rubber formulations.
- UV Resistance: Petroleum resin contributes to UV resistance, protecting rubber products from the deteriorating effects of sunlight exposure.
Petroleum Resin - CHEMBROAD
Petroleum resin, a versatile class of synthetic materials derived from petrochemical sources, is a key ingredient in a wide array of industrial applications. These amorphous, sticky, and solid substances are produced through the polymerization or copolymerization of hydrocarbon monomers obtained primarily from the byproducts of petroleum refining. The resulting resins exhibit a broad spectrum of properties and characteristics that make them invaluable in various industries, including adhesives, coatings, inks, rubber compounding, and more.
In the rubber chemical sector, petroleum resin serves as a versatile additive, aiding in the formulation of various rubber products, including tires, belts, and hoses. Its compatibility with different rubber polymers allows manufacturers to fine-tune the properties of their end products, meeting specific application requirements. With excellent solubility and thermal stability, these resins contribute to cost-effective solutions in ink manufacturing, road marking, and various industries. Their regulatory compliance ensures safety and environmental adherence. Choosing petroleum resin is a strategic decision for formulating high-quality products with a broad range of benefits.
Characteristics
- Reinforcement: Petroleum resin reinforces rubber compounds, improving mechanical properties such as tensile strength and tear resistance.
- Flexibility: The resin enhances the flexibility of rubber, making it more adaptable to dynamic stress and strain, crucial in applications like tire manufacturing.
- Thermal Stability: Petroleum resin contributes to the thermal stability of rubber compounds, preventing degradation at elevated temperatures.
- Abrasion Resistance: The inclusion of petroleum resin enhances the resistance of rubber to wear and abrasion, extending the lifespan of rubber-based products.
- Compatibility: Its compatibility with various rubber polymers allows for versatile applications across different rubber formulations.
- UV Resistance: Petroleum resin contributes to UV resistance, protecting rubber products from the deteriorating effects of sunlight exposure.
C9 hydrocarbon resin is derived from the C9 fraction, a byproduct of petroleum cracking. It undergoes a series of processes including pretreatment, polymerization, and distillation. This resin is classified as a low polymer, not a high polymer, and falls within the molecular weight range of 300-3000. Characterized by its acid value, ease of mutual solubility, resistance to water, ethanol, and chemicals, it possesses chemical stabilizing properties against both acids and alkaline substances. Notably, it is employed for viscosity adjustment and thermal stabilization. Typically, these resins are not used independently but are combined with other resin types as promoters, adjusting agents, and modifiers in various applications.