1、Phenolic Resins for Rubber and Tire Products

Here is an example of LCA study of an application in which our phenolic resin is used. This shows the effect of reducing CO 2 emissions when phenolic resins for tires are replaced with biomass-based materials from conventional materials.

2、CNSL Resin Modifiers for Rubber Applications

Our CNSL resins are rubber modifiers used as process aid, plasticizer, antioxidant and phenolic resins substitutes.

3、Preparation and characterization of lignin copolymerized phenolic

Abstract The development of lignin-derived functional additives for rubber composites has gained growing importance in light of biomass valorization. This work aims at preparing phenolic novolak resin with lignin as one building block for reinforcing natural rubber.

4、Synthetic Rubber

It is applicable to the processing of tires, rubber shoes, rubber rollers, conveyor belts and cold-resistant shock-resistant wear-resistant rubber products, and can also be applied as a plastic modifier.

5、Rubber Resins

We provide several reinforcing resins options including phenol-formaldehyde, distilled tall oil modified, cashew nutshell liquid modified and low residual monomer grades. SI Group’s rubber resins improve the safety and durability of modern tires.

Modified Phenolic Resin Powder NBR Powdered Nitrile Rubber SC

Key attributes Place of Origin Hebei, China Application automotive parts, General grade Shape POWDER Brand Name jiansheng Product name powder nitrile rubber (PNBR) Appearance powder Color White ACN content % 30±2 Mooney Viscosity (ML1+4,100 ) 75±10 mesh 50 Packing 25kg/box Application Special modified material for PVC resin, for PVC conveyor belts, etc. Advantage Improve flexibility, improve ...

reinforcing phenolic resins

There are several reasons or advantages to using the modified resins rather than a straight phenolic: a) The long hydrocarbon chain present in the modifiers provides better solubility in rubber.

Resins

The initial part of the chapter highlights the availability of different natural gum resins and their potential application as multifunctional additives for rubber compounds.

A comprehensive review on modified phenolic resin composites for

Current research on PR modification emphasizes both physical methods, including filler enhancement and fiber reinforcement, and chemical methods, such as copolymerization, grafting, and cross-linking.

Synthesis of phenolic resin modified silicone rubber utilizing

Synthesis of phenolic resin modified silicone rubber utilizing for ablation thermal protection materials IOP Conference Series: Materials Science and Engineering Pub Date : 2019-04-26 , DOI: 10.1088/1757-899x/504/1/012043

In the wave of modern industry, Kunlun Rubber has become an indispensable material in numerous fields due to its exceptional performance and broad applications. Among these, the use of modified resins is particularly critical, as they not only enhance the superior properties of Kunlun Rubber but also significantly expand its application domains. This article delves into the importance of modified resins for Kunlun Rubber and their impact on the industry.

Kunlun Rubber, renowned for its excellent wear resistance, tear strength, and temperature tolerance, is ideal for manufacturing high-performance industrial products. its inherent properties are insufficient for extreme or special environments, driving researchers to explore new modification methods to improve its comprehensive performance.

Modified resins play a pivotal role as key modifiers for Kunlun Rubber. By blending with Kunlun Rubber, modified resins effectively enhance its mechanical properties, heat resistance, cold resistance, and other characteristics, making it more adaptable to complex and variable working conditions. For example, in automobile manufacturing, Kunlun Rubber is used to produce tire treads. The addition of modified resins significantly improves the wear resistance and load-bearing capacity of tires.

There are diverse types of modified resins, including phenolic resins, epoxy resins, and polyurethane resins, each offering distinct modification effects. Phenolic resins are commonly used to improve heat resistance and flame retardancy; epoxy resins, due to their chemical stability and mechanical properties, are widely applied to enhance Kunlun Rubber’s strength; polyurethane resins, known for their elasticity and processability, are often used to increase flexibility.

In practical applications, the ratio and processing techniques of modified resins to Kunlun Rubber greatly influence the final product’s performance. Typically, the dosage of modified resins must be precisely controlled to achieve optimal results. Additionally, preprocessing steps such as drying or preheating are crucial, as they affect the compatibility between the modified resins and Kunlun Rubber.

Beyond performance enhancement, modified resins also demonstrate environmental advantages. Compared to traditional chemicals, modified resins often contain fewer harmful substances and generate less waste during production, benefiting environmental protection and sustainable development.

With advancements in technology and materials research, future development of modified resins for Kunlun Rubber will prioritize eco-friendliness and performance optimization. Through nanotechnology, bio-based materials, and intelligent manufacturing processes, Kunlun Rubber’s properties will be further improved, providing more reliable and efficient solutions across industries.

The research and application of modified resins for Kunlun Rubber are a hot topic in materials science. By deeply understanding the types, properties, and applications of modified resins, we can better leverage Kunlun Rubber’s advantages while driving innovation in new materials. In the future, with continuous technological progress, modified resins for Kunlun Rubber will reveal their unique appeal and vast potential in even more fields.