Polymer Prospects: Spotlight on Cross-Linking Agent Developments

Cross-linking agents are substances that are used to create cross-links between polymer chains, resulting in the formation of a three-dimensional network structure. This process is known as cross-linking, and it enhances the mechanical, thermal, and chemical properties of polymers. Cross-linking can occur through various mechanisms, such as chemical reactions, radiation, or heat.

Cross-linking offers several advantages, including improved mechanical strength, thermal stability, chemical resistance, and dimensional stability. It is widely used in the production of various materials, including rubber products, plastics, adhesives, and coatings. The choice of a specific cross-linking agent depends on the type of polymer and the desired properties of the final product.

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What are crosslinking agents?

Cross-linking agents are substances or compounds that facilitate the formation of chemical bonds (cross-links) between polymer chains. These cross-links create a three-dimensional network within the polymer matrix, resulting in improved mechanical, thermal, and chemical properties. The process of introducing cross-links is known as cross-linking, and it is widely used in the manufacturing of various materials to enhance their performance characteristics.

The main functions of cross-linking agents include:

• Strengthening the Material: Cross-linking improves the mechanical strength and toughness of polymers. The three-dimensional network of cross-links provides structural integrity and resistance to deformation.
• Enhancing Thermal Stability: Cross-linked polymers generally exhibit improved thermal stability and resistance to high temperatures. This makes them suitable for applications where heat resistance is crucial.
• Increasing Chemical Resistance: Cross-linking can enhance a materials resistance to chemicals, solvents, and environmental factors, making it more durable and long-lasting.
• Reducing Swelling and Absorption: Cross-linking reduces a polymers ability to swell or absorb liquids, making it more dimensionally stable and less susceptible to changes in its physical properties.
• Improving Electrical Properties: Some cross-linked polymers exhibit improved electrical insulation properties, making them suitable for use in electrical and electronic applications.

The choice of cross-linking agent depends on the type of polymer being processed and the desired properties of the final product. Different types of cross-linking agents are used based on the specific chemical reactions involved and the application requirements. Some common types of cross-linking agents include peroxides, isocyanates, silanes, radiation sources (such as electron beams or gamma rays), and thermal curing agents.

Its important to note that not all polymers can be cross-linked, and the cross-linking process must be carefully controlled to achieve the desired properties without compromising other material characteristics. Cross-linking is a critical step in the production of various materials, including rubber products, thermosetting plastics, adhesives, and coatings.

Recent Developments:

• In 2023, BASF announced to expand its existing capacity of isocyanate. The company will increase production capacity to approximately 600,000 metric tons per year.
• In May 2021, Wanhua Chemical announced that Wanhua Chemical (Ningbo) Co., Ltd. plans to implement the MDI/HDI technical transformation and capacity expansion integration project in the existing plant. Wanhua Chemical also plans to build a new 280,000-ton/year modified MDI production unit, with a total capacity of 300,000 tons/year Modified MDI production capacity.

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Crosslinking Agents Market Key Players

New product launches, acquisitions, investments, and expansions are the major growth strategies adopted by the key players in the market. The key global players in the Cross-Linking Agents market include 巴斯夫 SE (Germany), 科思创 AG (Germany), allnex (Germany), 赢创工业集团 (Germany), Hunstman Corporation (US), Aditya Birla Corporation (India), 万华化学 Co. Ltd (China), 陶氏化学 (US), 帝斯曼公司 Coatings Resins (China), and INEOS (UK).

巴斯夫 SE manufactures products through its five business segments, namely, performance products, chemicals, agricultural solutions, oil & gas, and functional materials & solutions. BASF has its subsidiaries in more than eighty countries and supplies products to a large number of business partners. It offers a broad range of chemicals, plastics, performance products, and crop protection products. The company manufactures crosslinking agents through its chemical segment under dispersion and pigments and under its performance products in monomer division. The company has its presence all around the globe, with its operations in the Americas, Europe, the Middle East & Africa, and Asia-Pacific.

科思创 AG, is a subsidiary of Bayer AG. It was formerly Bayer Material Science, but since 2015, it has been operating under the name Covestro. The company is a manufacturer of high-tech materials and operates through the following business units: polyurethanes, polycarbonates, coatings, adhesives & specialties, and others. It is the inventor of polyurethane technology and market leader in polyurethane chemistry of crosslinking agents. It manufactures polyisocyanate (aliphatic and aromatic), isocyanurate, and polyols. Overall, the company has 30 operation sites in Europe, Asia, and the U.S.

Conclusion

In conclusion, cross-linking agents play a crucial role in the modification and enhancement of polymer properties by facilitating the formation of cross-links between polymer chains. The introduction of these cross-links results in a three-dimensional network structure, imparting improved mechanical strength, thermal stability, chemical resistance, and other desirable characteristics to the material.

The choice of a specific cross-linking agent depends on the type of polymer being processed and the intended applications of the final product. Different types of cross-linking agents, including chemical agents like peroxides and isocyanates, radiation sources, thermal curing agents, and moisture-reactive agents, offer diverse options for tailoring material properties.

Cross-linking is a versatile and widely used technique, finding applications in the production of rubber products, thermosetting plastics, adhesives, coatings, and more. The resulting materials often exhibit enhanced performance and durability, making them suitable for a range of industrial, commercial, and technological applications.