Messi Biology appeared in Changzhou, Jiangsu from March 19th to 21st to participate in the 9th Composite Material Compression Molding Process Technology and Market Application Seminar 2025. As a leading enterprise in the field of magnesium salt materials, this conference aims to showcase its innovative technologies and product solutions in composite material applications and further deepen industry exchanges and cooperation.
Messi Biology (formerly Xingtai Qiaodong Chemical Plant) was founded in 1989 and restructured into a limited liability company in 2015 with a registered capital of 55 million yuan. Its headquarters is located in the High-tech Zone of Xingtai City, Hebei Province. The company focuses on the research and development and production of magnesium salt series products such as magnesium oxide, magnesium carbonate, magnesium sulfate, and magnesium hydroxide. With the qualifications of national high-tech enterprises and Hebei Province’s “specialized and new” enterprises, its products are widely used in medicine and food, electronic materials, rubber plastics, composite materials and other fields. In the composite material industry, the company relies on its independently developed high-end magnesium salt materials to provide key raw material support for the compression molding process, helping to improve the stability, processing performance and final product quality of composite materials.
The seminar focused on the innovation and market application of compression molding process technology, attracting many industry experts and corporate representatives to participate. Messi Biology brought its core products and technical solutions to the show, focusing on the application advantages of materials such as active magnesium oxide and high-purity magnesium hydroxide in the production of composite materials. For example, active magnesium oxide has a large specific surface area and high reactivity, and can be used as an additive in composite materials, such as promoting curing reactions or as a reinforcing agent. As for magnesium hydroxide, it is mainly a flame retardant, because it decomposes at high temperatures to absorb heat, release water vapor, and play a flame retardant role. Its technological breakthroughs in products such as electronic-grade magnesium oxide and modified magnesium hydroxide provide strong support for the high performance of composite materials.
As a full-industry chain entity enterprise from magnesium salt raw materials to finished products, Messi Biology not only demonstrated its technical strength in the field of magnesium salt materials to the outside world through this industry event, but also further strengthened its deep connection with the composite material industry. In the future, the company will continue to be driven by technological innovation to promote the application and expansion of magnesium salt materials in high-end fields such as composite materials, and inject new momentum into the development of the industry.