2024-09-25
In the ever-changing wave of science and technology, Jiangsu Zehui magnesium base has always stood in the forefront of the industry, "development of China's magnesium salt, benefit human society" as the business philosophy, and continue to explore the infinite possibilities of materials science. In the face of the growing global demand for high-performance, environmentally friendly materials, Zehui has been focusing on magnesium hydroxide materials, aiming to reshape its thermal conductivity through cutting-edge science and technology and innovative thinking, bringing about revolutionary changes in new energy sources, electronic heat dissipation, building thermal insulation and other fields.
The role of magnesium hydroxide in the thermal conductivity of these parts:
High thermal conductivity
Magnesium hydroxide has a high thermal conductivity. At room temperature, its thermal conductivity is about 80 Cashel meters (Wm-K), which means that magnesium hydroxide is able to conduct heat efficiently when a temperature difference exists. This efficient thermal conductivity makes magnesium hydroxide ideal for the preparation of highly efficient thermal conductive materials.
Cooperative thermal conductivity
In composite materials, magnesium hydroxide not only has flame retardant properties, but also can synergize with other thermally conductive fillers to improve the thermal conductivity of composite materials under certain conditions. For example, when magnesium hydroxide and boron nitride (BNNs) and other thermally conductive fillers are added to polymer materials, the incorporation of magnesium hydroxide can significantly improve the thermal conductivity of the composite materials and synergize with BNNs in the axial thermal conductivity to further enhance the thermal conductivity of the composite materials.
Application as thermally conductive filler
Magnesium hydroxide is commonly used as a filler in materials such as thermally conductive plastics. Thermally conductive plastics are a type of plastic material that improves thermal conductivity by adding thermally conductive fillers. Magnesium hydroxide is widely used in thermally conductive plastics due to its high purity, uniform particle size and good compatibility with a variety of thermally conductive materials. By adding magnesium hydroxide, the thermal conductivity of thermally conductive plastics is significantly improved, thus meeting the demand for highly efficient heat transfer materials in specific fields.
Reduced production costs
Compared with other thermally conductive materials such as alumina and aluminum nitride, magnesium hydroxide has a lower cost. Therefore, the selection of magnesium hydroxide as a filler in the preparation of thermally conductive materials helps to reduce the production cost and improve the market competitiveness of the products.
Through the unremitting efforts and continuous innovation of Zehui R&D Center, the thermal conductivity of magnesium hydroxide has been significantly improved, successfully breaking the performance boundaries of traditional materials. This achievement not only opens up new horizons for the application of magnesium hydroxide, but also contributes new wisdom and strength to the development of material science. In the future, Zehui will continue to adhere to the business philosophy of "Developing Chinese magnesium salt for the benefit of human society", explore the unknown, challenge the limits, and contribute to the construction of a greener, more efficient, and more sustainable world in the future!
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