In the field of new material research and preparation, as various high-performance new materials continue to emerge, the requirements for the fineness of raw material powders are becoming increasingly stringent. White tungsten and black tungsten, as important basic materials, can be processed into nano ultrafine powders that can be applied in the research and production of new materials such as advanced ceramics, graphene, and silicon-carbon anode materials. For example, in the preparation of advanced ceramic materials, it is necessary to grind white tungsten and black tungsten to the nanoscale while ensuring a uniform particle size distribution. Vertical grinding machines can provide high-quality raw material powders for advanced ceramics due to their excellent grinding effects, enhancing the hardness, toughness, and other performance indicators of ceramic materials. When compounded with graphene, the white tungsten and black tungsten powders finely ground by vertical grinding machines can mix more uniformly with graphene, exerting a synergistic effect to prepare new composite materials with unique electrical and mechanical properties, expanding applications in fields such as electronics and aerospace.
In the biopharmaceutical industry, there are also potential application opportunities. Some nano materials made from white tungsten and black tungsten, after special treatment, possess good biocompatibility and unique physicochemical properties, which can be used in drug carriers, biomedical imaging, and other areas. Vertical grinding machines can process white tungsten and black tungsten into ultrafine particles that meet the requirements of biopharmaceutical applications, aiding the development of new drug delivery systems and improving the targeting and sustained release effects of drugs; or providing high-purity, uniformly sized contrast agent materials for biomedical imaging, enhancing the clarity and accuracy of imaging.
From the perspective of integration with green energy technology, white tungsten and black tungsten nano ultrafine powders have potential application value in fields such as new energy battery electrode materials and photovoltaic materials. For example, adding an appropriate amount of white tungsten and black tungsten nanoparticles to silicon-carbon anode materials in lithium batteries may improve the conductivity, cycling stability, and other performance of the electrode materials, while vertical grinding machines can precisely prepare powders that meet the corresponding performance requirements. In the photovoltaic field, white tungsten and black tungsten materials, after nano ultrafine grinding, may be used to enhance key performance indicators such as the photoelectric conversion efficiency of photovoltaic cells, providing support for the development of the green energy industry.
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