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Manufacturing of fine products using powder metallurgy technology
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Compared with traditional methods such as casting and forging, powder metallurgy has the following characteristics:
High material utilization rate: powder metallurgy can fully utilize metal powder, reduce material waste, and improve production efficiency.
Excellent product performance: Powder metallurgy products have excellent properties such as high strength, high hardness, wear resistance, corrosion resistance, conductivity, and thermal conductivity.
High dimensional accuracy of products: Powder metallurgy technology can achieve the manufacturing of products with complex shapes and sizes, meeting the requirements of different fields for product performance and shape.
Environmental protection and energy conservation: During the powder metallurgy production process, energy consumption is low and there are no pollution emissions, which meets the requirements of green environmental protection.
Low production cost: Powder metallurgy has a simple production process, short production cycle, and reduces production costs.
Powder metallurgy is a technology that uses powder materials for processing and manufacturing. It mixes metal powder with auxiliary materials such as binders and lubricants, and produces metal products of the desired shape and size through processes such as molding and sintering. This technology has unique advantages and is widely used in fields such as automotive, electronics, aerospace, medical equipment, etc.
powder metallurgy
With the continuous development of technology, powder metallurgy technology continues to innovate in materials, processes, equipment, and other aspects, providing more high-quality products for various industrial fields. In the future, powder metallurgy technology will play an increasingly important role in fields such as new energy, aerospace, and biomedicine.