By optimizing the pore structure, the physical properties of the material can be significantly improved. For example, improving the strength and ductility of materials makes products more able to withstand external pressure and deformation. This optimization not only has a direct impact on the physical properties of the product, but also improves the overall quality of the product, thereby increasing customer satisfaction and brand reputation.
Improving the pore structure can help improve the durability of the product, making the product more stable and reliable during use. This means that optimized products will be more competitive in the consumer market that pursues high quality and long service life. Enhanced durability also reduces the frequency of after-sales maintenance and replacement, thereby lowering ongoing operating costs.
The optimized pore structure can also improve production efficiency and reduce material waste. Through fine control of pore distribution and shape, the raw materials required during the production process are significantly reduced, thereby reducing production costs. In addition, efficient production processes and lower scrap rates also mean that companies can produce higher-quality products at lower costs, further enhancing market competitiveness.
In summary, by improving the pore structure, the market performance of the product can be significantly improved in many aspects. It can not only improve product performance and increase durability, but also achieve significant cost advantages, thereby bringing sustainable business growth and competitive advantages to enterprises.