Firebrick is an important industrial material, widely used in steel, non-ferrous metals, electric power and other industries. In the forming process of refractory bricks, friction presses are a common device used to compress materials into molded bricks of a certain shape and size. However, the traditional friction press has some problems, such as poor forming effect, low production efficiency and high energy consumption. Therefore, it is of great practical significance to transform the friction press to improve its performance.

The modified friction press shows excellent performance in the following aspects:

Molding effect: By optimizing the structure and using high-strength wear-resistant materials, the dimensional accuracy and consistency of the molding brick are improved, and the defective rate is reduced.

Production efficiency: Due to the adoption of automation and energy-saving control technology, the production efficiency of the equipment has been increased by more than 20%.

Energy saving: The modified equipment has been optimized in terms of the hydraulic control system, reducing energy consumption and saving more than 15% of energy compared to the pre-retrofit.

Through the performance evaluation of the modified friction press, the following results can be obtained:

The molding effect of the equipment has been significantly improved, thus reducing the defective rate and improving the quality and production efficiency of refractory bricks. The production efficiency of the equipment has been greatly improved, thus shortening the production cycle, speeding up the speed of products to market, which is conducive to improving the competitiveness of enterprises.

The equipment has been effectively controlled in terms of energy consumption, reduced energy costs, and has better economic and social benefits.

However, the modified friction press still has some limitations, such as the need to adjust the equipment parameters for different types of refractory bricks to meet different molding requirements. In addition, the hydraulic control system of the equipment still has a certain energy consumption, and there is still room for further optimization.

Looking forward to the future, it is recommended to continue to upgrade and optimize the friction press technology to adapt to different types and specifications of refractory brick molding needs. At the same time, strengthen the research of hydraulic control system, further reduce energy consumption, and achieve a more green and environmentally friendly production mode. In addition, attention should be paid to the automation and intelligent development of equipment to improve the adaptive ability and production efficiency of equipment, and promote the sustainable development of the refractory brick molding industry.