Exhibition Overview

Materials drive science and technology, and science and technology promote development. This view has been fully verified since ancient times. From the ancient Bronze Age to the modern semiconductor industry, the innovation and application of materials have always been the key factors for industrial progress.

In ancient times, the application of materials was mainly concentrated in fields such as metals and ceramics. The emergence of bronze wares greatly promoted the development of agriculture and military affairs, and the invention of ceramics also brought significant changes to ancient industry and life.

During the modern Industrial Revolution, the application of steel materials became the main material in fields such as construction, mechanical manufacturing and transportation. The invention of chemical materials has also brought new opportunities to modern industry. The application of plastics has greatly enriched the types of materials and is widely used in packaging, electronics, automobiles and other fields.

In modern industry, the application of ceramic materials is more extensive and diverse:

In the aerospace field, industrial ceramic materials such as silicon nitride and silicon carbide, with their excellent high-temperature resistance and oxidation resistance, are widely used in high-temperature parts of aerospace engine components and combustion chamber linings. The high strength and low density of ceramic materials help reduce the weight of aerospace equipment, improve fuel efficiency and flight performance.

In the field of electronics, industrial ceramics are used to manufacture key components such as packaging materials for integrated circuits, substrates for LED chips, and optical waveguides in optical fiber communications, providing strong support for the rapid development of information technology. The excellent insulating properties of ceramic materials make them widely used in insulating components of electronic devices, enhancing the stability and reliability of the equipment.

In the automotive field, graphite silicon carbide ceramics have been applied in key components such as battery systems and motor drive systems, ensuring the stability and long-term performance of electric vehicles during efficient operation. The high hardness and wear resistance of industrial ceramics have enabled their application in components such as pistons and cylinders of automotive engines, enhancing the durability and service life of these components.

In the medical field, ceramic materials such as alumina and zirconia have excellent biocompatibility and wear resistance, and are widely used in the manufacture of medical implants such as artificial joints and teeth. Industrial ceramics are also used in the production of precision components in medical equipment, such as surgical instruments and diagnostic devices, enhancing the performance and reliability of the equipment.

In the mechanical field, silicon nitride ceramic ball bearings are widely used in aerospace, precision instruments, automotive manufacturing and other fields. Due to their outstanding performance, they can significantly improve the operational efficiency and reliability of equipment. The high hardness and wear resistance of industrial ceramics make them perform well in applications such as wear-resistant parts and seals in mechanical manufacturing, thus extending the service life of equipment.

In the field of chemical engineering, industrial ceramics possess excellent corrosion resistance and are widely used in components such as pipes, valves, and pumps in the chemical industry, effectively resisting the corrosion of chemical media. In environmental protection applications, ceramic materials also have excellent adsorption performance and can be used for the treatment of waste gas and wastewater in the environmental protection field.

In the field of new energy, the application of industrial ceramic materials in battery separators, electrode materials and other aspects helps to improve the performance and safety of batteries. The application of ceramic materials in new energy equipment such as solar panels and wind turbines provides support for the efficient utilization of new energy.

In the field of intelligent manufacturing, the application of industrial ceramic materials in sensors and actuators can achieve real-time monitoring and intelligent control of equipment status, enhancing the intelligence level of the equipment. The application of ceramic materials in 3D printing technology has provided new possibilities for the manufacturing of complex structural components and promoted the digital transformation of the manufacturing industry.

The application of industrial ceramic materials not only promotes technological progress in various fields but also provides crucial material support for the development of new productive forces in all industries. We are calling for the arrival of a spring for the application of industrial ceramic materials.

In 2025, the world will focus on the Greater Bay Area International Industrial Ceramic Materials Application Technology and Achievements Trade Fair. At that time, nearly a hundred materials scientists and hundreds of industrial ceramic production and application entrepreneurs will participate, showcasing the application and development of global industrial ceramic materials in numerous fields. We are all set and ready to welcome people who love technological innovation from all directions.