The current situation and development trend of ceramics in the world
Overall, since the precision ceramics industry was born in the 1980s, the mechanical properties have improved dramatically, allowing ceramic materials to penetrate every corner of the world, from toilets in toilets to heat shields in the cockpit of spacecraft. With the development of Nanotechnology in recent years, the ceramic industry has also developed another new technology era, Nanotechnology makes ceramic material strength, toughness and superplasticity greatly improved, but also with anti-fouling, anti-humidity, scratch-resistant, wear-resistant, fireproof, insulation and other functions greatly enhance the application of ceramics and efficiency.
Japanese ceramics are oriented towards refined high-tech
Japan regards industrial precision ceramic as a high-tech industry that determines the future competitiveness of the future and spares no effort to invest a lot of money to produce advanced ceramic originals which has occupied the main share of the international market. In the 1990s, Japan first proposed a functional material called gradient material, which provided another way for the composite of new ceramic materials. On this basis, the aperture distribution is processed by gradient, you can make excellent performance of ceramic film material. Continuous innovation of high-tech team ceramic materials and applications, so that Japan in the chemical industry, petrochemical, food engineering, environmental engineering, electronics industry to develop a broader development prospects.
American ceramics are used in the precision technology industry
From 2010 to 2015, the production of coatings and composite products such as alumina, titanium oxide, zirconium oxide, zirconium carbide and zirconium oxide are applied in electronic devices, industrial machinery, chemical industry, environmental pollution prevention and control, etc. To improve ceramic processing efficiency and reduce environmental pollution, microwave sintering, continuous sintering or rapid sintering and other new technologies and equipment also emerged. Since 2020, advanced ceramics will become the most economical material choice with its unique properties such as superior high temperature resistance and reliability, and will be widely used in industrial manufacturing, energy aviation, transportation, military, and consumer goods manufacturing.
European ceramics prefer green energy and practicality
European countries are also investing a lot of money and manpower to develop functional ceramics and high-temperature structural ceramics. The focus of the current research is on power generation equipment applications of new material technologies, such as ceramic piston lids, exhaust pipe lining, turbocharging and gas rotation. The cooling part is made of ceramic material, which can greatly reduce energy and heat loss. Ceramic heat exchangers have the ability to recover waste heat from boilers or other high-temperature devices, ceramic tubes can improve corrosion resistance, increase heat exchange efficiency, and play an important role in energy conservation in many industries.
Post time: Oct-11-2021