Advanced chemical ceramic new materials play a key role in many strategic emerging industries with their corrosion resistance

Advanced chemical ceramic new materials play a key role in many strategic emerging industries with their corrosion resistance, high temperature resistance, high mechanical strength and other characteristics.
1. Continuous expansion of application fields
Chemical ceramics (such as alumina, silicon carbide, zirconium dioxide) perform better than traditional metal materials in extreme environments and have been widely used in chemical, environmental protection, energy and other fields. Future growth points are concentrated in:
- New energy field: fuel cell diaphragms, lithium battery diaphragm coating materials, to improve battery safety and efficiency.
- Semiconductors and electronics: High-purity electronic ceramics are used in key links of chip manufacturing, benefiting from AI and 5G technology iterations.
- Aerospace: High-temperature structural ceramics replace alloys in engine components and thermal protection systems to achieve lightweight.
2. Coordinated support of policies and industrial chains
- China has listed new chemical materials as a key area of ​​"making up for shortcomings", with a goal of more than 45 million tons of output in 2025. The current self-sufficiency rate is only 54%, and there is huge room for domestic substitution.
- Regional industrial alliances accelerate technology transformation, such as Ou Tao Technology taking the lead in establishing the Jiangxi Ceramic Chemical New Materials Alliance to promote industry-university-research cooperation.
3. Material performance upgrade
- Improved toughness: Reduce brittleness through nanocomposite and bionic structure design, and expand to mechanical processing, wear-resistant parts and other scenarios.
- Functional modification: Develop special ceramics such as antibacterial, self-cleaning, and catalytic to meet emerging needs such as environmental protection (such as ceramic membrane filter materials) and medical treatment.
4. Manufacturing process breakthrough
- 3D printing technology: Realize customized production of complex structural parts, reduce material loss, and promote small-batch high-end applications (such as bio-implant ceramics).
- Intelligent production: Combine AI to optimize sintering process and improve product consistency and yield rate.

5. Prospects
Chemical ceramic new materials industry
- Generate a market of tens of billions in the fields of new energy and electronics.
- Breakthroughs in cutting-edge fields such as intelligence (sensing ceramics) and metamaterials (superconducting ceramics) to reshape the high-end manufacturing supply chain.