New energy vehicles (NEVs) refer to automobiles that utilize non-traditional fuels, combined with advanced technologies in power control and driving systems. These vehicles feature cutting-edge technical principles, innovative technologies, and novel...
The micro porous ceramic products of HIGHBORN Technology Company have significant effects in water-saving irrigation and have won the first prize in the Lianyungang Women's Science and Technology Innovation Competition. Our micro porous ceramics have...
As the spring sun cast a warm glow over the city, our company embraced the season with a unique team-building event that combined artistry, collaboration, and cultural exploration. On 2025.05.09, employees from all departments gathered at a cozy work...
Why 83% of pharma labs trust porcelain mortar and pestle for contamination-free, heat-safe sample prep. Discover 3 key uses & best practices for ISO-compliant results.
Discover why boron carbide ceramic dominates lightweight armor applications with 30-40% less weight, superior hardness, and proven ballistic performance. Learn how it enhances soldier mobility and mission success.
Discover how piezoelectric ceramics enhance medical sensor precision, improve ultrasound imaging by 40%, and enable minimally invasive surgery. Learn about real-world clinical benefits and adoption challenges. Explore the future of healthcare sensing technology.
Discover how Al2O3 ceramic's hardness, thermal stability, and 3D printing advancements enable high-precision industrial components. Learn about material grades, CNC grinding, and AI-driven manufacturing for bearings, semiconductors, and aerospace. Explore cutting-edge applications now.
Discover how TRISO ceramic balls provide 99.99% radiation containment, withstand 3,000°F, and prevent meltdowns. Learn why 15+ nations are adopting this accident-tolerant fuel. Read more.
Discover how advanced ceramic bricks maintain structural integrity under extreme radiation and 2000°C heat in nuclear plants. Proven to reduce neutron flux by 92%. Learn more.
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