At present, the product orientation is high-performance braking materials used on high-speed trains, aircrafts, high-end cars, and brake materials for load elevators and lifting equipment.
The future expansion of product lines include structural components of spacecraft, lightweight protective armor (planes, ships anti-corrosion anti-impact ammunition tanks, individual armored bulletproof clothing), high-temperature heat exchange systems (high-efficiency lasting high-temperature heat exchanger materials), and sealing substances (Corrosion resistant/high temperature resistant/high pressure resistant piping materials for Offshore oil development, etc.)
Innovation is the core of high-tech enter-prises. DDXX insists that R&D should be at the forefront. The R&D competition should be global. DDXX fully integrates the advantages of domestic and international industrial, academic and research cooperation, and establish an international-level R&D platform in the field.
With the rapid development of technology and breakthroughs, DDXX strives to form barriers that cannot be surpassed. From basic research to industrial chain, it forms a series of competitive advantages and stays at the leading position in the industry.
People are the core assets of the company. DDXX is people-oriented and attracts the best to the team. It will be a source of the most competent and talented people.
Aiming at becoming a large and robust company who stands out in the industry, DDXX will be participate in global com-petition， and will have its own influence and discourse power in global technology field.
"Silicone carbide ceramics are the best high-temperature thermal structural materials due to their great high-temperature performance, deformation resistance and low coefficient of thermal expansion. In order to compensate for the inherent brittleness of the monolithic ceramic materials, it is necessary to increase pliability to meet the specific structural and functional requirements. Carbon fiber reinforced silicon carbide ceramic composites have become an important material system. "