Recently, CCTV revealed the latest breakthrough in the field of China's hypersonic missiles, and the deformable waverider technology leads the world.
According to the latest news, China has successfully mastered the technology of deformable waverider hypersonic missiles and has entered the engineering stage, a breakthrough that will allow China to lead the United States in the field of hypersonic missiles for at least 10 years.
Evolution of missile shape: from a double cone to a waverider.
Traditional hypersonic missiles have a double-cone structure, similar to the design principles of an airplane. This structure achieves gliding by relying on the air pressure difference between the upper and lower sides and the expansion wave to generate lift at a certain angle of attack. In addition, the use of the "air film" formed by air extrusion effectively reduces flight resistance and improves the maneuverability of the missile. Older ballistic missiles with a double-cone design have demonstrated excellent penetration capabilities in the new era of battlefield environments.
The waverider is a streamlined hypersonic vehicle, and its leading edge is attached to the shock wave to generate lift, which has the advantage of obtaining a higher lift-to-drag ratio than the traditional lifter configuration. However, there are still problems such as longitudinal static stability that need to be solved in engineering applications.
Intelligent Morphing: The introduction of a deformable waverider.
The emergence of deformable waverider hypersonic missiles enables the missile to intelligently deform in different flight stages and better adapt to different flight environments. The core of this technology lies in the fact that according to different environments, the structure of the missile warhead can be intelligently deformed, optimize flight performance, and greatly improve the adaptability brought about by changes in atmospheric density and flight altitude.
This technology not only improves flight performance, but also has a variety of expansion capabilities, such as effectively increasing the gliding distance and having the ability to steer the flight direction. Not only does it play an important role in hypersonic missiles, but it also shows excellent performance in hypersonic aircraft. Reusable hypersonic vehicles have a wide range of flight altitude and speed variations, and it is difficult to maintain high lift-to-drag ratio aerodynamic performance in a fixed shape. The intelligent deformation technology enables the aerodynamic shape of the aircraft to change according to different flight environments and states to meet the requirements of multi-mission and large-envelope flight.
Global leadership: China's hypersonic technology leads the way.
According to **, China has the world's most advanced hypersonic wind tunnel, as well as leading hypersonic thermal insulation materials and black barrier communication technology, making it unique in the hypersonic field. It is expected that in the future, hypersonic missiles will become the mainstream configuration of China's rocket force and escort China's national defense.
The American hypersonic program has repeatedly failed and switched to simple projects.
In contrast, the United States faces enormous challenges in the field of hypersonic speeds. As early as 2019, the United States put forward a plan to conquer deformable hypersonic missile technology, but so far it has not been able to make substantial progress. His research on thermal protection systems and thermal structure technologies for different material systems and structural schemes, as well as project changes, were all failures.
The United States has spent nearly $2 billion on several hypersonic programs but has repeatedly failed, resulting in frequent changes in its hypersonic missile development program. For now, the U.S. is focusing on the relatively simple, scramjet-powered, air-breathing hypersonic cruise missile HACM program, which is less difficult and has invested at a record high, and is expected to have a combat-ready HACM** by fiscal year 2027.
Epilogue. 
China's continuous innovation and technological breakthroughs in the field of hypersonic have given it a leading position in the global hypersonic race. The successful breakthrough in the technology of deformable waverider hypersonic missile not only improves the flight performance of the missile, but also provides an ideal solution for multi-mission and large-envelope flight. The leadership of China's hypersonic technology will play an important role in the future military pattern and inject strong impetus into the world.
Recently, China's successful announcement of mastery of deformable waverider hypersonic missile technology has attracted widespread attention. This technological breakthrough marks China's remarkable progress in the field of hypersonic missiles, even at least 10 years ahead of the United States. This has sparked a wide discussion about China's rise in the military-technical sphere.
First, the article details the evolution of hypersonic missiles, from the traditional bicone design to the waverider structure, to the latest deformable waverider technology. This scientific and technological innovation not only improves the maneuverability of the missile, but also enables the missile to flexibly adapt to various complex flight environments at different flight stages through intelligent deformation technology, which greatly improves the comprehensive performance of the missile.
Secondly, the article points out the importance of this technology. It can not only improve flight performance, but also has a variety of expansion capabilities, such as increasing gliding distance, rudder control flight direction, etc. This allows hypersonic missiles to perform better tasks in multi-mission and large-envelope flights. The introduction of this technology is of great significance to China's national defense and is expected to provide China's rocket forces with a more powerful combat capability.
The article also contrasts the challenges of the United States in the field of hypersonics. The United States has put forward a plan to conquer deformable hypersonic missile technology, but has not been able to achieve substantial progress. On the contrary, China has succeeded in achieving this breakthrough through the world's most advanced hypersonic wind tunnel and leading technology accumulation. The United States, which has repeatedly failed in a number of hypersonic projects, has had to shift its focus to relatively simple ones, showing its lag and dilemma in hypersonic technology.
Finally, the article points out China's leading position in hypersonic technology and looks forward to future developments. The rise of China's hypersonic technology will inject strong impetus into the military landscape and play an important role in the future military landscape. This technological advantage is not only a victory in the military field, but also a strong proof of China's scientific and technological strength, which has won more reputation for China in global scientific and technological innovation.
Overall, this article provides an in-depth introduction to China's latest achievements in hypersonic missile technology, demonstrating China's strong strength in the field of military science and technology. This technological breakthrough not only has a far-reaching impact on the cause of national defense, but also wins more applause and respect for China on the international stage of science and technology.
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