Wu Tong never forces himself to do things that he is not good at.
She learned from her teachers, whether it was Dean Pan, Teacher Zhou, Teacher Cheng Huanan, or Mr. Hua from Hua Yanxing, with whom she had worked together... These were elders who had high hopes for her. They enjoyed every contact and were willing to give their all to pass on their experience to Wu Tong.
The basis of management is that she does not have to take control of everything herself. What she should do is to control the overall situation. The details will naturally be left to more professional people to perfect. She only needs to convey the state she wants to achieve and accept the results.
Finding land and building a house requires a lot of money. Wu Tong feels that she should hurry up and produce some results and seek financial support from above. This is what she should do.
She has enough value, and the higher-ups will naturally solve the problems for her. What she wants to achieve,
Although she felt embarrassed to trouble the higher-ups, Wu Tong felt that seeking help from them was the most appropriate way to repay the country with what she was good at, rather than getting stuck in something she was not good at.
In addition, in the second half of the year or by the end of the year, if the dividends from her Zhongyuan Group are substantial, they can also be used as start-up capital investment, so that she does not have to rely entirely on support from above and add too much trouble to them.
After determining the focus of his work, Wu Tong continued to devote himself to new research.
The NS equations had just made some minor breakthroughs, but they had reached their limit and were temporarily unable to make further progress. Wu Tong didn't insist on focusing on this research, and instead turned to another topic: carbon fiber composites.
Carbon fiber composites are inorganic high-performance fibers with a carbon content of more than 90%, which are converted from organic fibers through a series of heat treatments. They are a new material with excellent mechanical properties. They have the inherent characteristics of carbon materials and the softness and processability of textile fibers. They are a new generation of reinforcing fibers.
Its advantages are obvious. It has a small specific gravity, less than a quarter of that of steel, and high strength. The tensile strength of carbon fiber resin composite materials is generally above 3500Mpa, which is 7 to 9 times that of steel, and the tensile elastic modulus is ~Mpa, which is also higher than that of steel.
Therefore, the specific strength of CFRP, that is, the ratio of the strength of the material to its density, can reach more than 2000Mpa/(g/cm3), while the specific strength of A3 steel is only about 59Mpa, and its specific modulus is also higher than that of steel.
It has become an advanced aerospace material due to its low specific gravity, good rigidity and high strength.
Because every kilogram of weight reduction in a spacecraft reduces the weight of the launch vehicle by 500 kilograms. The same principle applies to fighter jets. Every reduction in a fighter's weight means an increase in payload and maneuverability.
Weight reduction has always been an eternal research topic pursued by aerospace.
Therefore, in the aerospace industry, carbon fiber composite materials have been constantly pursued, and the use of advanced composite materials has always been an urgent need for aerospace.
Most importantly, if they can achieve a breakthrough in carbon fiber composite materials, they will be able to realize the possibility of vertical take-off and landing fighter jets.
A vertical take-off and landing fighter is a fighter that takes off and lands using vertical take-off and landing technology.
Vertical take-off and landing fighter jets can take off and land without taxiing, have low requirements for runway conditions, can follow ground forces to deploy and attack on the front line and attack ships, respond quickly to front-line support, and are very flexible to use.
There has not been any typical breakthrough in this area in China, but with international development, this is a difficult problem that must be overcome.
As the country moves towards the deep blue, in order to better defend the motherland and protect our territorial waters and airspace, it is necessary to master the technology of vertical/short take-off and landing aircraft.
This is also the type of aircraft favored by the navy/military, because the length of the flight deck on a ship is always limited, and vertical/short take-off and landing technology is particularly practical.
She and Professor Lu Xiaolu had a detailed discussion about the development direction of the J-35. "The J-20 has already reached a certain limit in its current technological capabilities. They can continue to overcome technical difficulties, push beyond this limit, and design and develop a fighter jet that can fly faster and farther."
"However, its range, speed, and payload are too similar to those of the J-20, and the J-20, which boasts world-leading performance, may not have many years left before it faces retirement. Excessive overlap in performance is a waste of resources."
The J-20 has entered full production, rapidly arming the nation and safeguarding its frontiers. Currently, the J-20 is deployed along the southeastern coast and northwest borders.
The super-superior performance of the J-20, as well as its powerful combat radius and super endurance, ensure that they can directly surround and take care of the southeast and northwest directions.
Therefore, in the end, she and Lu Xiao agreed on the direction of defining the J-35 as a carrier-based aircraft. The best scenario is to achieve vertical take-off and landing, the possibility of electromagnetic catapult, and to make further breakthroughs based on the J-20 Weilong.
With Wu Tong and Lu Xiao's authority, they were able to track down and learn some confidential information that hadn't yet been made public. China's first aircraft carrier, the Type 001, was nearly complete and would soon be delivered to the Chinese Navy for sea trials. It would then enter service, becoming a powerful weapon for China.
China will soon have its own aircraft carrier.
Such exciting good news made the Chinese people feel so excited that they wanted to do something for this great mountain-guarding weapon, for example, to make it more deterrent.
Aircraft carriers have become an indispensable weapon for modern navies and a symbol of a country's comprehensive national strength. They have great attack power, good maneuverability, seaworthiness, wave resistance, and strong protection capabilities. They usually form aircraft carrier battle groups with escort ships such as cruisers, destroyers, frigates, submarines and supply ships to carry out combat missions.
The other ships in the fleet provide carrier protection and supplies, while the carrier provides air cover and long-range strike capability.
An aircraft carrier fleet, centered around an aircraft carrier, is one of the most important vessels in naval warfare. Relying on aircraft carriers allows a nation to conduct long-range operations far from its homeland, without relying on local airfields.
Therefore, the air strike capability of an aircraft carrier is a crucial link, and the demand for vertical take-off and landing fighter jets is imminent.
Vertical take-off and landing requires extremely high performance from the fighter plane itself. To achieve such high performance, the material difficulty lies in the carbon fiber composite material technology that is currently being developed and widely used by the world's advanced fighter planes. This is the most important thing that must be overcome!
Only by overcoming the material difficulties can we continue to achieve the next R&D implementation plan!
Continue read on readnovelmtl.com
