"I heard that the city is not very supportive in the coal chemical project?" Meng Shuang asked during dinner in the evening.

Although there are a lot of work in the district, Bao Feiyang still pays great attention to delegating power and reasonable work arrangements. He handed over some regular and trivial work to Huo Jianyi and others. Even for key projects like Tianjiang Iron and Steel Park, he has also looked for excellent project leaders. As long as he is responsible for determining the direction, he has given more work at the execution level to the specific project leaders, and tried his best to ensure his life outside of working hours.

It is not easy to do this. In places like Pujiang, there is no shortage of excellent talents, but in locations like park companies, there are many people watching. Bao Feiyang also faces great pressure and dug a vice president from Jinggang. When he dug up the people, Bao Feiyang made it clear: I will bear all the external pressure, you just need to be responsible for doing your work well!

With the support of Bao Feiyang, the park company quickly established an efficient team including senior officials of multinational companies, overseas returnee elites, and local practical people, which shared a lot of work pressure for Bao Feiyang.

Bao Feiyang did not care much about the specific work of the park unless there was anything important. Of course, because the construction was just beginning, he needed to make ideas and make many decisions.

In addition, as a government official, there are many meetings in the city and districts, and the district mayor has to attend some meetings. So even if he tries his best to do his best, he will only have two days to have dinner with Meng Shuang in a week.

Hearing Meng Shuang's words, Bao Feiyang nodded slightly: "Well, the city is now focusing on developing Jingshan Chemical Zone, and believes that our development of coal chemical industry overlaps with Jingshan. In addition, they also think that it is a bit inappropriate to develop coal chemical industry in the steel park..."

Bao Feiyang briefly talked about the situation. Although it seemed boring to talk about work when he returned home, for Bao Feiyang and Meng Shuang, talking about career was also their fun. If they were asked to discuss some trivial matters, or fashion, celebrities, etc., it would be even more inconsistent.

Meng Shuang nodded: "Fangxia New Materials' technical reserves in carbon fiber have met the conditions for industrialization, and relevant preparations are underway. If we announce now that we are going to invest in and build factories in the park, it should be of some help in promoting the chemical construction of the park, right?"

Bao Feiyang picked up a piece of rib and put it in Meng Shuang's bowl, asking her to eat more: "Fang Xia New Materials' carbon fiber project will be carried out according to the original plan, and don't mess up the pace. If you are rushing to announce this project now, it may cause the contribution of some partners, which will not help Fang Xia master more technology and think that it will add more trouble..."

Bao Feiyang said: "Of course, some preparations can be done first, and not in the name of Fang Xia."

At present, the domestic technical level of carbon fiber is still relatively backward. In general, it is roughly equivalent to the mid-to-late 1970s in the international market, which means there is a generation difference of more than 20 years. Moreover, there is no ability to produce high-performance carbon fibers. The best domestic carbon fibers are roughly equivalent to the performance of Toray T300 carbon fibers. For general products, T300 can basically meet the requirements, but for some new high-tech products, high-strength and high-strength and high-modes, the current products cannot meet the needs of special carbon fibers such as aerospace, aviation, and weapons. The future is even long.

In addition, domestic carbon fibers also have problems such as unstable performance, large discrete coefficient, single variety, single specifications, insufficient continuous length of carbon fibers, and insufficient specification of wool balls, wool silks, and products. Moreover, most domestic carbon fibers have not been surface treated and are relatively backward in surface treatment technology, which makes the shear strength of the material that meets the material layer, which cannot be used as an advanced material reinforcer for high performance requirements, nor can it be used in the production of main bearing components in the defense departments such as aviation and aerospace.

Moreover, the price of domestic carbon fiber is relatively expensive, and the price per kilogram is much higher than that of imported foreign countries, which makes many companies rather use imported carbon fiber than use domestic carbon fiber. After all, domestic carbon fiber has poor performance and is unstable and the price is high. In other words, with the strong support of the country, several companies that produce carbon fiber can continue to maintain it.

Considering the importance of carbon fiber, the country is also vigorously encouraging and supporting the research and development of carbon fiber, but the results are not great. Western countries have very strict technical restrictions on this aspect, and the core technologies are mastered in the hands of some American companies, and even considering the use of carbon fiber in the military field, Western countries even prohibit the export of high-performance carbon fiber to China. Research in the field of new materials is different from the structure and performance of machinery, electronic products, and carbon fiber that can be generally developed in reverse, even if the performance is there, how to form such structure and performance through appropriate processes requires repeated research and attempts. Any slight difference may vary greatly.

Bao Feiyang worked in ceramic materials in his previous life, and he did not know much about carbon fiber technology. Moreover, even after more than ten years, the domestic carbon fiber is still controlled by others. He wrote about the process characteristics of the T700 series of carbon fiber in a new material industry magazine. Fortunately, Fang Xia New Materials has many cooperative units, so they still mastered some carbon fiber technology through some channels, and then gradually mastered some key technologies for high-performance carbon fiber production through their own research.

Fang Xia New Materials has determined to enter the carbon fiber industry. However, Bao Feiyang does not intend to let Fang Xia New Materials come forward directly, but plans to form another new company that seems to have little to do with Fang Xia Group to carry out this production. This kind of thing is not difficult for Bao Feiyang now. They only need to register a few offshore companies and then register a new company in Pujiang City through some equity designs, which will make people confused about the real equity distribution of this company.

Of course, if the intelligence departments of some countries want to investigate, the general practice is still easy to find out the context behind it. However, Bao Feiyang has the relationship with an international Chinese community and can completely use some operations to make the US CIA have no choice.

Bao Feiyang did not want Fang Xia Group to be too popular. Now Fang Xia Group is developing rapidly in the fields of daily ceramics, paper and ceramic new materials, and has developed into a large international group. Domestic private enterprises are unparalleled. Although Fang Xia Group makes its fortune by technology and can withstand the strictest scrutiny of the discipline inspection department, Fang Xia Group has also dealt with government departments a lot. Its high-performance ceramic coatings and new materials are also cooperated with the military, which is somewhat sensitive, especially when Zhao Gen is in a high position and Bao Feiyang's level is getting higher and higher, it is better if Fang Xia Group can not show off or show off. Of course, Fang Xia Group is already very popular now. It can only be said that it is better to show off less, and it is better to show off less as much as possible!

What's more, Fangxia Group's international business is developing very well now and has some important investments internationally. High-performance carbon fibers have a lot of demand in the military field. For example, in the aerospace field, carbon fibers have very good performance in terms of light weight, rigidity, dimensional stability, thermal conductivity, and high temperature resistance. They can be used in rockets, missiles, boosters, protective covers, engine hoods, missile shells, launch cylinders and other components. In addition to having outstanding performance, they can also reduce the mass of rockets and missiles, increase the range of rockets and missiles, and improve the accuracy of landing points. In addition to rockets, carbon fibers can also be used on satellites. Every 1 kilogram of weight of spacecraft can reduce the launch vehicle by 500 kilograms. Therefore, carbon fibers have a very important role in the aerospace industry, and more and more spacecrafts have begun to use advanced carbon fibers.

Because of its light and strong, light and hard characteristics, carbon fiber is also widely used in military aircraft, such as the fuselage, main wing, tail wing, brake pad and skin of fighter jets and helicopters. It can significantly reduce the weight of the aircraft and greatly improve its fatigue and corrosion resistance. At present, the use of carbon fiber composite materials in military aircraft has reached about 130%, and gradually develops from non-bearing structures, secondary bearing structures to main bearing structures and fully composite materials structures, which can greatly reduce the mass of the fuselage by about 20%.

For example, for American military aircraft, Harrier fighter jets that can take off and land vertically, the mass of the entire aircraft uses carbon fiber accounts for about 26% of the total mass of the aircraft structure, reducing the mass of the entire aircraft by 9%. The F22 fighter jets under development in the United States also use a large amount of carbon fiber, with a consumption of about 24%.

In addition to missiles, aircraft, and carbon fiber composite materials are also used in bulletproof armor. Carbon fiber composite materials have light weight, heat conduction and good heat dissipation performance. Armor made of carbon fiber can instantly disperse the impact energy of bullets quickly and quickly to the entire area. It has strong toughness, few penetration layers, and small depressions. It can effectively protect the body, realize the multi-energy of one-clothing, which can be bulletproof, cutting, stabbing, explosion-proof, fire-proof, etc. The inner helmet of the new generation of soldier helmets in the United States contains carbon fiber material. This helmet is soft inside and hard on the outside, light on the outside, and is 20% lighter than in the past. It is precisely because of the excellent performance of carbon fiber that can make bulletproof boards, bulletproof vests, bulletproof helmets, etc.
Chapter completed!