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China Space Military:Recon, Satcom, Navi, ASAT/BMD, Orbital Vehicle, SLV, etc.

Nothing beats a F-22 in its best stealth configuration, which is when it is hidden inside its hangar. It is called "the hangar queen" for a reason. :D

How many super duper Russian jets and missiles have come out in the past decades? How many of those have been really effective in so many conflicts against the American pilots? Not many!!!! So that tells you how the US operates. We don't announce every small or big thing like desperate people writing on here from China.

I've seen a bunch of fan boy crap going on here. It's so strange to see facts being butchered by "Stories". The US -22's flew in with 2 over-sized drop tanks for such a long range sortie. If I put one of those drop tanks on my belly, and go at a stair case 200 feet tall in the air, I am sure the radars will identify me as a Stealthy object too. And you are welcome to register my belly as F-23 if you like :rofl: :angel:.

There is utter silliness on here. These jets weren't on combat mission and weren't careful about their flight performance, altitude, extra heavy drop tanks and all. All these help identify an object like a plane vs. a bird on the radar screen. Like Gambit said, the radar sees it all. Its a matter for it to see it "closely enough" to distinguish between what it might considered a little bird or ground clutter and a stealthy jet.

For those F-22 fanbois and Political Prostitutes and Slaves of US, please bear in mind that ... ...

1) The undeniable facts about F-22 ( the global famous Hangar Queen / Flying Coffin ) maintenance is that ... ...
For every single hour that F-22 flies in the air, the overhyped and overrated F-22 require at minimum 8 hours of downtime for RAM recoating and maintenances..

And ALL the Chinese jets STILL fly with Russian engines. Because the Chinese can't build one after spending billions. Sorry, that's the reality. And you think you have the moral right to even comment on other's maintenance?

Your air assets still use Russian maintenance books and procedures as everything you have is either purchased from Russia, or stolen from their licensed tech. And even then you couldn't build a decent jet till day that is considered a real response to something the West has (in real combat, not on papers). Hell, the engine and the air-frame are two of the MOST essential and critical things in any aviation industry. And outside of the J-20 and J-31 programs, you guys STILL use Aluminum within air-frame. That used to happen in the 1970's and 1980's. And you are still doing what we did 40+ years ago. And somehow, you think China has credentials enough to stick your nose in other countries advanced tech, when you aviation industry is trying to learn to CRAWL before it can walk (another 10 years).

By the way, the Chinese engines have the same issue. Heavy maintenance, in fact more than what the Russians need. That's why the Pakistanis havn't bought the J-10 and J-11 and the J-16, even after being offered on nice, very low interest loans!!!! Because the Pakistanis use the -16's and they can never allow so much maintenance to take place. They want similar standards and the Chinese can't meet them. Here you are, complaining about other people's "maintenance records" when you have none of your own products. Its all the Russian federation's love for you flying.
 
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China to Launch Space Telescope, Similar to “Hubble”, Only Field of View 300 Times Larger
(People's Daily Online) 23:44, March 07, 2016
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China is to launch an “optical module” along with the under-construction space station, said Zhang Yulin, Deputy to the National People’s Congress and Deputy Minister of Central Military Commission Equipment Development Department, on March 7, 2016. The “optical module” is similar to Hubble Space Telescope, but the field of view is 300 times that of Hubble.

The module would maintain a certain distance to orbit with the space station. When suffers malfunction or needs maintenance, it will dock to the space station and be operated by astronauts, Zhang said. This will solve the problem Hubble has encountered, when NASA had to send up astronauts particularly to repair it. This special design of China’s space station makes in-orbit maintenance possible, and can thus bring the numerous defunct satellites to life, Zhang said.

Within 10 years of orbit, the module would capture about 40 percent of the space with a precision no less than Hubble. With these data, it is hopeful that China will make breakthrough development on the origin, development, and evolution of the universe.
 
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Exploiting earth-moon space: China's ambition after space station
Source: Xinhua 2016-03-07 23:25:15

BEIJING, March 7 (Xinhua) -- China will manage to exploit the space between earth and the moon for solar power and other resources after it builds a space station in 2020, Lt Gen. Zhang Yulin, said Monday.

The deputy chief of the armament development department of the Central Military Commission said preliminary work on the program had already begun.

"The earth-moon space will be strategically important for the great rejuvenation of the Chinese nation," said the national lawmaker.

China's military authority is one of the several departments working on the national space program.

Zhang told Xinhua on the sidelines of the ongoing annual legislative session that generating solar power in space will be much more efficient than on earth. Silicon dioxide used in solar panels, is inexhaustible on the moon, while water in the moon's polar regions and on asteroids can be electrolyzed into oxygen and hydrogen to make propellant for spacecraft.

With propellant and solar panels, a solar power plant could be constructed in space between earth and the moon, impossible with current technology as an industrial-scale power plant would weigh over 10,000 tonnes. The International Space Station, the biggest man-made object to be sent into orbit, weighs just over 400 tonnes.

Besides power, the earth-moon space has a lot of other resources, he said, adding that the current manned earth-moon space program could lay the foundation for a manned Mars program and other deep-space exploration.

"The future of China's manned space program, is not a moon landing, which is quite simple, or even the manned Mars program which remains difficult, but continual exploration the earth-moon space with ever developing technology."

A series of space missions is planned to verify key technology for the space station. Around 2020, a medium-sized space station with three modules and weighing 60 tonnes will be put into orbit.
 
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China to Launch Space Telescope, Similar to “Hubble”, Only Field of View 300 Times Larger
(People's Daily Online) 23:44, March 07, 2016
FOREIGN201603080000000560003697451.jpg

China is to launch an “optical module” along with the under-construction space station, said Zhang Yulin, Deputy to the National People’s Congress and Deputy Minister of Central Military Commission Equipment Development Department, on March 7, 2016. The “optical module” is similar to Hubble Space Telescope, but the field of view is 300 times that of Hubble.

The module would maintain a certain distance to orbit with the space station. When suffers malfunction or needs maintenance, it will dock to the space station and be operated by astronauts, Zhang said. This will solve the problem Hubble has encountered, when NASA had to send up astronauts particularly to repair it. This special design of China’s space station makes in-orbit maintenance possible, and can thus bring the numerous defunct satellites to life, Zhang said.

Within 10 years of orbit, the module would capture about 40 percent of the space with a precision no less than Hubble. With these data, it is hopeful that China will make breakthrough development on the origin, development, and evolution of the universe.

This special design of China’s space station makes in-orbit maintenance possible, and can thus bring the numerous defunct satellites to life, Zhang said.

Or bring in-orbit functional satellites to destruction?:enjoy:

China sets up laboratory to research building solar power station in space

PUBLISHED : Tuesday, 08 March, 2016, 12:46pm
UPDATED : Tuesday, 08 March, 2016, 12:46pm

Stephen Chen

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An artist’s impression of China’s solar power station in high orbit. Photo: SCMP Pictures

China has started laboratory research to develop a solar power station in high orbit to beam potentially huge amounts of energy back to earth.

Tests to develop technology for the station are underway at a ground laboratory in Beijing, the Space and Technology Daily reported, a newspaper run by the Ministry of Science and Technology.

The article quoted Zhang Bonan, the chief designer of manned space vehicles at the China Aerospace Science and Technology Corporation, as saying that work had begun on the lab project.

The plan envisages putting a space station with a huge solar array in orbit about 35,000 km from earth.

A solar power station would potentially be able to produce huge amounts of energy as it directly receives sunlight without filtering from the earth’s atmosphere and it could operate 24 hours a day.

The laboratory leading the project at the China Academy of Space Technology in Beijing was named after Qian Xuesen, the father of China’s missile and space technology programme, Zhang was quoted as saying.

China’s solar power project in space has been largely confined to designs on paper, according to previous reports, but the latest remarks by the senior space official suggest it has moved into a higher phase of development.

The technology could potentially have military applications as a weapon if high sources of energy could be beamed at earth.

No timeline was given in the newspaper report on when China might start building the orbiting solar power plant, but previous media reports have suggested it might be launched between 2030 and 2050.

Researchers in other countries such as the United States and Japan had proposed similar designs since the 1970s, but no project has come to fruition due to the enormous costs and technical challenges involved.

These include finding a method to beam the high amount of energy back to earth.

The longest distance for the wireless transmission of energy was reported by researchers in Japan last year. They only managed to beam 1.8 kilowatts of energy to a small receiver 50 metres away.

Zhang told state media at the meeting of China’s legislature in Beijing this month that one breakthrough had been made through the design of “multiple rotary joints”, but he did not elaborate on the nature of the technology.

China sets up laboratory to research building solar power station in space | South China Morning Post
 
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China-developed the world's first quantum satellite ready to be lunched this July
By Huang Jin (People's Daily Online) 14:45, March 08, 2016

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The first quantum communications satellite developed by China is expected to launch in July of this year. The Beijing–Shanghai quantum private communications line will also be opened in the second half of this year, according to Pan Jianwei, academic at the Chinese Academy of Sciences, during an interview with China Youth Daily.

According to Pan, this milestone means that a quantum communications network will be formed, and that 30 years of research on quantum information will be finally put to use. Pan said that quantum communication between the satellite and the ground will be achieved for the first time anywhere in the world.

In recent years, quantum communications is considered to be supportive research for next-generation communication technology because of its transmission efficiency and absolute security. Pan said that, as quantum technology is indivisible and cannot be cloned, it may be implemented as an information carrier for the distribution of sensitive information, thereby guaranteeing the secure transmission of important content. Quantum communications research has become a focus and frontier of global research in physics.

China started developing its quantum satellite in 2011, and launched the quantum optical fiber communication network project, the Beijing–Shanghai line, in 2013. The Beijing–Shanghai quantum private communications line will cover a total length of over 2,000 kilometers, connecting a network of numerous cities including Beijing, Jinan, Hefei and Shanghai. It will be the world's first wide-area optic fiber quantum private network.

According to Pan, the assembly of the quantum satellite has already been completed. The satellite has passed electrical measurement and thermal balance testing, and is currently undergoing mechanical and magnetic testing in Shanghai’s Small Satellite Engineering Center.

"With further development, quantum communications should benefit millions of households in the near future," Pan said, adding: "I hope that within another 10 years of hard work, online transfers and payments can be guaranteed through quantum communication for every consumer."
 
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China's space station: 2 arms, 'wings', and a 'Chinese Hubble' | gbtimes.com
The chief designer of China's human space program has revealed new details on the country’s first space station, which will be completed around 2020.

Zhou Jianping, speaking to state media on the sidelines of China’s ongoing parliamentary sessions, explained that the project will include three modules, two 30m solar panel 'wings', two robotic arms and a telescope dubbed 'China's Hubble'.

Zhou, who is a member of China’s top consultative body currently in session in Beijing, said the space station will comprise of a core module and two labs forming a T-shape, each weighing about 20 tons.

The core module is scheduled to be launched in 2018, by the new heavy lift Long March 5 rocket, which will make its maiden flight in September and be capable of lifting 25 tonnes to low Earth orbit.

The core module will have five docking interfaces, including one for 'Tianzhou' cargo ships, two for crewed spacecraft, and two space lab modules.


China’s space station will have two flexible solar arrays, or 'wings’, each with a 30-metre wingspan.

“Together with biaxial sun pointing mechanisms and high-efficient lithium ion battery, they constitute a sophisticated and powerful space station power system," Zhou said.

The station will also have two robotic arms, with a total length of 15 metres. Zhou notes that human-machine coordination will make the building and maintaining of the Space Station possible.

‘China’s Hubble’
An ‘optical module’ will also be part of the Chinese space station, according to Zhang Yulin, a senior military official and a deputy to the National People’s Congress.

According People's Daily, Zhang said the two-metre diameter optical module will orbit in proximity to the space station, making it easily accessible to astronauts for repair and maintenance.

The module is expected to provide a level of resolution no less than the famous Hubble space telescope, but with a field of view 300 times larger.

If it remains active in orbit for a decade, the telescope could be able to cover around 17,500 square degrees of space, or 40% of the sky.

It is hoped that China will make breakthroughs related to the origin, development and evolution of the universe with data gathered.

Space science, exploration and preparation
“The mission of the space station is to become China’s national laboratory in space and support scientists’ work on cutting-edge scientific exploration, space technology research and development and utilisation of space resources. The ultimate goal is to benefit all of humanity,” Zhou said.

“Recycling materials and increasing the ratio of recycled materials are major technological challenges for the world’s crewed space flight missions,” Zhou said.

The Tiangong-2 space laboratory, set to be launched later this year and be visited two astronauts for 30 days on the Shenzhou-11 mission in the fourth quarter of 2016, will thus be used to advance knowledge and techniques required for long-term stays on the future space station.

Shenzhou-12 is expected to follow after China’s first ever cargo resupply mission to the lab, Tianzhou-1, in early 2017.

The Tianzhou-1 resupply mission needs to be launched by a new Long March 7 rocket, which will make its first flight in June from Wenchang, and greatly boosts China’s launch capabilities.

"After the Tiangong-2 mission is completed, China will start the construction of its space station, which will be completed around 2020. It will be a large, complicated and advanced space facility for astronauts to live and work in space," Zhou said.

“Future space exploration requires people to live in space for a long time. To explore technologies about closed-loop ecological systems in space, Tiangong-2 will conduct “from-seed-to-seed” experiments which involve plants’ entire growth and development process.

“At present, we plan to plant rice and cress to observe different growth under the long-day and short-day scenarios”, Zhou said.

Overall, Tiangong-2 will host 14 scientific payloads and experiments to carry out research in areas including space life science, fluid physics in microgravity, fundamental physics, Earth science, space astronomy, and the space environment.

For the space station, Zhou hopes that the” experimental facilities for material science can make use of microgravity in space to make new materials and research their functional performance.

“Lots of studies in future will focus on the research and development of new materials. The new materials will have great industrial values,” Zhou said, adding that the advanced space research platform can provide an environment for scientists to make major world-class breakthroughs.

New astronauts
With long duration stays in space and vast scientific agenda, China’s space station will bring new demands and possibilities, which will be reflected in the astronauts trained for missions.

“Astronauts will need to carry out a greater variety of missions than before, so a greater variety of astronauts are needed,” said Zhou.

“We've been selecting astronauts mainly from pilots, and now we will also select them from flight engineers and space technology experts. You can see a change in the groups of people we select from.”

Wang Weifen, deputy director of China's Astronaut Centre, said in 2014 that this third batch of astronauts will include doctors, psychologists and engineers from departments relevant to human spaceflight research, along with air force pilots, which made up the first two batches.

The only show in orbit?
Based on the timeline above, China's space station may become the only orbiting station shortly after completion, with the International Space Station currently set to ends its mission in 2024.

Incidentally, the timeframe given for completion of China’s space station has moved a number of times over the past years.

Having been slated for 2020, it had seemingly slipped to 2022 or 2023, according to quotes from officials. The more ambitious target of 2020 has been reinstated, with a mooted third Tiangong space lab seemingly dropped from the scheduled.
 
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New engines to lift super-heavy rocket
By Zhao Lei (China Daily)Updated: 2016-03-10 02:12
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Chinese rocket engine designers have started to develop next-generation engines that will propel the nation's future super-heavy rocket, which is tentatively called Long March 9, according to a senior rocket scientist.

"Engineers at my academy are researching and developing a 500-ton-thrust liquid oxygen/kerosene engine and a 200-ton-thrust liquid oxygen/liquid hydrogen engine that will be used on the future heavy-lift rocket," Tan Yonghua, president of the Academy of Aerospace Propulsion Technology and a national lawmaker, told China Daily on the sidelines of the annual session of the top legislature.

The engines will together give the Long March 9 a launch weight of 3,000 tons and a maximum payload of 130 tons to the low Earth orbit, which is powerful enough to fulfill a manned mission to the moon, he said.

Success of the country's Mars exploration programs, which have been approved by the government, and other deep-space projects will also depend on the new rocket because existing ones, including the Long March 5, are not powerful enough, according to Tan.

Long March 9 is set to be as technologically advanced as the United States' Space Launch System, which is being designed by the National Aeronautics and Space Administration, and it will be pollution-free, the scientist added.

Tan said the new engines will be based on those used on the Long March 5, which will be launched for the first time in the fall, and that their development will take about 10 years.

Liang Xiaohong, former deputy head of the China Academy of Launch Vehicle Technology and a political adviser, told China Daily that the Long March 9's core body will have a diameter of nearly 10 meters and a height of more than 100 m. The rocket's development is expected to take 15 years, he added.

Liang's academy recently developed a super-large interstage ring that will be used to connect stages of the Long March 9.

In another development, Tan said the Academy of Aerospace Propulsion Technology will soon deliver engines to be installed on the Chang'e 5 probe, the third step of China's unmanned lunar exploration effort to land on the moon and bring back soil in about 2017.

China is even eyeing the possibility of operating a space solar power station between Earth and the moon. Lieutenant General Zhang Yulin, deputy head of the Central Military Commission's Equipment Development Department, told Xinhua News Agency on Monday that China is making a blueprint for the construction of a solar power station.
New engines to lift super-heavy rocket - China - Chinadaily.com.cn
 
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Maiden Long March 7 flight to test China’s next-gen human spacecraft
ANDREW JONES
2016/03/11
The first Long March 7 test model at the Wenchang space launch centre, Hainan Province. (Photo: Huang Zengguang, Courtesy of China Aviation News)
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New rockets that will enable China to build and service a space station and attempt interplanetary missions will soon be in action as the country steps up its space ambitions.

The heavy lift Long March 5 will allow China to loft huge space station modules to low Earth orbit, send a craft to return samples from the Moon and launch its first independent Mars mission in 2020.

The smaller Long March 7 is also crucial, having been designed to launch ‘Tianzhou’ cargo vessels to the future space station, which is expected to be completed around 2020.

The Long March 7 will also become the workhorse launch vehicle of the Chinese space program, while both new kerosene and liquid oxygen-fuelled rockets will together eventually replace the highly toxic, aging earlier Long March rockets.

The medium lift Long March 7 is scheduled to make its maiden flight in June, and will feature a surprising payload.

Speaking at the ongoing parliamentary sessions in Beijing,Zhou Jianping, chief designer of China's human space program, revealed that the test flight will include a scaled-down version of a new Chinese re-entry capsule for human spaceflight.

Zhou told Xinhua (Chinese) that the mission would test both new rocketry and crewed capsule, showing the courage, efficiency and development of China's human space program.

The top of the capsule, seen in designs and apparent development above, packs parachutes, GNSS antenna and antenna specially designed to prevent radio silence during hypersonic re-entry.

The capsule is part of work to develop two next-generation multi-purpose crewed spacecraft, with masses of 14 and 20 tonnes respectively.

The craft are designed to take transport crew or cargo to low Earth orbit and beyond, including possible missions to the Moon, Lagrange Points, Near Earth Asteroids and Mars.

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The successor to the currently-used Shenzhou spacecraft – the 11th mission of which will take two astronauts to Tiangong-2 late this year - will be made from advanced aluminium alloys in order to reduce the vessel’s weight to allow more crew and cargo.

While Shenzhou re-entry capsules return to Earth and touch down on land at Siziwang Banner in Inner Mongolia, the new capsule can also be recovered at sea. It has not thus far been stated if this capability will be tested in June.

More apparent details of the spacecraft, which have not been officially approved by the Chinese government, are laid out here.

Zhang Bonan, chieft designer of the Chinese space station, told CCTV that the second-generation spacecraft could be developed quickly if approved by the state.

China is far from alone in developing new crewed spacecraft. Nasa is developing its own new Orion spacecraft, which could be involved in a potential human Mars mission in coming decades.

As part of the Nasa Commercial Crew Development Program, Boeing is working on its CST-100 Starliner in collaboration with Bigelow Aerospace, and SpaceX on its human-ratedDragon V2 spacecraft.

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Above: Impression of Nasa's Orion spacecraft with European ATV behind.

Long March 7 progress
In late February it was announced that, after extensive testing of the new models, the first mass manufactured Long March 7 rocket would be completed in the northern city of Tianjin by the end of April (Chinese).

The Long March 7 stands 53.1 metres high, 3.35m by diameter, with four 2.25 m strap-on boosters. Weighing 594,000 kg at lift-off, it will be capable of lofting a 13.5 tonne payload to low Earth orbit.

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Above: Long March 7 components being manufactured in Tianjin under the China Aerospace Science and Technology Corporation (CASC).

Once completed, it will then be taken by sea to the new Wenchang space launch centre on the southern island province of Hainan.

Wenchang was established for launching the new Long March 5 and 7 rockets. Being at lower latitude than China’s three other launch centres means it benefits from a greater rotational speed of the Earth to help rockets and their payloads reach Earth orbit.

The launch centre’s location also allows the huge launch vehicles to be delivered by sea, circumventing China’s railroads, which are inadequate for the task.

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Above: Long March 7 manufacture in Tianjin in February 2016 (CASC).

Space station plans
While the new heavy lift Long March 5 rocket, which will make its maiden flight in September and be capable of lifting 25 tonnes to low Earth orbit, will be lofting the space station modules, its smaller next-gen brother is also crucial to the project.

Tianzhou cargo vessels will be used to resupply the space station and will be launched by the Long March 7.

If all goes well in June, a test resupply mission to the Tiangong-2 space lab will be carried out early next year, after the 30-day visit by two astronauts aboard Shenzhou-11.

A successful mission would then allow for a slated Shenzhou-12 mission, which could feature China's female astronauts, to visit Tiangong-2.

It was revealed earlier this week that the Chinese space station will include three modules, two 30m solar panel 'wings', two robotic arms and a telescope dubbed 'China's Hubble'.

While China's space program has only featured five human spaceflight missions, including the Yang Liwei's pioneering flight in 2003, each mission has sought to make big steps forward.

If the low launch rate brought doubts to outside observers, it is now becoming apparent that China has greatly expanded its capabilities in recent years and has big ambitions for the future.
Maiden Long March 7 flight to test China’s next-gen human spacecraft | gbtimes.com
 
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China’s First Zero-Gravity 3D Printing Experiment Concluded Successfully

From February 22 until March 5, 2016, the research team organized by the Technology and Engineering Center for Space Utilization, Chinese Academy of Sciences (CSU-CAS), successfully implemented their first zero-gravity additive manufacturing (also known as 3D printing) experiment in the 28th DLR parabolic flight campaign at Bordeaux, France.

It is China’s first additive manufacturing experiment in zero-gravity. This experiment completed successfully in zero-gravity of 93 parabolas totally. The samples were printed successfully as designed, effects of zero-gravity on the manufacturing process and materials were observed and significant data were collected. Five different materials and two 3D printing technologies were tested.

As introduced by Professor WANG Gong from CSU, space manufacturing technology is a revolutionary and strategic technology for future space exploration, which will facilitated deeper space exploration by saving logistics from Earth. 3D printing is an important modeling technique to support space manufacturing with its efficiency and flexibility. However, since the environment in space is far different from that on earth, adaptively designed materials, mechanisms, and control systems are necessary. Various researches of space manufacturing technology have been launched in many countries nowadays. Compared with the 3D printer installed on the International Space Station, the printer developed by CSU and Chongqing Institute of Green and Intelligent Technology (CIGIT) is able to manufacture larger objects (up to 220mm×140mm×150mm), and with multiple materials, including fiber reinforced composites.

The research is sponsored by CAS and China Manned Space Program. This flight opportunity was granted by DLR under international cooperation framework between CSU and DLR, and Novespace provided technical.

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Top maker of missiles seeks to tap intl market for rockets
By Zhao Lei (China Daily) 09:19, March 12, 2016

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A Long March-2D carrier rocket carrying the "Jilin-1" satellites blasts off from the launch pad at the Jiuquan Satellite Launch Center in northwest China's Gansu province, Oct 7, 2015. [Photo/Xinhua]

China's largest missile manufacturer plans to use its solid-fuel rockets to tap into the international commercial launch market, said a senior rocket designer.

Hu Shengyun, who heads solid-fuel rocket development at the Fourth Academy of China Aerospace Science and Industry Corp, said his company is considering founding a company dedicated to providing commercial launches for domestic and international clients.

Hu, also a national lawmaker, said the new company would break the monopoly by China Great Wall Industry Corp, which is currently the nation's only authorized provider of commercial launch service.

China Aerospace Science and Industry Corp began to develop Kuaizhou solid-fuel rockets in 2009, intending to form a low-cost, quick-response rocket family for the commercial launch market.

China has launched 53 Long March rockets to carry 61 satellites into space for 24 foreign clients.

"There are at least 50 domestic institutes and companies involved in the development of small and miniaturized satellites, but they have to wait a long time to have them launched," the scientist said. "This is because State-funded satellites always have priority in launch scheduling. Moreover, many small developers can't afford the high expenditure," he told China Daily.

Globally, many space companies are seeking reliable, low-cost launch vehicles to lift their small satellites, and this represents a huge business opportunity for Kuaizhou rockets.

The first flight of a Kuaizhou rocket took place in September 2013, when the company launched the Kuaizhou 1 at the Jiuquan Satellite Launch Center in northwest China to put an Earth observation satellite into orbit. In November 2014, the Kuaizhou 2 sent another satellite into space from the same launch center.

Currently, the Fourth Academy is making the Kuaizhou 11 and plans to launch it around 2017, according to Hu.

Compared with Kuaizhou 1 and Kuaizhou 2, the Kuaizhou 11 will have a larger diameter and stronger capacity. It will be able to place a 1-metric-ton payload into a sun-synchronous orbit at an altitude of 700 kilometers.

Prelaunch preparations will take very little time, and the launch can be conducted on rough terrain, Hu said.

"We estimate that by 2020, the market value of commercial space activities in China will reach 30 billion yuan ($4.6 billion) each year. We plan to produce up to 30 Kuaizhou solid-fuel rockets annually if our business goes well," the designer added.

The United States has converted its Minuteman and Peacekeeper intercontinental ballistic missiles into Minotaur solid-fuel rockets, using them to serve military and commercial purposes.

In addition, the Italian Space Agency and European Space Agency have developed the Vega solid-propellant system and have conducted six launches.
 
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China new space-tracking ship Yuanwang-7 completed first sea trial.

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