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China Civil Aviation Industry, Technology, Infrastructure: News & Discussions

C919 boasts global sourcing model
By Zhu Wenqian (China Daily) 08:19, June 13, 2017

FOREIGN201706130820000582070348900.jpg


A C919 aircraft undergoes checks in Shanghai after a test flight. [Photo/China Daily]

Editor's note: In the run-up to the 19th National Congress of the Communist Party of China, China Daily will cover a series of key projects and advanced equipment of national importance, showcasing the country's huge improvements and relentless efforts in manufacturing upgrading and innovation.

The C919 aircraft, China's first homegrown large passenger jet, boasts a global sourcing model that is similar to that of Boeing Co and Airbus Group SE. The model is believed to increase production efficiency and save costs, but aircraft manufacturers retain control of key technologies.

The C919 plane also has several significant technical breakthroughs. Intense research and development was conducted before production, and it uses a large amount of composite materials.

For instance, 85 percent of its tail section is made from composite materials, according to Commercial Aircraft Corp of China Ltd, manufacturer of the C919. In China, the technology to apply composite materials is still in its infancy, and the application requires mould manufacturing, temperature control and other techniques.

Harbin Hafei Industry Co Ltd, an aviation manufacturer in Harbin, Heilongjiang province, is mainly responsible for the manufacturing of some parts that mainly use composite materials, including the hatch door for the front landing gear and the main landing gear, as well as the vertical tail of the C919.

Li Wei, deputy chief engineer of the C919 project at Hafei, said: "We cooperated with Boeing, Airbus and Embraer before. The design capabilities, quality system, and the supplier management capability of COMAC are in line with international standards, when compared with established aircraft manufacturers."

With more than 100,000 components required for the plane, more than 240 local Chinese companies have served as suppliers and manufacturers for the C919. More than 460,000 people have been involved in its research and development, and 37 higher education institutions joined the C919 project, COMAC said.

Once the C919 plane starts mass production and delivery, it is expected to drive the rapid growth of the upstream and downstream industry chains and other high-end manufacturing sectors, such as metal materials, mechanical manufacturing, electronic information and chemistry.

Wu Xingshi, a member of the State Council's large passenger aircraft program's expert advisory committee, said the C919 model has applied for airworthiness certificates with the industry's regulator, the Civil Aviation Administration of China, as well as the Europe Aviation Safety Agency, and China aims to accelerate the approval process for the C919.

"For the ARJ21, the nation's first domestic commercial regional aircraft, it took about six to seven years of test flights before it received the airworthiness certificate, which was the longest period for commercial aircraft in history," he said.

"The ARJ21 serves as a pioneer in China, and the test flight process of the C919 should be faster and more smoothly, until it proves that it can meet the operational requirements for commercial use."

Lin Zhijie, an aviation industry analyst and columnist at Carnoc.com, one of China's largest civil aviation web portals, said China serves as the initiator and host of the C919 project.

He said China is responsible for the original design, assembly and supplier management, and those responsibilities are seen as the key parts of large commercial aircraft manufacturing.

"The capability of producing large commercial aircraft is a critical index to assess the industrial manufacturing and technological strengths of a country," Lin said.

"We don't need to label the C919 as 100 percent made-in-China. Our aim is to integrate the most advantageous resources and latest technologies, and produce aircraft that will be competitive in the global market."

Despite the promising prospects, Lin said the C919's entry to the market won't occur very soon. It is expected to go into operation between 2020 and 2022, and it ultimately aims to break the global market duopoly of Boeing and Airbus.

Boeing Co earlier lifted its forecast for China. It said in the next two decades, the nation is likely to become the first country with an aviation market exceeding $1 trillion. During that period, Chinese airlines are estimated to purchase 6,810 airplanes valued at $1.025 trillion.
 
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C919 plane lands 30 more orders

2017-06-14 09:06

China Daily Editor: Feng Shuang

U669P886T1D261367F12DT20170614090640.jpg

Workers inspect the engine of the C919 after its test taxing two days before its maiden flight at Shanghai Pudong International Airport on Friday. (Photo/China Daily)

The C919, China's first homegrown large passenger plane, on Tuesday netted another 30 orders from Everbright Financial Leasing Co Ltd, a subsidiary of China Everbright Bank Co Ltd, lifting its total orders to 600.

On Tuesday, the Commercial Aircraft Corp of China Ltd, the manufacturer of the C919, signed an agreement with Everbright Financial Leasing in Beijing. So far, the C919 has received orders from 24 Chinese and overseas clients, and China Eastern Airlines will be the first to take the delivery.

Zhang Jinliang, president of China Everbright Bank Co Ltd, said the research and development of large commercial aircraft in China is a critical move to meet the surging demand for domestic and international civil aviation transportation.

"Everbright Financial Leasing has been paying close attention to the research and development of the C919 aircraft. Its successful maiden flight on May 5 has been a milestone in the history of China's aviation industry," Zhang said.

"We will support the development of homegrown commercial aircraft, and contribute to the growth of domestic aircraft manufacturing," he added.

"In the future, we plan to launch further and deeper cooperation with COMAC."

COMAC Chief Accountant Tian Min said his company had received the trust and support from Everbright Financial Leasing and others since the initial development of the C919.

Founded in 2010, Everbright Financial Leasing is registered in Wuhan, Hubei province. Its parent, China Everbright Bank Co Ltd, holds 90 percent of the company's shares.

Lin Zhijie, an aviation industry analyst and columnist at Carnoc.com, one of China's largest civil aviation web portals, said the C919's entry into the world's aviation market won't take place for a while.

http://www.ecns.cn/business/2017/06-14/261367.shtml
 
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C919 plane lands 30 more orders

2017-06-14 09:06

China Daily Editor: Feng Shuang

U669P886T1D261367F12DT20170614090640.jpg

Workers inspect the engine of the C919 after its test taxing two days before its maiden flight at Shanghai Pudong International Airport on Friday. (Photo/China Daily)

The C919, China's first homegrown large passenger plane, on Tuesday netted another 30 orders from Everbright Financial Leasing Co Ltd, a subsidiary of China Everbright Bank Co Ltd, lifting its total orders to 600.

On Tuesday, the Commercial Aircraft Corp of China Ltd, the manufacturer of the C919, signed an agreement with Everbright Financial Leasing in Beijing. So far, the C919 has received orders from 24 Chinese and overseas clients, and China Eastern Airlines will be the first to take the delivery.

Zhang Jinliang, president of China Everbright Bank Co Ltd, said the research and development of large commercial aircraft in China is a critical move to meet the surging demand for domestic and international civil aviation transportation.

"Everbright Financial Leasing has been paying close attention to the research and development of the C919 aircraft. Its successful maiden flight on May 5 has been a milestone in the history of China's aviation industry," Zhang said.

"We will support the development of homegrown commercial aircraft, and contribute to the growth of domestic aircraft manufacturing," he added.

"In the future, we plan to launch further and deeper cooperation with COMAC."

COMAC Chief Accountant Tian Min said his company had received the trust and support from Everbright Financial Leasing and others since the initial development of the C919.

Founded in 2010, Everbright Financial Leasing is registered in Wuhan, Hubei province. Its parent, China Everbright Bank Co Ltd, holds 90 percent of the company's shares.

Lin Zhijie, an aviation industry analyst and columnist at Carnoc.com, one of China's largest civil aviation web portals, said the C919's entry into the world's aviation market won't take place for a while.

http://www.ecns.cn/business/2017/06-14/261367.shtml

:enjoy::lol:

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@Beast , @Jlaw , @AndrewJin , @yusheng , @Shotgunner51
 
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has c919 received FAA clearance to fly to Europe and NA?

No. I think the first aim is to get the European clearance; which the Europeans agreed to speed up the procedure. I think, FAA clearance is to be sought after the European equivalent.
 
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No. I think the first aim is to get the European clearance; which the Europeans agreed to speed up the procedure. I think, FAA clearance is to be sought after the European equivalent.
to my understanding, if you can fly your airplane into EU airspace, it should be ok for North America or do they have another set of rules?
 
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to my understanding, if you can fly your airplane into EU airspace, it should be ok for North America or do they have another set of rules?

I am not sure. I read that certification from Europe would ease the certification process from the FAA. So, the two must be independent from each other. But, I would presume that FAA certification would mean global coverage.

@GS Zhou , @Han Patriot or @Shotgunner51 would have more authoritative information on this than me.
 
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to my understanding, if you can fly your airplane into EU airspace, it should be ok for North America or do they have another set of rules?

Actually not, if a type of plane is certified by EASA means it can be operated between airport inside EU, same thing applied with FAA. Good case is EASA certified SSJ 100, which can not be flown from one to another airport inside US.

It is not necessary for SSJ 100 to be certified by FAA to fly to US airport from one of Mexican airport as Interjet has been doing it for years.

View attachment 403848
View attachment 403849
View attachment 403850
上海飞机制造厂里壮观的制造现场,张海峰摄影
Pictures from Chinese media today, showing 5 ARJ-21 being assembled in Shanghai.

This is good news, but do they have fixed issues about weight and cabin noise as being reported by some western media and informed by @Beast
 
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American and Chinese aircraft could be flying 4,000 miles per hour by 2030

How China and the United States compare in the hypersonic arms race

By Jeffrey Lin and P.W. Singer 8 hours ago

chinese_hypersonic_uav.jpg

THE FUTURE?
TRCC engines mean China could fly Mach 6 airplanes—like the one shown in this fan art—that could fly anywhere in the world in under three hours. It would mean speeds and altitudes not yet used by modern air defenses.
Grassroots (artist)

American and Chinese defense giants are moving quickly to reach the edge of space, aiming to launch hypersonic aircraft that can cross continents in under an hour. What exactly does hypersonic mean? Speeds of over Mach 5, or more than 3,835 miles per hour.

It's an arms race well worth watching. Developments have the potential to revolutionize access to space and transform transcontinental travel for civilians. It could also transform national security, making existing air and missile defenses obsolete.

sr-72.jpg

SR-72
With recent technological breakthroughs, Lockheed Martin hopes to fly the Mach 6 SR-72 unmanned hypersonic aircraft by 2030.
Lockheed Martin

China is home to two companies reaching for the hypersonic prize, the Chinese Aerospace Science and Technology Corporation (CASC) and the Chinese Aerospace Science and Industry Corporation (CASIC). Meanwhile, in America, Lockheed Martin is making waves, having told aviation journalists that its hypersonic technology is about ready for flight testing.

Lockheed Martin's progress almost certainly refers to the turbine rocket combined cycle (TRCC), an engine that switches between turbofan, ramjet and scramjets for subsonic, supersonic, and hypersonic flight. The TRCC engine will be tested on a fighter-sized flight testbed by 2020. If all goes well, it'll shortly thereafter power the SR-72, a Mach 6, unmanned twin-engine reconnaissance aircraft that is targeted to start flight by 2030. That aircraft is designed to enter highly contested and defended airspace at altitudes of 18 and 62 miles, using its speed to outrun enemy defenses, like the SR-71 Blackbird before it. Executive Vice President and General Manager at Lockheed Martin Rob Weiss also suggested that hypersonic planes could fire hypersonic missiles. That suggests that the SR-72 could join the B-21 stealth bomber in the USAF's future global strike arsenal.

xs-1_phantom_express.jpg

XS-1
The "Phantom Express" XS-1 is a DSTO space-launch vehicle, consisting of a rocket-powered launch plane and a second-stage rocket that will separate from the plane to launch 1.5 tons into low-earth orbit.
Boeing

Another key U.S. project is the "Phantom Express" XS-1 spaceplane, which is being developed by Boeing and funded by DARPA. It's a dual-stage-to-orbit (DSTO) vehicle. Stage one: a hypersonic plane powered by liquid fueled rockets. Once the XS-1 is in near space (18- to 62-mile altitude), we reach stage two, when an expendable rocket attached to the plane's back will detach and fly into orbit to deploy its 1.5-ton payload. The carrier rocket plane then will be able to return to a runway, where it will be prepped for another launch within 24 hours. The plan is that it can undertake at least 10 launches in 10 days, providing the U.S. space system more resilience to replace satellites in the event of a conflict.

teng_yun.jpg

TENG YUN
The Teng Yun, which CASIC intends to deliver by 2030, uses a TRCC-engined hypersonic carrier aircraft to carry the second rocket-powered stage into near space. Both stages will be reusable; the hypersonic carrier airframe could also be used to hypersonic strike and reconnaissance roles.
WeChat

China, however, is developing some major competition in this same hypersonic race. There are two separate projects. For one, CASIC debuted the Teng Yun spacecraft design during the Global Space Exploration 2017 (GLEX 2017) conference in Beijing. The DSTO Teng Yun would have a combined weight of 100-150 tons. The first stage is a Mach 6 hypersonic 'carrier' aircraft, with TRCC engines that can fly to altitudes of 18 to 25 miles. Unlike the XS-1, the Teng Yun's second stage is a reusable, 10-15-ton rocket-powered spaceplane capable of carrying either 2 tons of cargo or 5 passengers.

CASIC Vice President Liu Shiquan said that company has finished technology demonstration of key Teng Yun flight technology (like, you know the engine), and looks to have the two-stage space plane flying by 2030, as part of a $16 billion research effort.

teng_yun_2.jpg

MANNED AND UNMANNED
The Teng Yun's second stage can either be a launch rocket, or take five taikonauts to a future Chinese space station.
CASIC

Much like the U.S. systems, the CASIC hypersonic carrier could have other applications besides space launch. It's big enough to carry significant payloads (10-15 tons), which could include sensors and weapons. With modifications, like additional fuel tanks for increased range, its hypersonic speed and near-space flight altitude could fit with Chinese military needs for fast, global reconnaissance and strike. As CASIC manufactures most of China's missiles, its experience with rocket motors, ramjet engines (and future scramjet engines) means that it likely has the resources to build the complex TRCC engines for the hypersonic carrier, and by extension a hypersonic recon and strike plane.

chinese_hypersonic_spaceplane.jpg

CHINESE HYPERSONIC SPACEPLANE
The Chinese hypersonic spaceplane, with a combined cycle engine that hops between jet, scramjets, and rockets, promises to be the ultimate form in reusable and easy space travel. In theory, it could cross the Pacific Ocean in one hour. China hopes to have these fast birds in the sky (with people onboard!) by 2030.
CCTV 13

China's second innovation is CASC's hypersonic spaceplane, which was announced in August 2016. Its engine and other critical technology are slated for completion by 2020, and a full-scale hypersonic spaceplane is expected to fly by 2030.

trre_hypersonic.jpg

TRRE
The turbo-aided rocket-augmented ram/scramjet engine (TRRE), which uses rocket augmentation in order to aid in the transition into the supersonic and hypersonic flight regimes, could be the world's first combined cycle engine to fly in 2025, paving the way for hypersonic near space planes and single-stage space launchers.
Beijing Power Machinery Research Institute

CASC's ambitions match the projected timeline for the rocket-assisted scramjet being built by the Beijing Power Machinery Research Institute for near space strike and reconnaissance, as well as dual- and single-stage-to-orbit (SSTO) vehicles. BPMRI will commence full-scale testing of the technology demonstrator in 2020, followed by the flight of a full scale afterward. Further improvements will lead to a scramjet engine powerful enough for an SSTO hypersonic plane to fly directly to orbit in one piece, as opposed to the DSTO model, where only part of the spacecraft makes it to orbit. Compared to the smaller and cheaper DSTO, a sufficiently fueled SSTO spaceplane could depart from and reenter orbit on multiple occasions during the same flight, traveling at greater speed compared to a near-space-only hypersonic aircraft.

calt_rlv_roadmap.jpg

THREE PHASES OF REUSABILITY
CASC's DSTO program has three planned stages: (1) a reusable carrier rocket plane, (2) both a reusable rocket plane and second stage, and (3) a TRCC hypersonic carrier aircraft.
CASC via xyz

CASC also has more conservative plans for its own DSTO program. Its GLEX 2017 presentation showed a three-phase DSTO approach. The first phase involves a reuseable hypersonic rocket plane with an expendable upper stage rocket. In September 2016, CASC had also announced plans for a vertical-takeoff, rocket-powered spaceplane known as the Scaled Suborbital Vehicle. This Mach 8, 20-passenger, 100-ton rocket plane can reach an altitude of 81 miles and carry a second-stage rocket with a 2-ton payload. It is likely that Phase 1 of the CASC DSTO is the Scaled Suborbital Vehicle.

china_suborbital_spaceplane.jpg

STATS AND MORE STATS
Among the pitch CALT made to the International Aerospace Congress: a very low launch cost for small payloads, at under $4,000 per kilogram.
xyz at China Defense Forum

The second phase, similar to the Teng Yun, makes rocket-powered aircraft reusable. The upper stage, shaped like the Shenlong robotic spacecraft, returns by landing on a runway.

The third final phase of the CASC DSTO proposal shows that the first stage, like Teng Yun, will be powered by TRCC engines. Like the Teng Yun, the hypersonic carrier developed in third phase will likely be capable of extended near-space hypersonic operations.

http://www.popsci.com/hypersonic-arms-race-china-united-states#page-8
 
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New airport planned in Xinjiang

2017-06-18 12:06

Xinhua Editor: Yao Lan

A regional airport will soon be built in Yutian, a remote county in northwest China's Xinjiang Uygur Autonomous Region, authorities said Saturday.

The 710-million yuan (104 million U.S. dollars) civil airport is designed to handle an annual throughput of 180,000 passengers and 400 tonnes of cargo. Annual take-offs and landings will total 2,143, the regional development and reform commission said in a press release.

The airport will have a 3,200-meter runway, a 3,000-square-meter terminal building, four aprons, and facilities for air traffic control and power, water, heat and fuel supplies.

Construction of the airport has been approved by the National Development and Reform Commission and the Civil Aviation Administration of China.

Yutian county, on the southern edge of the Taklimakan Desert, is a major stopping off point on the ancient Silk Road. Today, the county covers 39,500 square kilometers and has 277,400 permanent residents.

The county is 1,300 km from the regional capital Urumqi. The nearest airport, in Hotan City, is nearly 200 km away.

Yutian airport is one of 10 new airports to be built in Xinjiang by 2020. Six older airports will also be renovated and expanded.

Xinjiang presently has 18 civil aviation airports, the most among 31 provinces, autonomous regions and municipalities on the Chinese mainland. But airport density is still low in Xinjiang, which covers about one sixth of the Chinese territory.

http://www.ecns.cn/2017/06-18/261903.shtml
 
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C929 may change Chinese aircraft market balance
Xinhua, June 21, 2017

The wide-body passenger jet C929, to be jointly developed by China and Russia, is "absolutely possible" to change the market balance in the Chinese aircraft market, said the Russian Airlines Aeroflot's Deputy CEO Giorgio Callegari Tuesday in Paris.

In an interview with Xinhua during the 52nd International Paris Air Show, he said that the project C929 can combine the expertise from Russia and the efficiency of Chinese manufacturers in the aircraft industry, but the change possibly made by C929 is "a long term vision", considering the complexity of aircraft production.

According to him, C929 would be brought into consideration by airline operators if this jet can satisfy the key factors as punctual delivery, competitive products and complete service to support products.

In May this year, the state-owned Commercial Aircraft Corporation of China (COMAC) has announced that it has set up with its Russian partner United Aircraft Corp (UAC), a joint venture to build C929, 280-seat jets with a range of 12,000 kilometers, in the latest attempt to break into the lucrative market long dominated by aircraft giants, Boeing and Airbus.

The Paris Air Show kicked off on Monday and will end on June 25.

http://china.org.cn/business/2017-06/21/content_41069057.htm
 
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Model of C929 displayed in France

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Photo taken on June 21, 2017 shows the model of China-Russia long range wide-body commercial aircraft displayed in Bourget, France. The interior layout of the commercial aircraft's cabin is revealed for the first time at the 52nd International Paris Air and Space Show. (Xinhua/Chen Yichen)

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http://en.people.cn/n3/2017/0623/c90000-9232553-6.html
 
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View attachment 403848
View attachment 403849
View attachment 403850
上海飞机制造厂里壮观的制造现场,张海峰摄影
Pictures from Chinese media today, showing 5 ARJ-21 being assembled in Shanghai.

Excellent
ARJ-21 is going well and very much alive
Our pool of assembly/aviation technicians and engineers are stretching extremely thin at the moment I bet; since there are so many encouraging space/aviation projects in the pipeline

Actually not, if a type of plane is certified by EASA means it can be operated between airport inside EU, same thing applied with FAA. Good case is EASA certified SSJ 100, which can not be flown from one to another airport inside US.

It is not necessary for SSJ 100 to be certified by FAA to fly to US airport from one of Mexican airport as Interjet has been doing it for years.

I thought EASA and FAA are independent certifying agencies; that you need the approval of both agencies to fly and land within their territories


This is good news, but do they have fixed issues about weight and cabin noise as being reported by some western media and informed by @Beast

I dont know what information that @Beast has obtained

But if ARJ-21 is actively fulfilling their backlog orders, that is a pretty good indication they wont give up on improving the quality of the product

Just a very casual search on the internet, this paper is found:

Issue 7 - June 2014 - An Overview of Aircraft Noise Reduction Technologies
http://www.aerospacelab-journal.org/sites/www.aerospacelab-journal.org/files/AL07-01_0.pdf

There are multiple ways to achieve lowering the noise levels as mentioned in the paper and beyond Also in respect of the weight of ARJ-21, the immediate response for a solution is to use lighter materials without compromising the strength and structural integrity of the -plane

As long as the project is receiving orders and gaining support from COMAC, improvement to the quality should be forthcoming

images


American and Chinese aircraft could be flying 4,000 miles per hour by 2030

How China and the United States compare in the hypersonic arms race

By Jeffrey Lin and P.W. Singer 8 hours ago

chinese_hypersonic_uav.jpg

THE FUTURE?
TRCC engines mean China could fly Mach 6 airplanes—like the one shown in this fan art—that could fly anywhere in the world in under three hours. It would mean speeds and altitudes not yet used by modern air defenses.
Grassroots (artist)

American and Chinese defense giants are moving quickly to reach the edge of space, aiming to launch hypersonic aircraft that can cross continents in under an hour. What exactly does hypersonic mean? Speeds of over Mach 5, or more than 3,835 miles per hour.

It's an arms race well worth watching. Developments have the potential to revolutionize access to space and transform transcontinental travel for civilians. It could also transform national security, making existing air and missile defenses obsolete.

sr-72.jpg

SR-72
With recent technological breakthroughs, Lockheed Martin hopes to fly the Mach 6 SR-72 unmanned hypersonic aircraft by 2030.
Lockheed Martin

China is home to two companies reaching for the hypersonic prize, the Chinese Aerospace Science and Technology Corporation (CASC) and the Chinese Aerospace Science and Industry Corporation (CASIC). Meanwhile, in America, Lockheed Martin is making waves, having told aviation journalists that its hypersonic technology is about ready for flight testing.

Lockheed Martin's progress almost certainly refers to the turbine rocket combined cycle (TRCC), an engine that switches between turbofan, ramjet and scramjets for subsonic, supersonic, and hypersonic flight. The TRCC engine will be tested on a fighter-sized flight testbed by 2020. If all goes well, it'll shortly thereafter power the SR-72, a Mach 6, unmanned twin-engine reconnaissance aircraft that is targeted to start flight by 2030. That aircraft is designed to enter highly contested and defended airspace at altitudes of 18 and 62 miles, using its speed to outrun enemy defenses, like the SR-71 Blackbird before it. Executive Vice President and General Manager at Lockheed Martin Rob Weiss also suggested that hypersonic planes could fire hypersonic missiles. That suggests that the SR-72 could join the B-21 stealth bomber in the USAF's future global strike arsenal.

xs-1_phantom_express.jpg

XS-1
The "Phantom Express" XS-1 is a DSTO space-launch vehicle, consisting of a rocket-powered launch plane and a second-stage rocket that will separate from the plane to launch 1.5 tons into low-earth orbit.
Boeing

Another key U.S. project is the "Phantom Express" XS-1 spaceplane, which is being developed by Boeing and funded by DARPA. It's a dual-stage-to-orbit (DSTO) vehicle. Stage one: a hypersonic plane powered by liquid fueled rockets. Once the XS-1 is in near space (18- to 62-mile altitude), we reach stage two, when an expendable rocket attached to the plane's back will detach and fly into orbit to deploy its 1.5-ton payload. The carrier rocket plane then will be able to return to a runway, where it will be prepped for another launch within 24 hours. The plan is that it can undertake at least 10 launches in 10 days, providing the U.S. space system more resilience to replace satellites in the event of a conflict.

teng_yun.jpg

TENG YUN
The Teng Yun, which CASIC intends to deliver by 2030, uses a TRCC-engined hypersonic carrier aircraft to carry the second rocket-powered stage into near space. Both stages will be reusable; the hypersonic carrier airframe could also be used to hypersonic strike and reconnaissance roles.
WeChat

China, however, is developing some major competition in this same hypersonic race. There are two separate projects. For one, CASIC debuted the Teng Yun spacecraft design during the Global Space Exploration 2017 (GLEX 2017) conference in Beijing. The DSTO Teng Yun would have a combined weight of 100-150 tons. The first stage is a Mach 6 hypersonic 'carrier' aircraft, with TRCC engines that can fly to altitudes of 18 to 25 miles. Unlike the XS-1, the Teng Yun's second stage is a reusable, 10-15-ton rocket-powered spaceplane capable of carrying either 2 tons of cargo or 5 passengers.

CASIC Vice President Liu Shiquan said that company has finished technology demonstration of key Teng Yun flight technology (like, you know the engine), and looks to have the two-stage space plane flying by 2030, as part of a $16 billion research effort.

teng_yun_2.jpg

MANNED AND UNMANNED
The Teng Yun's second stage can either be a launch rocket, or take five taikonauts to a future Chinese space station.
CASIC

Much like the U.S. systems, the CASIC hypersonic carrier could have other applications besides space launch. It's big enough to carry significant payloads (10-15 tons), which could include sensors and weapons. With modifications, like additional fuel tanks for increased range, its hypersonic speed and near-space flight altitude could fit with Chinese military needs for fast, global reconnaissance and strike. As CASIC manufactures most of China's missiles, its experience with rocket motors, ramjet engines (and future scramjet engines) means that it likely has the resources to build the complex TRCC engines for the hypersonic carrier, and by extension a hypersonic recon and strike plane.

chinese_hypersonic_spaceplane.jpg

CHINESE HYPERSONIC SPACEPLANE
The Chinese hypersonic spaceplane, with a combined cycle engine that hops between jet, scramjets, and rockets, promises to be the ultimate form in reusable and easy space travel. In theory, it could cross the Pacific Ocean in one hour. China hopes to have these fast birds in the sky (with people onboard!) by 2030.
CCTV 13

China's second innovation is CASC's hypersonic spaceplane, which was announced in August 2016. Its engine and other critical technology are slated for completion by 2020, and a full-scale hypersonic spaceplane is expected to fly by 2030.

trre_hypersonic.jpg

TRRE
The turbo-aided rocket-augmented ram/scramjet engine (TRRE), which uses rocket augmentation in order to aid in the transition into the supersonic and hypersonic flight regimes, could be the world's first combined cycle engine to fly in 2025, paving the way for hypersonic near space planes and single-stage space launchers.
Beijing Power Machinery Research Institute

CASC's ambitions match the projected timeline for the rocket-assisted scramjet being built by the Beijing Power Machinery Research Institute for near space strike and reconnaissance, as well as dual- and single-stage-to-orbit (SSTO) vehicles. BPMRI will commence full-scale testing of the technology demonstrator in 2020, followed by the flight of a full scale afterward. Further improvements will lead to a scramjet engine powerful enough for an SSTO hypersonic plane to fly directly to orbit in one piece, as opposed to the DSTO model, where only part of the spacecraft makes it to orbit. Compared to the smaller and cheaper DSTO, a sufficiently fueled SSTO spaceplane could depart from and reenter orbit on multiple occasions during the same flight, traveling at greater speed compared to a near-space-only hypersonic aircraft.

calt_rlv_roadmap.jpg

THREE PHASES OF REUSABILITY
CASC's DSTO program has three planned stages: (1) a reusable carrier rocket plane, (2) both a reusable rocket plane and second stage, and (3) a TRCC hypersonic carrier aircraft.
CASC via xyz

CASC also has more conservative plans for its own DSTO program. Its GLEX 2017 presentation showed a three-phase DSTO approach. The first phase involves a reuseable hypersonic rocket plane with an expendable upper stage rocket. In September 2016, CASC had also announced plans for a vertical-takeoff, rocket-powered spaceplane known as the Scaled Suborbital Vehicle. This Mach 8, 20-passenger, 100-ton rocket plane can reach an altitude of 81 miles and carry a second-stage rocket with a 2-ton payload. It is likely that Phase 1 of the CASC DSTO is the Scaled Suborbital Vehicle.

china_suborbital_spaceplane.jpg

STATS AND MORE STATS
Among the pitch CALT made to the International Aerospace Congress: a very low launch cost for small payloads, at under $4,000 per kilogram.
xyz at China Defense Forum

The second phase, similar to the Teng Yun, makes rocket-powered aircraft reusable. The upper stage, shaped like the Shenlong robotic spacecraft, returns by landing on a runway.

The third final phase of the CASC DSTO proposal shows that the first stage, like Teng Yun, will be powered by TRCC engines. Like the Teng Yun, the hypersonic carrier developed in third phase will likely be capable of extended near-space hypersonic operations.

http://www.popsci.com/hypersonic-arms-race-china-united-states#page-8

Looks beautiful as always
Again for similar daring projects, I guess only 1 to 2 other countries in the world are doing that
 
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China rises in global aviation supply chain
By Tu Lei in Harbin Source:Global Times Published: 2017/6/27 22:43:39

Airbus JV reaches milestone in manufacturing of aircraft parts

ebc0dd19-c3a4-4b46-94ee-f8c67b6a2ab6.jpeg
An employee works on the A320 rudder assembly line of the Harbin Hafei Airbus Composite Manufacturing Centre in Harbin, Northeast China's Heilongjiang Province on Tuesday. Photo: Tu Lei/GT

A joint venture (JV) between Airbus and its Chinese partners reached a milestone on Tuesday as it delivered the 1,000th rudder to be used on Airbus A320 aircraft, a development that is being hailed as key step in the Chinese aviation industry's globalization.

Since being established in 2009, the JV - Harbin Hafei Airbus Composite Manufacturing Centre (HMC) in Harbin, Northeast China's Heilongjiang Province - has become the sole global supplier of rudders for the A320 family of aircraft.

After completion, the rudders are usually shipped to Stade, Germany, where they are fixed to the A320 family vertical stabilizers.

The stabilizers are then delivered to assembly lines around the world.

In a ceremony marking the achievement on Tuesday in Harbin, officials from both Airbus and its Chinese partners, including Harbin Aircraft Industry Group Corp and Hafei Aviation Industry Co, hailed the partnership and vowed to expand their cooperation.

"The deliveries have played a solid foundation for the cooperation," Cao Shengli, general manager of AVIC Harbin Aircraft Industry Group Co, said at the ceremony. Cao said that HMC could be a model in supporting the "China Made 2025" strategy and "Belt and Road" initiative.

"The delivery is a milestone for the manufacturing center and for our long-term partnership with the Chinese aviation industry," Airbus Commercial Aircraft China Chief Operating Officer Francois Mery said at the ceremony.

Airbus holds 29 percent of the JV, which aims to manufacture composite materials, parts and components for the A350 XWB program and A320 family aircraft, as part of Airbus' target of making 5 percent of the A350 XWB airframe in China.

Monthly production capacity for the A320 rudder is 48 units. Capacity is six units for the A350XWB per month, the company said.

Experts said that the partnership has proven the progress China's aviation industry has made over the years.

"The delivery of the 1,000th rudder shows that China has achieved an increasingly important position in the global aviation industry's outsourcing, and there are more Chinese elements in the planes after years of development," Lin Zhijie, an independent market watcher, told the Global Times on Tuesday.

Cooperation between Airbus and its Chinese suppliers began in 1985.

In the Airbus 320, Chinese suppliers can produce components including wing leading edges, wing intermediate ribs, cargo door frames and rear passenger doors. In the Airbus 350XWB, components including belly-fairing panels, rudders and elevators can be designed and manufactured in China as well.

Airbus said that the total value of its industrial cooperation with the Chinese aviation industry reached $140 million in 2009 and jumped to about $500 million in 2015.

Airbus is not alone.

Boeing Co said that its activity in China contributes $800 million to $1 billion annually in direct support of China's economy, including procurement from the extensive supply base, joint venture revenues, operations, training, and research and development investment.

Boeing has worked with more than 35 major Chinese companies as direct contractors in production and also with hundreds of Chinese subcontractors.

China builds horizontal stabilizers, vertical fins, the aft tail section, doors, wing panels, wire harnesses and other parts on the Next-Generation 737.

China also produces the rudder for the 737 MAX, a more fuel-efficient version of the best-selling 737 Classic. China contributes trailing edge wing ribs, horizontal stabilizers, vertical fins, ailerons, spoilers and inboard flaps for the 747-8.

In addition, China has an important role on the 787 building the rudder, wing-to-body fairing panels, leading edges and panels for the vertical fin, and other composite parts.

However, Lin said that the Chinese aviation industry should not just be limited to the role of a supplier in global aviation manufacturing.

The main reason that manufacturers outsource components is not merely technological ability, it is mainly due to cost savings, according to Lin.

It is important for the suppliers to get involved in the production chains, but it is more important to have the ability to independently develop the key parts such as engines. It is positive for domestic aircraft such as the C919, and it is also good for the improvement of the country's aviation industry, Lin added.
 
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