Chinese Aviation Industry

Deino

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vincent said:
Static test for C919 has begun

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2016-04-12 09:37 中国航空新闻网

中国航空新闻网讯:4月11日,C919大型客机静力试验机交付暨试验启动会在中航工业强度所上海分部成功举行,标志着C919大型客机静力试验正式启动。

中国商飞董事长金壮龙、总经理贺东风、副总经理吴光辉,中航工业副总经理李本正,以及中国商飞、中航工业、民航上海航空器适航审定中心有关部门、所属单位及强度所干部职工共计200余人参加了会议。

会上,中国商飞上飞院、上飞公司,强度所分别介绍了试验机的静力试验总体安排、试验机制造及全机静力试验的准备情况。上飞院、上飞公司,强度所现场签署了全机静力试验机交接书。

中国商飞董事长金壮龙、中航工业副总经理李本正、民航上海航空器适航审定中心主任顾新、中航工业基础院董事长孙侠生等共同为试验机交付揭幕。接着,中国商飞副总经理吴光辉宣读了全机强度试验现场联合指挥部成立文件。

随后,现场联合指挥部总指挥、强度所所长王彬文做了表态发言,他表示:全机静力试验现场联合指挥部将在项目行政指挥系统的统一部署和领导下,率领全体参试人员围绕一个中心,紧抓两条主线,贯彻三个一切,弘扬四种精神,凝心聚力、攻坚克难、确保完成各项试验任务,并着重做好三方面工作:一要深刻认识,高度重视,誓保首飞,为国争光;二要主动靠前、多线并行,确保试验准备工作高效推进;三要薪火传承、继往开来,确保首飞前试验按期完成。

会上,还向C919大型客机全机静力试验突击队和联合党支部党员攻关队进行了授旗。

中航工业副总经理李本正在讲话中对全机静力试验团队提出了三点要求,一是希望强度所干部职工要提高认识,进一步增强使命感和责任感;二要直面挑战,精心组织,狠抓落实,协同作战,及时解决试验中出现的问题,确保试验进度;三要牢固树立质量安全意识,严格执行各项质量标准,确保万无一失。

中国商飞公司总经理贺东风代表中国商飞讲话。他希望强度所与中国商飞要形成合力,相互支持,密切配合;所有参研单位要共同面对挑战,通力合作,在确保质量安全的前提下顺利完成试验任务,共同为确保C919飞机的按期首飞而努力。

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COMAC C919 - static test cell roll out - 1.jpg COMAC C919 - static test cell roll out - 2.jpg COMAC C919 - static test cell roll out - 3.jpg
 
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ahojunk

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C919_20160413001243.jpg
A C919 plane is ready for inspection in Shanghai. China’s first domestically developed narrow-body aircraft began a series of ground tests in preparation for its maiden flight.​

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14 April 2016 | Greg Waldron | Flightglobal | Shanghai

Comac is engaged in the second stage of software integration testing for its C919 narrowbody programme, while the first test aircraft awaits the installation of wiring.

The software integration work is taking place at the company’s campus on the outskirts of Shanghai, where an avionics test lab is located down the hallway from the C919 iron bird rig.

During a tour by Flightglobal, a company official explained that “first loop” integration has been completed. This saw avionics integrated with aircraft systems in the lab, with the software then loaded onto the iron bird rig.

The 21-strong avionics team, with assistance from foreign avionics suppliers, is now engaged in “second loop” integration, which will fix bugs and issues identified in the first loop integration. The second loop comprises all internal functions including displays, navigation, communications, flight management system, and others.

This second software load will also be ported to the iron bird. Here, the avionics and several aircraft systems such as fuel, landing gear, engines, hydraulics, and the auxiliary power unit are tested together. Including the iron bird integration, second loop testing is expected to finish in June or July.

Learnings from this will inform the “third loop” integration. The team foresees that the third loop will be somewhat less challenging as bugs will have been ironed out. This loop will also be ported to the iron bird rig, and then onto the first flight test aircraft itself, which is expected to have its maiden flight by the end of 2016.

After this, the avionics lab will be in a position to replicate issues that emerge during the flight test campaign, which will involve six aircraft.

The official adds that the C919’s initial software load will, in fact, be considerably more austere than those to be found on a prototype from Boeing or Airbus.

Flightglobal also inspected aircraft 101, the first flight test vehicle that sits in the company’s final assembly hall near Pudong International Airport. Following the roll-out in November 2015, large sections of the aircraft have been taken off.

The two CFM Leap-1C engines have been removed, as have all the control surfaces on the trailing edge of the wing. There are also no leading edge flaps mounted. The aircraft’s elevators, however, are mounted on the horizontal stabilisers.

While the landing gear is mounted, the landing gear doors have been removed. The aircraft is also supported by pneumatic jacks.

In the interior of the jet, there is no apparent wiring and there is a still a temporary wooden floor underfoot. All cabin doors and emergency exits have been removed.

In addition, the cockpit is devoid of any flight controls or instruments. A company official says these were in place for the roll-out, but subsequently taken out.

A key next step will be to install the wiring.

The official adds that installing the physical components of the jet is not likely to present a great challenge. The real challenge, he says, is getting the software integration right.
 

Daniel707

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COMAC C919 2.jpg
The Commercial Aircraft Corporation of China (COMAC) America Corporation is developing safer planes using big data and cloud technology.


Chinese Aircraft Manufacturer to Build Safer Planes Using Big Data, Cloud Technology

A Chinese aircraft manufacturer has come up with an idea on how to build safer airplanes using big data and cloud technology, amid global concerns on how to reduce safety risks caused by unusual human behavior and how to recover and analyze data from air crashes, the
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reported.

"The time for revolution in aviation safety has come," Wei Ye, executive director and president of the Commercial Aircraft Corporation of China (COMAC) America Corporation told Xinhua on Friday, March 25.

The announcement came as the Bureau of Enquiry and Analysis for Civil Aviation Safety of France recently confirmed that a co-pilot of the German budget airline Germanwings had been suffering from depression and deliberately caused the plane to
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a year ago.

The same is true in the case of Airbus 320, which crashed in southern France on March 24, 2015 while en route from Barcelona to Duesseldorf, and resulted in the death of 150 people on board, the report said.

Using a big data-based computer, COMAC America Corporation is studying the concept of "unmanned flight with human supervision" which operates without influence from outside in a closed environment, thereby minimizing the risks caused by human factors.

"Without the influence of pilots' emotions and mishandling, a computer-piloted plane is safer than a manned one," Ye said.

According to COMAC, planes of the future will be piloted by computers equipped with a hard-drive with big data that contains flight routes, weather information, and emergency processing programs, while the future "pilot" will depend on flight data of 200 pilots accumulated in 20 years. While the hard drive is inserted into the cockpit, human pilots can monitor the flight in a separate compartment.

The company said that the concept, which could become the future trend in civil aviation, might be tested on unmanned cargo flights first.

Meanwhile, research and development is being conducted by COMAC to improve an airline's ability to keep track of a flying plane since it is often difficult to determine the cause of a plane crash, locate the crash site and conduct a timely rescue if the plane's black box is missing.

The report cited the case of flight MH370, in which recently two pieces of debris, consistent with parts on a Malaysia Airlines Boeing 777, were reportedly found in Mozambique. However, the accident that happened two years ago could still be one of the most mystifying crashes in modern civil aviation history as the black box is still missing.

With the European Union announcement in Dec. 2015 on new requirements for closer tracking of an aircraft in the sky and improved traceability of the black box aboard, COMAC is developing "Harbinger," a comprehensive emergency recording and tracking system that it has started two years ago to complement the black box system.

The "Harbinger" would take away the flight data in the black box and record the last few minutes of the crash before it is ejected from the tail of a plane when it is about to crash. Shortly after the ejection, it will transmit data to a satellite and keep a backup of the data.

The company said that the "Harbinger" is equipped with a soft-landing system to protect itself on landing, whether on the sea or land, and send signals for people to locate it.

The report said that the patent for the project has been applied in both the U.S. and several other countries, while the company has manufactured parts for testing.

The company is also planning to develop new functions in rapid wireless data transmission by partnering with FTS Technologies Inc., a California-based Internet connectivity solution provider.

To enhance an aircraft's "self-awareness" of its life, experts at the company are reportedly studying "smart life health management" of aircraft, which will enable them to calculate the service life of the large-scale complex system of an airplane through a special algorithm to be able to obtain safety data of the system before take-off.

COMAC is also developing an online aviation consulting platform to connect global engineering resources, which it plans to launch in the second half of this year.

"This platform is expected to transform the traditional model of research, development and technical services," Ye said.

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ahojunk

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C919_1037953303.jpg
AP Photo.

20:03 13.04.2016

China has officially started ground tests of its first domestic C919 airliner.

The ground testing of the aircraft will demonstrate the aircraft's loading capacity, tension resistance and engine power, among other things.

During the trials the aircraft will be exposed to stress, testing for structural strength throughout the entire flight.

According to Xinhua, the C919 is expected to test for 13 different parameters. The tests will be carried out by experts from Shanghai.

The company did not give a time frame for the examinations, but said that once completed the C919 will embark on its first test flights with the aim of securing the necessary certification from the Civil Aviation Administration of China.

The C919 is a narrow-body twin-engine jet airliner with 158–174 seats to be built by the Commercial Aircraft Corporation of China. It will be the largest commercial airliner designed and built in China since the defunct Shanghai Y-10.

The project has the extensive involvement of foreign suppliers. It has been reported that COMAC has received an order for 517 airplanes from 21 customers already.
 

Deino

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Any idea, what this "new aircraft" could be ??

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某型试验机公路运输协调会召开

发布时间:2016-06-01


  近日,中航工业与公安部、交通运输部、国防科工局联合组织召开某型试验机公路运输协调会,会议由集团公司综合管理部主持。会议成立了由国防科工局牵头的指挥领导机构,建立了由中航工业牵头的组织协调机制,各省市公安和交通部门联合保障,确保某型试验飞机安全、顺利、保密地完成运输任务。
 

Air Force Brat

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Any idea, what this "new aircraft" could be ??

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Well it is obviously a flying boat, and will fulfill the same role as the bird being produced in the Sea of Japan! kool though, and it will be interesting to see just exactly what the Chinese do with it, but I would bet you a dollar to a donut that it will slide into the ASW role quite nicely??
 
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