Prayer and a wing: A preproduction Boeing 787 was unveiled last year, but parts of its wing box (above)--the major structure of each wing--buckled in stress tests. The structure, made of composite materials, measures more than 15 meters by 5 meters and weighs 55,000 pounds, including testing hardware and instruments. The company is stiffening this version as it tweaks the design of future wing boxes.
Boeing
Structural weakness forces Boeing to retrofit the 787 Dreamliner.
Boeing says that its 787 Dreamliner--a midsize, fuel-efficient passenger jet that is currently in development--will be the first commercial aircraft in which major structural elements are made of composite materials rather than aluminum alloys. The changes are expected to slash component weights 20 percent, significantly boosting fuel efficiency.
Such composite materials--layers of superstrong carbon fibers and epoxy--have long been used in military jets, where money is rarely an object, and in commercial jets for parts like luggage-rack frames. But Boeing is learning how hard composites can be to analyze effectively and build economically for commercial jet structures. The company has had to delay the 787's introduction because elements of the composite-made wing box--the major structure inside each wing--buckled in stress tests.
The wing box begins in roughly the middle of the plane and extends about two-thirds of the wingspan. This key component--more than 15 meters long and 5 meters wide--was designed and built by Boeing together with Mitsubishi Heavy Industries and Fuji Heavy Industries, in Japan. Pat Shanahan, vice president for the 787 program, said in a conference call last week that structural testing had "identified the need to stiffen elements within the center wing box."
The fix requires adding new brackets and other parts to wing boxes already built, as well as modifying the design of boxes not yet built. The retrofits of existing boxes will intrude into wiring pathways, compounding the problems. So Boeing is pushing back the 787's delivery date about six months, from the first quarter to the third quarter of 2009.
The issue with composites isn't that they aren't strong; it's that they are so internally complex. They consist of layers oriented in different directions; those layers, in turn, are made of individual fibers that may vary somewhat in composition. This makes it difficult for engineers to accurately mimic their performance in computer models for premanufacture testing.
"Composite materials are more difficult to analyze than simple homogenous metals," says John Hansman, director of the International Center for Air Transportation, at MIT. "You generally don't model every fiber in the structure, so you come up with models that have simplifications."
A unique shape made possible by composites helps cut fuel consumption while allowing faster speeds.
Building the planes is easy. Making them autonomous, and constructing airborne communications networks, is not.
The most powerful jet engine ever may help Boeing beat back European rival Airbus.
A lot of military jets are falling apart in the air due to this stupid gluing business, but the fighter pilots can eject and parachute. The airliner passengers won't be so lucky.
Stay away from this airplane for the next 3-5 years, until they fix the bugs in it. It's like Windows Vista, except a crash has a different meaning.
Re: Let other people fly on it
What do you mean, stay away for the next 3-5 years? The Dehavilland Comet started flying in '51, the first crash attributed to the square window panels occured in '54, 3 years. Seems to me, the first 3-5 years are pretty safe, not yet enough time to develop stress fractures.
Let's hope everyone involved (manufacturer, airlines, FAA) starts on a regular inspection program to see how the materials age, through time and regular use.
...Dan
Re: Let other people fly on it
Thanks Dan, I fully agree with your posting.
For more information on an integrated approach to real life composite behaviour (mechanical stress including hygrothermal ageing conditions) the following web forums have been quite useful to me:
-integrated forum on composite properties
-diffusion and corrosion properties of composites
Regards,
Rodney
Manufacturing in the United States is in trouble. That's bad news not just for the country's economy but for the future of innovation.
This document is part of the “How-To Guide for Most Common Measurements” centralized resource portal. This tutorial provides a detailed guide for measurement and device considerations to take temperature measurements using thermocouples. Get an introduction to thermocouples, which are inexpensive sensing devices widely used with PC-based data acquisition systems. Also review some specific thermocouple examples and learn how thermocouples work and ways to integrate them into a data acquisition measurement system.
View full PDF >
Listen to story > 
Our list of the 50 most innovative companies, including the following:
On Twitter
Become a Fan on Facebook
Subscribe to the Feed
lasertekk
146 Comments
History repeats itself
Oh boy, memories of the DeHavilland Comet....
Reply
mbloore
39 Comments
Re: History repeats itself
except that this time, we know to look for problems first.
which is not to say that we know every place to look.
Reply
Shiladie
56 Comments
Re: History repeats itself
It's the problem with any new techsnologies, you always have the failed tests. We just need to make sure they are tested completely before being used...
Reply