Video: Feds investigate Southwest planes

updated 4/5/2011 8:39:40 PM ET 2011-04-06T00:39:40

Boeing engineers figured the joints holding the skin in place on their older 737 jetliners would begin to wear, but only as the planes neared retirement. They never expected it to happen in middle age.

Caught off guard when a piece of the fuselage on a Southwest Airlines jet peeled away as it flew over Arizona last week, they are rushing to create inspection and repair instructions for hundreds of similar planes in service worldwide.

Federal aviation officials issued an emergency order Tuesday that requires inspections of certain types of 737s.

Southwest, which operates nearly all of the U.S.-registered 737s requiring urgent inspections, inspected its planes and found five with the same types of cracks suspected of causing the 5-foot-long hole to open on Flight 812 last Friday.

Video: NTSB to order emergency inspections of 737s (on this page)

While those planes are being repaired, the rest are again heading into the skies.

The failure raised concerns about the adequacy of safety inspections that failed to catch the problem even though nearly two dozen other instances of metal fatigue were spotted during an inspection of the Southwest plane a year earlier.

And it also focused attention on the specific 737 model. That model was redesigned after similar joint problems caused a huge section of the roof of an Aloha Airlines jet to break off in 1988. A flight attendant was sucked out and fell to her death.

"We want to understand why we saw the extent of tearing on the aircraft and this size of a rupture so that we can prevent it from happening again," National Transportation Safety Board Chairman Deborah Hersman told reporters Tuesday.

Hersman added that the NTSB will also investigate how often inspections are done and whether the schedule is appropriate.

Story: Why no one was sucked out of Southwest jet

Caught by surprise
Boeing never expected failures in the riveted skin joints running along the top of the 737-300, 737-400 and 737-500 models until the planes were much older, said Paul Richter, Boeing's top engineer for older 737s.

Richter said Boeing also didn't anticipate the need to inspect for cracking on the redesigned lap joints — where two pieces of the fuselage skin overlap — until it had reached 60,000 pressurization cycles, the number of takeoffs and landings.

And it certainly didn't expect such a dramatic failure, he said.

The Southwest jet, which made an emergency landing in Yuma, Ariz., had about 39,000 cycles and was 15 years old. Pressurizing and depressurizing the cabin can weaken the aluminum skin and cause cracking.

"It's regrettable that we had to accelerate our plans to recommend inspections based on an event of this nature," Richter said during a conference call.

Boeing's "service bulletin" and the FAA order will require inspections after 30,000 cycles. The company has written repair plans for three of the five Southwest planes with cracks and is examining the rest.

The aircraft maker said 579 airplanes in all will eventually need the stepped-up inspections, though it did not give a breakdown about the numbers in use in the U.S. and overseas.

Boeing's service bulletin requires inspections within 20 days for all the planes in the fleet with more than 30,000 cycles. The FAA will require a repeat inspection every 500 flights, Richter said.

Story: Hundreds of suppliers, one Boeing 737 airplane

The FAA is requiring about 175 planes to be inspected at once, with nearly all of the 80 in the U.S. belonging to Southwest. Carriers in other nations will be covered by the order because of agreements those countries hold with the FAA.

Boeing started making the 300 model in 1993 and delivered the last of the "classic" series in 2000. The company's next generation 737 models now in production use an updated lap joint design.

Since there had been no previous accidents or major incidents involving metal fatigue in the middle part of the fuselage, Boeing maintenance procedures called only for a visual inspection, federal officials said.

Slideshow: Made in America: Boeing 737 (on this page)

'Sorry, that's not what the airplane did'
An aircraft expert said that's exactly why you do more thorough inspections — to find problems that engineers did not anticipate.

"The trouble is that what you anticipate and what actually happens are two different things," said Paul Czysz, professor emeritus of aeronautical engineering at St. Louis University. "You might have anticipated 60,000 hours, but sorry, that's not what the airplane did."

The only way to find the subsurface cracks or the ones hidden between the overlapping pieces of the fuselage would be to use an electromagnetic technology known as eddy current.

After the Aloha accident, it was discovered that the bonding material used in the lap joints of some earlier generations of airliners was particularly susceptible to stress, aviation safety consultant John Cox said.

However, a different type of bonding material used in newer planes like Southwest's is proven "to be very good," he said.

Since there are many lap joints in a single airliner, "if you tried to eddy current every lap joint on every plane, the amount of time and energy it would take would be literally staggering," Cox said.

The FAA is also required by law to weigh the cost of the safety procedures it tells airlines to follow against the possible safety benefits. If there is no evidence of a previous safety problem, it becomes more difficult to justify the cost.

"I don't think the public understands the bar that has to be cleared by regulatory agencies," said Bill Voss, president of the Flight Safety Foundation in Alexandria, Va., an aviation industry-funding organization that promotes safety.

Investigators said the tear along a lap joint on the Southwest jet came despite a recent inspection where the plane was taken apart so that inspectors could see into places not normally visible.

Warning signs missed?
They found 21 instances of cracked frames, which are part of the fuselage, or cracked stringer clips, which help hold pieces of aircraft skin together.

Earlier, NTSB investigators said they had found both cracks that were big enough to see with the naked eye but were hidden between overlapping pieces of metal. They said they had also found subsurface cracks.

That's a significant number and should have been a warning to Southwest's maintenance team that there might be more extensive cracking that wasn't detectable by a visible inspection alone, Voss said.

The plane "hasn't just had a lot of cycles, it has had cycles that have put some wear and tear on the structure," Voss said.

Voss compared the inspection process to removing a tumor. Surgeons should "always check around to see if there are any nodes inflamed or whatever else around it. Depending upon what they find, they can go a step further," Voss said.

Hersman noted that at 15 years, the Southwest plane had only reached what is considered midlife for an airliner.

"If we think something needs to be done, whether the aircraft is 15 years old or 50 years old, we will address it," she said.

Lowy reported from Washington. Associated Press writer David Koenig in Dallas contributed to this report.

© 2013 The Associated Press. All rights reserved. This material may not be published, broadcast, rewritten or redistributed.

Photos: Made in America: Boeing 737

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  1. A Boeing 737 fuselage rolls into Renton, Wash., on Monday, April 5, 2010. The fuselages are manufactured by Spirit Aerosystems in Wichita, Kansas. (Jim Seida / Back to slideshow navigation
  2. 737s move along the rolling production line. The rudder is the only part of the airplane that is painted before the plane makes its first test-flight as the balance of the rudder is critical to proper flight, and even the weight of a paint job is enough to put it out of balance. (Jim Seida / Back to slideshow navigation
  3. Brightly-colored tennis balls protect employees from sharp objects attached to the fuselage frame. (Jim Seida / Back to slideshow navigation
  4. Using a flashlight and a small mirror, a worker closely inspects the the fuselage of the aircraft before insulation and wiring is installed. Boeing employees inspect the fuselage this way three times. (Jim Seida / Back to slideshow navigation
  5. An employee installs some of the 36 miles of wires into a 737. A 737 contains 367,000 parts. (Jim Seida / Back to slideshow navigation
  6. A 737 cockpit sits empty, awaiting seats and instruments. (Jim Seida / Back to slideshow navigation
  7. Equipment sits outside a 737 in production. The green color is a protective coating that keeps the aluminum from oxidizing. It is washed off with pressure washers before the aircraft is painted. (Jim Seida / Back to slideshow navigation
  8. Ready to be installed, bathrooms sit on the factory floor. (Jim Seida / Back to slideshow navigation
  9. Hundreds of seats sit in front of the assembly line of aircraft that crawl along behind them at the rate of two inches per minute on their rolling production line. The production time of a 737 was cut in half in part by Boeing switching from building the planes in stationary positions to the assembly line in 2000. (Jim Seida / Back to slideshow navigation
  10. In the engine shop the exhaust ducts are installed and the engines go through final inspection before being hung beneath the aircraft's wings. (Jim Seida / Back to slideshow navigation
  11. Machinists prepare an engine for installation. The engines make up one-third of the cost of the 60 million dollar aircraft. (Jim Seida / Back to slideshow navigation
  12. Only 11 days after entering the other end of the factory as a bare fuselage, a finished 737 is readied to head to the flight line. Boeing produces 737s at the rate of 1.5 planes each workday. (John Brecher / Back to slideshow navigation
  13. Before being painted, a brand-new 737 goes on a test-flight just outside the Renton 737 plant. There are so many 737s in service that, according to Boeing, one is taking off or landing every 2.2 seconds. (Jim Seida / Back to slideshow navigation
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