"Hi, my name is Broomstick and I'm a disaster groupie."
:::group chorus::: "Welcome Broomstick!"
But seriously folks, I've had a fascination with disasters of all sorts for a long time now. I have a particular interest in aviation disasters, of course, due to personal interests and bias. Anyhow, media reports frequently speak of "metal fatigue" and "stress fractures", but how often do you see them on the nightly news? About as often as morgue photos, I'd say. Well, here's a couple pictures for your education and edification:
This is what the interior of an airplane wing looks like after it snaps off in flight (and spends a couple days in the Carribean). That occurance is what is known as a Bad Thing. Here is the handy caption provided by the NTSB in their usual dry manner:
"Overall view of the inboard end of the right wing as it was recovered from the water. An unlabeled arrow indicates the lower spar cap of the rear spar where fatigue features were observed."
Note that most of the interior of the wing is empty space. In this particular model of airplane, in actual operation much of that empty space is filled with fuel. This is a "wet wing" where the wing interior is sealed and serves as the fuel resevoir rather than having a separate and discreet tank. Note also the jagged metal where the non-fatigued structures and skin tore after the wing spar failed. Note the wiring dangling, some of it electrical in nature. No doubt when the fuel-containing wing snapped there were sparks. This is why the airplane caught fire after the fracture.
Oh, yes - it's not obvious, but in the above picture the wing section is actually upside down. That is, the upper surface in this photo is, in normal operations, the bottom of the wing.
A close up of the actual fracture point of the spar cap
"Closer view of the fatigue region in the horizontal leg of the lower spar cap of the rear spar. Unlabeled brackets indicate fatigue origin areas at the surfaces of the fastener hole, and dashed lines indicate the extent of the fatigue region visible on the fracture surface. "
A further note - this failure occured in a 60 year old airplane operated off salt water. It is not known at this time how much corrosion may or may not have contributed to this accident. It is not known how much age may have contributed to this accident - it is possible this spar cap is younger than 60 years (even major parts may be replaced in an airplane that old).
Just to be fair, it isn't always metal airplanes that have problems. Here are some views of compression fractures in wooden wing spars (pre-catastrophic failure - these were caught by inspection and the spars removed before a Bad Thing occured, which is how the system is supposed to work):
rear of same spar:
Something very subtle that may have zipped past you - this spar contains a "grain anomaly". Wood used in airplane contrastrution, needless to say, needs to be as flawless as possible. That calls for absolutely straight grain. The defect is most obvious in the rear view, as a wave in the grain to the right of the fracture.
Here's a top view of the same spar and fracture:
Another spar crack:
Here's a bad one - the spar has actually separated. The last time this airplane landed the only thing holding the wing together was the cloth skin. Which gives me new respect for dacron, but YIIIIIIIE! This spar is now just very expensive firewood.
You bad boy! 
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