An engineer in Seattle was getting ready to board a jet airliner.
As he looked out the window at the parked plane, he noticed a crew swarming up ladders and fanning out across the wings. They also leaned ladders against the fuselage.
The men appeared to be doing something with power drills and buckets.
The engineer, being from Seattle and all that, knew a thing or two about airplanes and could not think of any kind of maintenance would require that many people and those kinds of tools.
Beckoning a person who worked for the airline, our intrepid engineer asked what was going on.
"Those men are the chronically homeless and the Federal Government is subsidizing the airline to employ them" the airline official informed him.
"But what are they doing?" the engineer asked.
"They are drilling out every third rivet with a rota-broach and we are selling them for scrap; getting $2.00 a pound I might add." the official said, proudly.
"Why would you DO that?" the engineer sputtered.
"We called up the manufacturer and they informed us they designed all of their equipment with a 30% factor of over-design."*
I-35 West Bridge Collapse
From a 40-year inspection report
Main Truss Members: . . . The truss members have numerous poor weld details. . . . The truss members have surface rust corrosion at the floor beam and sway frame connections. Pack rust is forming between the connection plates. There is paint failure, surface rust, and section loss, flaking rust in scattered locations.
Floor Beam Trusses: . . . The floorbeam truss members have numerous poor welding details, including plug welded web reinforcement plates, and tack welds & welded connection plates located in tension zones. Some of the top chord splices are offset vertically, up to 1/2” – from original construction. The splice plates are bent. The floorbeam trusses below stringer joints have section loss, severe flaking rust.
Stringers: . . . The stringer ends have surface rust corrosion at the expansion joints. . . . The bolted connections to the floorbeam trusses are ‘working’ and some bolts are loose or missing.
Roller nests and expansion joints: . . . In span #2, multi-beam approach span, there is a cantilever expansion hinge with sliding plate bearings. The joint is closed beyond tolerable limits, possibly due to substructure movement & pavement thrust and is no longer functioning.
Due to the ‘Fracture Critical’ configuration of the main river spans and the problematic ‘crossbeam’ details, and fatigue cracking in the approach spans, eventual replacement of the entire structure would be preferable.
It is interesting that the substandard welds were not recognized until the forty year inspection.
The root cause of the bridge failure was determined to be some undersized, i.e. material too thin, gusset plates.
The National Traffic Safety Board assigned the blame to design.
I have a friend who believes otherwise. He heard through back-door sources that most of the gusset plates were 3/4" thick while some of the gusset plates on the span that collapsed were 3/8" thick. He said there is no documentation or engineering work orders authorizing the thinner plates.
He thinks it was somebody who didn't understand fractions grabbing plate steel and fabbing the gusset plates. If you don't understand fractions, you might think 3/4 and 3/8 are interchangable, or you might think "8 is bigger than 4, so if I don't have the one, I can use the other and it will be OK".
Evidence suggests that we are worse off today (in terms of construction and fabrication skills) than we were in 1965 when the bridge span was built.
*The joke within the joke is that you need a 50% factor of over-design if you are going to remove every third rivet. 1.50*0.667 is about one. 1.30 * 0.667 = 0.87
There was a pedestrian foot bridge connecting a university across a interstate highway in Florida that collapsed recently, a couple years back. Designed and constructed by minority grads. If memory serves it was only a year or two old at the time of collapse. The story didn't last in the news very long.
ReplyDeleteStill under construction actually when it collapsed. Grrl power design team was heavily touted. Six deaths. However there were lots of errors along the way. Mostly not asking "Hey! Are those giant cracks important?"
DeleteThe design might have worked (at least longer) if the bridge could have sprung into existence whole. Construction adds stresses in critical ways that may be the peak forces a structure will ever see.
If they had erected cribbing under the bridge or just closed the road during the final stages it would have been an Aw Shit! instead of the disaster it was. I'm sure they kept under budget and on schedule by cutting those two corners.
DeleteNot to say females can't be good engineers. Diane Hartley identified a major structural flaw in the Citicorp Center as a student. The structural engineer, William LeMessurier, was humble enough to review her claim and thereby found out that his design has an annual 1 in 16 chance of total collapse.
ReplyDelete"Evidence suggests that we are worse off today (in terms of construction and fabrication skills) than we were in 1965 when the bridge span was built."
ReplyDeleteNobody has been to the moon lately either....
Doesn't say much for the quality of the inspectors either... sigh
ReplyDelete