HAVE YOU EVER FELT the deck of a
fiberglass boat “give” with your weight as you walk over it? Has it ever given
you concern, because you were thinking of buying that boat? And did you come to
the conclusion that if the springy deck can carry the load of your walking
about on it, all must be well?
Ah, but it’s not, apparently.
According to one of Britain’s foremost naval architects and surveyors, Ian
Nicholson, no boat can be deemed seaworthy if it has flexible panels that
encourage the dreaded “hinge effect.”
This is a condition in which the
edges of the panel flex back and forth, giving rise to a series of
approximately parallel cracks along the edge of a panel. The repeated bending
eventually cracks the gel coat.
In his book, Surveying Small Craft, Nicholson points out that you’ll often see
this trouble along each side of the bottom of a cockpit well. It happens where
there is no cockpit grating is fitted to distribute the crew’s weight evenly
over a large area, or where the grating is too flimsy for the job.
It is widely found where the cockpit
sole is weakly supported or where the bottom beams are not carried to the full
width of the well,” says Nicholson. “It is sometimes seen when these beams are
spaced too far apart, or end too sharply.”
And here’s the big warning from the
expert: “If the hinge effect is allowed to develop, eventually the whole panel
will drop out.”
Nicholson says this is admittedly
rare but is occasionally found in the bottoms of high-speed powerboats where
the whole hull pants in and out at each impact with the sea’s surface. “The
reversing strain, occurring thousands of times each day, soon cracks through
the gel coat and then sets about fracturing the glass fibers.”
The hinge effect is particularly
troublesome with sandwich construction, which is how many sailboat decks are
built, and even some hulls. “If the outer skin does not continue to grip the
core, the trouble may develop very quickly,” Nicholson adds. “The first
indications of the hinge effect are, of course. the roughly parallel lines of
cracks along the ‘hinge line.’”
So now you have been warned. Large
areas of fiberglass, especially flattish areas, should be absolutely stiff
under load. In the old days, we learned the hard way about metal fatigue when
the flexing wings of Comet airplanes broke off in flight. Fiberglass fatigue may not be as dramatic,
but it’s not something you want to experience on your boat.
Department
of Gobbledygook
This was published by Yahoo News, 12
March, 2015:
“From The American Register
“by Andrew Higgins
“In the finding that could
significantly transform recognized opinions of the fact that world is
effective, the workforce of astronomers brought by means of Chris Milne of the
College or university of Az (UA) possesses identified that supernovae are not even,
although diverse—a discovering that lifts concerns about how precisely
significantly ‘dark energy’ is in your world in addition to just how fast your
world is actually widening.”
Welcome to the wild world of computer
newsgathering.
Today’s
Thought
Whenever
your preparations for sea are poor, the sea worms its way in and finds the
problems.
— Francis Stokes
Tailpiece
“Waiter! Get your thumb off that
steak.”
“Very well, sir, but if it falls on
the floor again it’s your fault.”
(Drop by every Monday, Wednesday,
Friday for a new Mainly about Boats column.)
For most yachts that spend their live mooring in marinas the hinge effect doesn't matter. But it matters in serious cruising yachts.
ReplyDeleteI have heard of cleats being ripped out of the deck because of this problem (often NO wooden backing plates planned into the design).
The worst problem is having the main anchor bollard simply bolted to a hinge effect deck instead of a proper anchor capstan / bollard post that runs from the deck to the the lower stem of the boat - being through bolted or glassed in at its base.
The Comet jetliners crashed, not because the wings broke off, but because of "catastrophic metal fatigue in the airframe". They had large square windows and cracks developed at the corners due to metal flexing caused by pressuring and depressuring the fuselage. That's why all aircraft now have round or oval windows or large radii in corners of square/rectangular windows.
ReplyDeleteMr Vigo
ReplyDeleteI posted a comment earlier about the Comet, that it was not the wings breaking off that caused the crash. If I sounded a bit abrupt like a know-it-all, I apologise. That was not my intention at all. I have every respect for your knowledge and experience about boats, the sea and sailing. In fact, I look forward to reading your posts almost every day and I have learnt a great deal from them. I wish you fair winds always and many many more days of sailing.
Hi Boon:
ReplyDeleteYou have nothing to apologize for. Thank you for putting me straight about the Comet. It was a lovely-looking airplane. So sad that its square windows eventually led to tragic loss of life.
John V.