Suggestion - don't increase the diameter of the MBS test pin from 15mm,
DECREASE it to the same value (i.e. 10mm) that you will be using to test the knots.
If it breaks at the shackles, then so be it, it is after all the weakest point in the system.
Then you will be comparing unknotted cord with knotted cord with everything else equal,
so you will be comparing apples with apples.
1) This shows abandonment of the purpose of the testing: which is to determine the
relative breaking strengths (under standard, slow-pull loading) of various knots, i.p.
several variations of the bowline.
2) It's highly unlikely that an eye will break: the knot's SPart bears 100% tension
into turns of cordage around cordage (relatively frictive material compared with
cordage & metal); whereas an eye bears 50% tension around metal. --mixed fruits.
Reporting in here with some early test results for the IGKT forum...
[ ] Manufacturer: Sterling rope company USA
[ ] MBS: 5.2kN (1169 LBS)
...
The result of 5.1kN was sufficiently close to Sterlings given MBS to enable me to move forward with actual knot testing.
I will purchase more 5.0mm cord to conduct 2 more tests to establish a mean force.
What does
Sterling mean by "MBS"? ("M" unfortunately the initial of "Min"/"Max"/"Mean".)
SOMEwhere, I just saw some report referring to the ***minumum breaking strength*** which
was defined as 2 (3?) standard deviations below the mean. And--I'll hope statistics-smart others
set this straight/confirm--if you were to get, say, 5.4 & 5.0 on next tests, you might have enough
variance to enlarge your Stnd.Dev. to give an *MBS* of this sort of, what, 4.8?
--just a remark to make sure these are all apples, and not that Sterling has a mean of say
5.4 or greater, and so ... .
AGAIN: THE PRECISE FIXING OF MATERIAL STRENGTH, WHILE NICE,
IS LESS IMPORTANT than putting limited resources into the knots testing.
(And I'd be curious how a 3-wrap fixing affected things--but, yes, then you're
deviating and in two tests have more a 1 & 1 situation. But it's just that I cannot
figure how more wraps would make for a
higher break strength, UNLESS
a few-only wraps allowed sufficient force to be transmitted to the terminal knot
to put the break there--and even one and certainly two wraps I'd think would
significantly cut the transmitted load. Adding more wraps just provides more
material to be elongated by load and thus more movement of the material
AND more time at each load (under a constant rate of pull) to reach higher
tensions--and duration at tension is a weakening condition!)
I could not undo these [Overhand stopper] knots by hand alone. They were easily untied with the aid of pointy nose pliers.
I suggest doing more finger execises!
(Though, seriously, I recently struggled with fingers in the
cold on Overhands set by fising useage in well-worn/-weathered 7mm marine kernmantle and was
able to get 'em all--using thumbnails was key, in forcing bits of movement (it was not quick).)
Good show!
BOWLINE ABoK #1010 TEST SERIES:
Observations:
The knot was cinched tight using hand force only.
A single 'tracer' thread of white cotton was weaved through the sheath to mark the exact mid point of the collar on each knot.
Sorry, but I cannot imagine this being a point of rupture--there's little
tension IN the collar. But this is most interesting in terms of
tightening : for there
have been reports of jammed bowlines (also of unjammed tested-to-rupture partners (Lyon)),
and the only way it can jam is if the collar snugs up, under tension and elongated/thinned
cordage such that upon the relaxation of load the *swelling* rope binds solid.
And if the collar showed no movement at all, well, I can't see THIS rope jamming!
The markers need to be at Derek's "GeeSpot", and most importantly at the approximate
farthest-towards-EYE point of the knots "loop/hitch" --THERE is where the break will come.
Examination of the specimen after failure indicated that the break/rupture did not occur at the collar.
NB: THIS IS AMBIGUOUS! "at the collar" is where my worn CEO rope broke,
in one sense--but IN THE SPart, at the collar; not IN the collar.
Observations:
Only one of the #1010 knots failed. On this occasion, the knot that failed was closest ...
Mr. Grammar wants "closER"--there are but two.
How could it be otherwise, than "only one"?
Well, you could comment on the nature of the 2nd knot. There IS a case--w/photo(!)--
of a webbing bend tested as I suggested with TWO knots (to have a survivor, to mitigate
tension imbalance in a sling/closed-circle-of-test-material) in which the surviving knot
shows the start of some rupture--and, quite oddly, at a different place than where
the broken knot broke! Given your prior report of the rope seemingly breaking internally
and then holding to nearly the same load and breaking completely (I'll speculate that
there must have been core material to lend support to the mantle for at likely 50% or
less of the bulk, the mantle couldn't hold such a high force), you might have some
start of rupture in the survivor--not sure if you can
feel or otherwise detect it.
to the end termination anchor point[/i] (and not the knot immediately adjacent to the load cell).
Ah, well, just as "bitter end" --despite Spydey's use otherwise
-- means "at the bitts",
let's adopt a shorthand "anchor end" & "load end" here?!
Examination of the specimen after failure indicated that the BLUE tracer thread was missing.
I could locate the white and red tracer threads, ...
EXCELLENT: for you'll want to mail that
intact piece with the red thread
to Derek so he can work it into his promised essay on dangers of the GeeSpot!
(Note that "blue" rhymes with "true".)
... but NOT the blue. This indicated that failure/rupture was occurring at a region on and/or
around the blue tracer thread. A further test with a fourth tracer thread will be required to more
accurately home in on the region of failure/rupture.
The fact that the other #1010 knot remained intact enabled location and comparison of the tracer thread positions.
Good job, but you should have photos of the knots
under high (50-70% of THEIR breakpoint) tension--looking at the positions of things w/o tension won't pinpoint the spot at crunch time,
for it DOES move, some.
TEST #3: ...
[ ] Peak force recorded at failure: 3.76 kN ...
I notice that each break is weaker than the prior one:
you've disproved the old adage
Practice makes Perfect --let's all break for tea!
EDIT: I would like to add the comment that this whole testing procedure is very time
consuming and labor intensive. In particular, weaving the tracer threads through the sheath in strategic
positions is tedious and testing both my eye sight and patience... I hope its worth the effort Dan!
Hey, look at it as developing another job (or
survival skill (i.e., sewing)) in a time of
downturned economy!
But, seriously, has anyone EVER seen any testing done like this, intelligently
answering some rather fundamental questions (which have had bogus answers
given to them and parroted, for AGES--eyes / minds closed shut tight!) ?!
You are narrowing in on a break point by simple means (NOT by a hi-tech super-speed camera,
which in the Katherine Milne (draft) report was deemed not-quite-adequate-to-see... ) : by
needle & thread (& some needling from the cheap seats over the ocean) and a camera (yes?),
AND a 2nd-tested-but-surviving knot. All simple enough for any of the many testers to have
done decades ago, but ... no. So, yes: today, 2009-01-... and counting, we are generating
a STEP FORWARD in UNDERSTANDING KNOTS. And all quite
repeatable --say, of
a crude, brute-force ("shock load") break unconcerned about calibrated force measure,
but only point-of-rupture discovery--with thread(s), or a marker. (And you are confirming
K.Milne's observations, but with greater surety (and different material).)
I say that is quite worthwhile.
--and
red-threaded bits for Derek, to boot! 
