Tensiometer curiosity

Having yet to build my first wheel, I have a question about tensiometers.

Is the absolute measure of (whatever - isn't it really a distance
deflection rather than a force, although threads tend to indicate that
it reads in force) that critical? OR, is the only thing critical its
ability to give the same reading on the same spoke (and spokes with the
same tension) consistantly?

In other words, is "each spoke tightened to so many Kg" as important as
knowing all spokes are tensioned equally?

On Mar 31, 7:28 am, richard wrote:
Having yet to build my first wheel, I have a question about tensiometers.

Is the absolute measure of (whatever - isn't it really a distance
deflection rather than a force, although threads tend to indicate that
it reads in force) that critical? OR, is the only thing critical its
ability to give the same reading on the same spoke (and spokes with the
same tension) consistantly?

In other words, is "each spoke tightened to so many Kg" as important as
knowing all spokes are tensioned equally?

IMO, knowing that spoke tension is consistent from spoke to spoke
(i.e., "relative" spoke tension) is more critical than knowing the
"absolute" spoke tension to a really great degree of accuracy (IOW,
95Kgf v. 105Kgf is not a big deal).

On 2007-03-31, Ozark Bicycle wrote:
On Mar 31, 7:28 am, richard wrote:
Having yet to build my first wheel, I have a question about tensiometers.

Is the absolute measure of (whatever - isn't it really a distance
deflection rather than a force, although threads tend to indicate that
it reads in force) that critical? OR, is the only thing critical its
ability to give the same reading on the same spoke (and spokes with the
same tension) consistantly?

In other words, is "each spoke tightened to so many Kg" as important as
knowing all spokes are tensioned equally?

IMO, knowing that spoke tension is consistent from spoke to spoke
(i.e., "relative" spoke tension) is more critical than knowing the
"absolute" spoke tension to a really great degree of accuracy (IOW,
95Kgf v. 105Kgf is not a big deal).

This is something I've never understood. I don't bother with a
tensiometer myself, but surely if the spoke tensions aren't all about
the same then the wheel will be out of true? And if the only way to get
it true is with uneven tensions (if for example the rim isn't round and
flat in the first place), then you probably need uneven tension since
you will obviously require the wheel to be true.

I suppose if every other spoke on each side was loose you could have a
true wheel with uneven tension, but there's a minimal chance of that
happening by mistake.

On Mar 31, 8:27 am, Ben C wrote:
On 2007-03-31, Ozark Bicycle wrote:





On Mar 31, 7:28 am, richard wrote:
Having yet to build my first wheel, I have a question about tensiometers.

Is the absolute measure of (whatever - isn't it really a distance
deflection rather than a force, although threads tend to indicate that
it reads in force) that critical? OR, is the only thing critical its
ability to give the same reading on the same spoke (and spokes with the
same tension) consistantly?

In other words, is "each spoke tightened to so many Kg" as important as
knowing all spokes are tensioned equally?

IMO, knowing that spoke tension is consistent from spoke to spoke
(i.e., "relative" spoke tension) is more critical than knowing the
"absolute" spoke tension to a really great degree of accuracy (IOW,
95Kgf v. 105Kgf is not a big deal).

This is something I've never understood. I don't bother with a
tensiometer myself, but surely if the spoke tensions aren't all about
the same then the wheel will be out of true?

It ain't necessarily so.....


And if the only way to get
it true is with uneven tensions (if for example the rim isn't round and
flat in the first place), then you probably need uneven tension since
you will obviously require the wheel to be true.


That is a slightly different situation, but even then, having a
balance between true/round and even/balanced tension is the best
compromise.



I suppose if every other spoke on each side was loose you could have a
true wheel with uneven tension, but there's a minimal chance of that
happening by mistake.

I guess that depends on your definition of "loose". If by "loose" you
mean the tension is too low, that is not uncommon. Too high on some
spokes, too low on others; it happens all the time.

Ben C wrote:

This is something I've never understood. I don't bother with a
tensiometer myself, but surely if the spoke tensions aren't all about
the same then the wheel will be out of true?

This depends a lot on the rim and the spoke count. If you use a strong,
stiff rim with 32 or 36 spokes, for example a typical MTB wheel, you can
have one spoke a lot looser than the others without the wheel being out
of true - As long as the adjacent spokes are very tight.

On the other hand, if you build a front wheel with a lightweight road
rim and only 24 or 28 spokes what you say is closer to truth.

-as

In article ,
Ben C wrote:

On 2007-03-31, Ozark Bicycle
wrote:
On Mar 31, 7:28 am, richard wrote:
Having yet to build my first wheel, I have a question about
tensiometers.

Is the absolute measure of (whatever - isn't it really a distance
deflection rather than a force, although threads tend to indicate
that it reads in force) that critical? OR, is the only thing
critical its ability to give the same reading on the same spoke
(and spokes with the same tension) consistantly?

In other words, is "each spoke tightened to so many Kg" as
important as knowing all spokes are tensioned equally?

IMO, knowing that spoke tension is consistent from spoke to spoke
(i.e., "relative" spoke tension) is more critical than knowing the
"absolute" spoke tension to a really great degree of accuracy (IOW,
95Kgf v. 105Kgf is not a big deal).

Well, most tensiometers don't give you a flawless absolute measurement
for reasons that have been discussed in other threads. They do give you
a ballpark measurement that is IMHO close enough to be getting on with.
There are techniques for finding the highest tension the rim can
withstand to maximize the load the wheel can carry, but most people
probably don't need to have their wheels quite that tight since they
don't load the wheel that heavily.

This is something I've never understood. I don't bother with a
tensiometer myself, but surely if the spoke tensions aren't all about
the same then the wheel will be out of true? And if the only way to
get it true is with uneven tensions (if for example the rim isn't
round and flat in the first place), then you probably need uneven
tension since you will obviously require the wheel to be true.

Take wheels at random and pluck them and you will often find that there
are some spokes that are much tighter than others. That's because the
lateral pull of spokes affects not on the part of the rim the spokes are
connected to but also a few inches to either side. This is because of
the lateral rigidity of the rim. This scenario can potentially result
in the looser spoke going slack under load and the nipple backing off,
which can eventually put the wheel out of true.

On 2007-03-31, Tim McNamara wrote:
In article ,
Ben C wrote:
[...]
This is something I've never understood. I don't bother with a
tensiometer myself, but surely if the spoke tensions aren't all about
the same then the wheel will be out of true? And if the only way to
get it true is with uneven tensions (if for example the rim isn't
round and flat in the first place), then you probably need uneven
tension since you will obviously require the wheel to be true.

Take wheels at random and pluck them and you will often find that there
are some spokes that are much tighter than others. That's because the
lateral pull of spokes affects not on the part of the rim the spokes are
connected to but also a few inches to either side.

So you could end up with, for example, one spoke that was too tight with
the two either side of it on that side of the rim a bit loose, and still
have a fairly true wheel since the rim's rigidity will not permit a
wobble that small. This is especially possible with 36H and a rigid rim
which is what Antti also said.

This is because of the lateral rigidity of the rim. This scenario can
potentially result in the looser spoke going slack under load and the
nipple backing off, which can eventually put the wheel out of true.

Which I suppose is the basic reason why even tension is desirable.

In article ,
Ben C wrote:

On 2007-03-31, Tim McNamara wrote:
In article ,
Ben C wrote:
[...]
This is something I've never understood. I don't bother with a
tensiometer myself, but surely if the spoke tensions aren't all
about the same then the wheel will be out of true? And if the only
way to get it true is with uneven tensions (if for example the rim
isn't round and flat in the first place), then you probably need
uneven tension since you will obviously require the wheel to be
true.

Take wheels at random and pluck them and you will often find that
there are some spokes that are much tighter than others. That's
because the lateral pull of spokes affects not on the part of the
rim the spokes are connected to but also a few inches to either
side.

So you could end up with, for example, one spoke that was too tight
with the two either side of it on that side of the rim a bit loose,
and still have a fairly true wheel since the rim's rigidity will not
permit a wobble that small. This is especially possible with 36H and
a rigid rim which is what Antti also said.

Even rims that aren't particularly rigid. I saw this back in the days
of simple U-channel rims, before box section rims were common. The
reverse scenario is also possible. You can often find a loose spoke in
a wheel that is compensated for by its adjacent same-side spokes being
tensioned a bit tighter, making the wheel laterally true.

We use this to our advantage when we break a spoke and adjust the
same-side spokes on either side of the gap to reduce the wow in the rim
to ride home.

This is because of the lateral rigidity of the rim. This scenario
can potentially result in the looser spoke going slack under load
and the nipple backing off, which can eventually put the wheel out
of true.

Which I suppose is the basic reason why even tension is desirable.

A vertically stiffer rim might even magnify the issue, since the wheel
stands on fewer spokes in the load-affected zone. That one loose spoke
would lose more tension as a result.

richard wrote:
Having yet to build my first wheel, I have a question about tensiometers.

Is the absolute measure of (whatever - isn't it really a distance
deflection rather than a force, although threads tend to indicate that
it reads in force) that critical? OR, is the only thing critical its
ability to give the same reading on the same spoke (and spokes with the
same tension) consistantly?

In other words, is "each spoke tightened to so many Kg" as important as
knowing all spokes are tensioned equally?

relatively consistent tension is critical for a true wheel that stays
true in service. however, the absolute tension is essential if you want
to have a rim that doesn't crack or have eyelets that don't pull out.
what most people do therefore is measure 3 or so spokes and average
their absolute readings, then go around the wheel making sure other
spokes have the same pitch when plucked. you'll never get all spokes
identical because all rims are slightly inconsistent, but aim for the
closest you can get. [spokes at the rim joint are often over-tension,
so exclude them from your average.]

On Sat, 31 Mar 2007 08:56:12 -0700, jim beam
wrote:

[snip]

[spokes at the rim joint are often over-tension . . .

Dear Jim,

There seems to be some disagreement about whether spokes at the rim
joint end up tighter or looser.

Perhaps "over-tension" was just the kind of obvious oops that we all
make now and then, and you meant "under-tension"?

(Aaargh! Smack forehead! Never mind!)

But perhaps you really do expect spokes at the rim joint to be
tighter?

Anyway, here's the usual thinking on spokes at the rim joint:

"Note that some rims require spokes adjacent to the joint to be looser
than others to correct for their greater thickness at the splice."

"The Bicycle Wheel," 3rd edition, p. 95

"Most rims are made from straight material that is formed into a hoop
and joined by welding or splicing. Sometimes the joint causes
irregular alignment that is difficult to correct. For spliced rims,
the extent of the error may not appear until after the spokes are
tensioned. In both welded and spliced rims spokes near the joint may
be looser than others, and completely correcting this error may be
impossible."

"The Bicycle Wheel," 3rd edition, p. 104

Cheers,

Carl Fogel