Relative Flexibilities for a Variety of Top and Down Tubes
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John Clay
Jul 3, 2018, 9:41:19 PM7/3/18
to 650b
Forgive the cross post but I think this information might be useful to some of the list readers.
I generated a spreadsheet analysis (attached) in order to determine the relative flexibilities in the range of steel top and down tubes that have been used in the past 50 or 60 years. The tables that appear below contain the summary information.
I used torsion alone as the proxy for general flexibility. The butts were modeled as steps located at mid-taper. Thats reasonably close to reality and it made the calculations simple & quick, and the results good enough for the purpose. Most of the tubing dimensions came from True Temper. For the top tubes the lavender shaded columns are comparisons wrt 25.4/969 tubing. Aqua columns are relative to 25.4/747 tubing. Same drill for the DT section that follows except it's against 28.6 tubing.
I seem to recall, but haven't been able to find again, Jan mentioning that for he & his crew planing occurs at higher power levels; something in the range of 500 or 600 watts. And the frames that plane for them are often made of 747 conventional diameter tubing. That suggests to me that planing might not be available to those of us who operate at far more modest power output levels though I've never built or ridden a frame from thin wall tubing.
Irrespective of the subject of planing and fatigue reduction this information should allow folks to make informed decisions when attempting to deviate from a known frame tubing selection. Â Â
Many thanks to Jamie Swan and Alistair Spence for their reviews of the work.
Down tube, relative stiffness calculation results.
John Clay
Tallahassee, Florida
USA
I generated a spreadsheet analysis (attached) in order to determine the relative flexibilities in the range of steel top and down tubes that have been used in the past 50 or 60 years. The tables that appear below contain the summary information.
I used torsion alone as the proxy for general flexibility. The butts were modeled as steps located at mid-taper. Thats reasonably close to reality and it made the calculations simple & quick, and the results good enough for the purpose. Most of the tubing dimensions came from True Temper. For the top tubes the lavender shaded columns are comparisons wrt 25.4/969 tubing. Aqua columns are relative to 25.4/747 tubing. Same drill for the DT section that follows except it's against 28.6 tubing.
I seem to recall, but haven't been able to find again, Jan mentioning that for he & his crew planing occurs at higher power levels; something in the range of 500 or 600 watts. And the frames that plane for them are often made of 747 conventional diameter tubing. That suggests to me that planing might not be available to those of us who operate at far more modest power output levels though I've never built or ridden a frame from thin wall tubing.
Irrespective of the subject of planing and fatigue reduction this information should allow folks to make informed decisions when attempting to deviate from a known frame tubing selection. Â Â
| Assembly Weight | Weight Change (g) wrt 969 Conventional | % Weight Change wrt 969 Conventional | % Weight Change wrt 747 Conventional | Angular Displacement (deg) | Relative Increase in Torsional Flexibility wrt 969 Conventional | Relative Increase in Torsional Flexibility wrt 747 Conventional | |||
| 25.4/747 TT | 213 | -74 | -26% | 8.0 | 39% | ||||
| 25.4/858 TT | 250 | -37 | -13% | 17% | 6.6 | 16% | -17% | ||
| 25.4/969 TT | 287 | 35% | 5.7 | -28% | |||||
| 28.6/747 TT | 241 | -46 | -16% | 13% | 5.5 | -3% | -30% | ||
| 28.6/757 TT | 265 | -22 | -8% | 24% | 4.8 | -16% | -40% | ||
| 28.6/858 TT | 283 | -4 | -2% | 33% | 4.6 | -19% | -42% | ||
| 28.6/969 TT | 324 | 84 | 13% | 52% | 4.0 | -31% | -50% |
Down tube, relative stiffness calculation results.
| Assembly Weight | Weight Change (g) wrt 969 Conventional | % Weight Change wrt 969 Conventional | % Weight Change wrt 747 Conventional | Angular Displacement (deg) | Relative Increase in Torsional Flexibility wrt 969 Conventional | Relative Increase in Torsional Flexibility wrt 747 Conventional | |||
| 28.6/747 DT | 241 | -84 | -26% | 5.5 | 40% | ||||
| 28.6/747 DT Compass | 226 | -98 | -30% | -6% | 5.9 | 48% | 6% | ||
| 28.6/858 DT | 283 | -42 | -13% | 17% | 4.6 | 16% | -17% | ||
| 28.6/969 DT | 324 | 35% | 4.0 | -28% | |||||
| 31.8/747 DT | 268 | -56 | -17% | 11% | 4.0 | 1% | -28% | ||
| 31.8/757 DT | 295 | -29 | -9% | 23% | 3.5 | -12% | -37% | ||
| 31.8/757 DT Compass | 286 | -38 | -12% | 19% | 3.6 | -10% | -36% | ||
| 31.8/858 DT | 315 | -9 | -3% | 31% | 3.3 | -16% | -40% | ||
| 31.8/969 DT | 361 | 93 | 11% | 50% | 2.9 | -28% | -48% |
John Clay
Tallahassee, Florida
USA
John Clay
Nov 24, 2020, 9:35:49 PM11/24/20
to 650b
I posted an update over here: https://groups.google.com/g/framebuilders/c/QaOg8c-17eE
It is my attempt at ranking the relative effects on frame flexibility by various combinations of top tube and down tube.
Something that I haven't seen discussed, and that I haven't added to my spreadsheet, are evaluations of and contributions that could be made by double butted seat tubes and 86 wall single butted.
John Clay
Tallahassee, Florida
Murray Love
Nov 25, 2020, 7:11:31 PM11/25/20
to John Clay, 650b
John, as a curiosity, have you compared the flexibility of butted tubes with plain-gauge tubes of the butted tube's belly diameter (that is, say, 969 vs 0.6mm plain-gauge)? I've always worked on the assumption that the differences would be relatively small, due to a butted tube effectively acting like springs in series, but have never bothered to confirm, so I may be way out.
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Jared Hardinger
Nov 25, 2020, 7:18:28 PM11/25/20
to 650b
Is torsion as relevant as pure bending? I have some free-time coming up, I might throw this into ANSYS and run some FEA on a typically-sized main triangle.Â
Steve Chan
Nov 25, 2020, 9:17:07 PM11/25/20
to John Clay, 650b
  Thanks for posting this, its a very interesting summary.
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John Clay
Nov 26, 2020, 6:43:51 AM11/26/20
to Murray Love, 650b
Hi Murray - No, I haven't but I did roll my own specification ("JMC Columbus Idea", in the summary, below).
I
revised the spreadsheet to reflect the butting and length dimensions of
various tubes after sizing them to fit a frame for me (rather than
using uncut dimensions as I did before), adding a seat tube sheet and
then including my hopefully only crude (as opposed to outright
incorrect) attempt at gauging the result of several combinations if
worked into a main triangle, all with respect to a 969 frame of the same
size; I didn't use center to center dimensions either but rather the in/in distances from OD of lug to OD of lug. The new file is attached and the main triangle summary appears
below. The seat tubes appear short simply because the portion containing
the seat post doesn't flex appreciably and so a portion for that was left out.
I
was curious to know if there might be some combinations of existing
tubes by makers other than RH/Kaisei that would yield similar results,
and how close some with 0.5mm center sections might get to the RH
superlight performance. It's clear that the 747 RH conventional diameter
superlight tubeset sets the standard for most flexible (amongst my
limited survey) but there is a good spread of existing alternatives
that populate the spectrum between conventional 969 and the RH superlight. With all three main tubes included, as opposed to my previous two tube evaluation (TT & DT only), finished front triangle flexibility in the RH Mule and OS ranges look feasible from existing Columbus offerings (and probably others for which I had no dimensional data on hand) and with a little more apparent balance in contribution to the whole, by each tube; I don't know if that matters but I my hunch is that it would aid longevity by keeping the peak stress of each tube nearer the average stress of the three. Thin wall, double butted STs are necessary to approach the RH superlight flexibility but it's interesting to me that with minor changes it looks like one could get fairly close with conventional diameters, butts on the short side of what's common and 0.45mm center sections; something that appeals from longevity, dent resistance and balanced stress perspectives; in the carbon age it's probably not worth a manufacturers $$ to do so.
Jared - That would be very interesting! Give it a go if you can. In some versions I used plain gauge models of each tube, at an average wall thickness, to see the order of precedence changed; but it was a seriously crude approach. Structural analysis was not part of my engineering career and I haven't the mojo to wade through the material that would be required to do a proper job of that. This was an attempt at determining the order of various tubes or combinations and I think that torsion alone is adequate to the task; a structural analysis by someone expert in the field would be interesting so I encourage that.
| Estimated tre tubi flexibility increase of various combinations wrt Columbus Cromor 969 | ||||
| % Increase In TreTubi Flexibility wrt Col Cromor Std 969 | ||||
| TT | DT | ST | ||
| RH Superlight | 43% | 36% | 41% | 40% |
| RH Mule | 43% | -11% | 41% | 25% |
| Columbus Mixture | 22% | 20% | 38% | 26% |
| SL | Kerin | Spirit | ||
| Columbus SL | 22% | 15% | 2% | 13% |
| RH OS | 1% | -11% | 41% | 10% |
| JMC Columbus Idea | 35% | 33% | 26% | 31% |
| JMC | JMC | JMC | ||
John
John Clay
Nov 26, 2020, 7:06:10 AM11/26/20
to 650b
The tapers are now modelled as 1/3 of their length being the thick end wall thickness, the remaining length being the center section thickness.
John Clay
Tallahassee, Florida
John Clay
Nov 26, 2020, 10:03:57 AM11/26/20
to Murray Love, 650b
I made an additional mix from Reynolds offerings at Torch and File, results are on the last row of the summary chart. It looks like another currently available alternative for a superlight, super flexible, frame.
John Clay
| Estimated tre tubi flexibility increase of various combinations wrt Columbus Cromor 969 | ||||
| % Increase In TreTubi Flexibility wrt Col Cromor Std 969 | ||||
| TT | DT | ST | ||
| RH Superlight | 43% | 36% | 41% | 40% |
| RH Mule | 43% | -11% | 41% | 25% |
| Columbus Mix | 22% | 20% | 38% | 26% |
| Reynolds Mix | 50% | 23% | 36% | 36% |
| AX2000 | BX5049 | CX2210 |
John Clay
Nov 26, 2020, 10:13:08 AM11/26/20
to Murray Love, 650b
Let's try that again:
John
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