The wheelbuilding thread
Moderator: robbosmans
Forum rules
The spirit of this board is to compile and organize wheels and tires related discussions.
If a new wheel tech is released, (say for example, TPU tubes, a brand new tire, or a new rim standard), feel free to start the discussion in the popular "Road". Your topic will eventually be moved here!
The spirit of this board is to compile and organize wheels and tires related discussions.
If a new wheel tech is released, (say for example, TPU tubes, a brand new tire, or a new rim standard), feel free to start the discussion in the popular "Road". Your topic will eventually be moved here!
- Zen Cyclery
- Shop Owner
- Posts: 1244
- Joined: Tue Mar 10, 2009 5:27 am
- Location: McCall, ID
- Contact:
@leejdavies-I wouldn't recommend the radial lacing on the NDS of that build. I've done that before with a 340/T11 combo, and I had problems with the non drive side going slack. I think that a 2x NDS would be far more practical. For the front wheel, a radial build would be just fine. Keep in mind that front wheels are usually much stiffer than rears because they have even relative tensions, where as rear wheels have a significant tension offset. For the hole count, you won't notice any difference between 20h and 24h. On the rear though I think you should overbuild a tad and go with a 28 hole, at least.
Visit starbike.com Online Retailer for HighEnd cycling components
Great Prices ✓ Broad Selection ✓ Worldwide Delivery ✓
www.starbike.com
-
- in the industry
- Posts: 5777
- Joined: Sat May 12, 2012 7:25 pm
- Location: Glermsford, Suffolk U.K
- Contact:
A customer has asked me to build him a wheel using his parts O.K I said. I recieved the 20H Alpha 240 rim and 20H hub. What he did not tell me the hub is a brontrager affair drilled for paired spokes.
So I have a 20H rim with equidistant drilling and a paired spoke hub. Radial lacing heads out i what has been done before with this hub so that what I will again. How do I calculate the lengths for this one. It must be different to a normal radial wheel.
So I have a 20H rim with equidistant drilling and a paired spoke hub. Radial lacing heads out i what has been done before with this hub so that what I will again. How do I calculate the lengths for this one. It must be different to a normal radial wheel.
- Zen Cyclery
- Shop Owner
- Posts: 1244
- Joined: Tue Mar 10, 2009 5:27 am
- Location: McCall, ID
- Contact:
@bm0p700f- Hmmm. Sounds like a can of worms to me. Contact Jeremy at Alchemy though. He's the guy I'd call on this one.
Hi all, more maths to explain effective Lateral Stiffness, which combines Bracing Angle and effective NDS Ratio. I believe that the following formula should be do that ...
((DS BA * DS spoke number) + (NDS BA * NDS spoke number)) * Effective NDS ratio = Effective Lateral stiffness (index) = ELS ... where Effective NDS ratio = Traditional NDS ratio * DS spokes / NDS spokes
Some examples ... DS BA = 3.7', NDS BA = 7.4', Traditional NDS ratio = 46%
20-8 ... Effective Lateral stiffness = ELS = ((3.7 * 20) + (7.4 * 8 )) * (0.46 * 20/8) = (74.0 + 59.2 ) * 1.15 = 153.18 ... where to get a decent 40H hub with decent FTF spacing (55 to 57mm) - 28H rim, only 4 more spokes
18-9 ... ELS = ((3.7 * 18) + (7.4 * 9 )) * (0.46 * 18/9) = (66.6 + 66.6 ) * 0.92 = 122.54
18-10 ... ELS = ((3.7 * 18) + (7.4 * 10 )) * (0.46 * 18/10) = (66.6 + 74 ) * 0.828 = 116.417
16-8 ... ELS = ((3.7 * 16) + (7.4 * 8 )) * (0.46 * 16/8) = (59.2 + 59.2 ) * 0.92 = 108.928
18-12 ... ELS = ((3.7 * 18) + (7.4 * 12 )) * (0.46 * 18/12) = (66.6 + 88.8 ) * 0.69 = 107.226
18-18 ... ELS = ((3.7 * 18) + (7.4 * 18 )) * 0.46 = (66.6 + 133.2 ) * 0.46 = 91.908
16-12 ... ELS = ((3.7 * 16) + (7.4 * 12 )) * (0.46 * 16/12) = (59.2 + 88.8 ) * 0.613 = 90.724
16-16 ... ELS = ((3.7 * 16) + (7.4 * 16 )) * 0.46 = (59.2 + 118.4 ) * 0.46 = 81.696
14-14 ... ELS = ((3.7 * 14) + (7.4 * 14 )) * 0.46 = (51.8 + 103.6 ) * 0.46 = 71.484
12-12 ... ELS = ((3.7 * 12) + (7.4 * 12 )) * 0.46 = (44.4 + 88.8 ) * 0.613 = 61.272 ... there are a lot of 24H 12-12 wheels in circulation - for light to medium weight, not powerful, riders?
When I look at these figures it suggests that the 20:8, 18-9, and 18-10 are excellent for lateral stiffness, as is the 16-8
Significantly these results show that the traditional arrangements/builds, 12-12, 14-14, and 16-16, are at the bottom of the list for effective Lateral Stiffness ...
The 16-12 arrangement is well down the list, although it is equal to a 36H 18-18 arrangement (less 8 spokes) …
I will have a look at a formula for effective Torsional stiffness … Effective Torque Control
Please check and let me know what you think ... thanks KL
PS: 20-4 ... ELS = ((3.7 * 20) + (7.4 * 4 )) * (0.46 * 20/4) = (74.0 + 29.6 ) * 2.30 = 238.28 ... DS spoke tension is an issue and not enough NDS spokes, but if you are game to try it (I wouldn't, this is just an example) ... 24H rim and 24 spokes ...
Campagnolo do the 14-7 Triplet (21H rim), and I must say that I have not heard of any real issues with these wheels … very clever of them
Does DS/NDS spoke tensions have an effect on Lateral Stiffness? Well, they answer is most definitely (most definitely) ... yes, otherwise Campagnolo's 14-7 Triplet (21H rim) would not work
((DS BA * DS spoke number) + (NDS BA * NDS spoke number)) * Effective NDS ratio = Effective Lateral stiffness (index) = ELS ... where Effective NDS ratio = Traditional NDS ratio * DS spokes / NDS spokes
Some examples ... DS BA = 3.7', NDS BA = 7.4', Traditional NDS ratio = 46%
20-8 ... Effective Lateral stiffness = ELS = ((3.7 * 20) + (7.4 * 8 )) * (0.46 * 20/8) = (74.0 + 59.2 ) * 1.15 = 153.18 ... where to get a decent 40H hub with decent FTF spacing (55 to 57mm) - 28H rim, only 4 more spokes
18-9 ... ELS = ((3.7 * 18) + (7.4 * 9 )) * (0.46 * 18/9) = (66.6 + 66.6 ) * 0.92 = 122.54
18-10 ... ELS = ((3.7 * 18) + (7.4 * 10 )) * (0.46 * 18/10) = (66.6 + 74 ) * 0.828 = 116.417
16-8 ... ELS = ((3.7 * 16) + (7.4 * 8 )) * (0.46 * 16/8) = (59.2 + 59.2 ) * 0.92 = 108.928
18-12 ... ELS = ((3.7 * 18) + (7.4 * 12 )) * (0.46 * 18/12) = (66.6 + 88.8 ) * 0.69 = 107.226
18-18 ... ELS = ((3.7 * 18) + (7.4 * 18 )) * 0.46 = (66.6 + 133.2 ) * 0.46 = 91.908
16-12 ... ELS = ((3.7 * 16) + (7.4 * 12 )) * (0.46 * 16/12) = (59.2 + 88.8 ) * 0.613 = 90.724
16-16 ... ELS = ((3.7 * 16) + (7.4 * 16 )) * 0.46 = (59.2 + 118.4 ) * 0.46 = 81.696
14-14 ... ELS = ((3.7 * 14) + (7.4 * 14 )) * 0.46 = (51.8 + 103.6 ) * 0.46 = 71.484
12-12 ... ELS = ((3.7 * 12) + (7.4 * 12 )) * 0.46 = (44.4 + 88.8 ) * 0.613 = 61.272 ... there are a lot of 24H 12-12 wheels in circulation - for light to medium weight, not powerful, riders?
When I look at these figures it suggests that the 20:8, 18-9, and 18-10 are excellent for lateral stiffness, as is the 16-8
Significantly these results show that the traditional arrangements/builds, 12-12, 14-14, and 16-16, are at the bottom of the list for effective Lateral Stiffness ...
The 16-12 arrangement is well down the list, although it is equal to a 36H 18-18 arrangement (less 8 spokes) …
I will have a look at a formula for effective Torsional stiffness … Effective Torque Control
Please check and let me know what you think ... thanks KL
PS: 20-4 ... ELS = ((3.7 * 20) + (7.4 * 4 )) * (0.46 * 20/4) = (74.0 + 29.6 ) * 2.30 = 238.28 ... DS spoke tension is an issue and not enough NDS spokes, but if you are game to try it (I wouldn't, this is just an example) ... 24H rim and 24 spokes ...
Campagnolo do the 14-7 Triplet (21H rim), and I must say that I have not heard of any real issues with these wheels … very clever of them
Does DS/NDS spoke tensions have an effect on Lateral Stiffness? Well, they answer is most definitely (most definitely) ... yes, otherwise Campagnolo's 14-7 Triplet (21H rim) would not work
Damon Rinard's tests found that spoke tension did not effect wheel stiffness until the spokes went slack. (http://www.sheldonbrown.com/rinard/wheel/index.htm).
> 18-12 ... ELS = ((3.7 * 18) + (7.4 * 12 )) * (0.46 * 18/12) = (66.6 + 88.8 ) * 0.69 = 107.226
> 18-18 ... ELS = ((3.7 * 18) + (7.4 * 18 )) * 0.46 = (66.6 + 133.2 ) * 0.46 = 91.908
It doesn't make sense to me that removing six spokes would make a wheel stiffer. Perhaps I misunderstood the formula expressing your theory.
> 18-12 ... ELS = ((3.7 * 18) + (7.4 * 12 )) * (0.46 * 18/12) = (66.6 + 88.8 ) * 0.69 = 107.226
> 18-18 ... ELS = ((3.7 * 18) + (7.4 * 18 )) * 0.46 = (66.6 + 133.2 ) * 0.46 = 91.908
It doesn't make sense to me that removing six spokes would make a wheel stiffer. Perhaps I misunderstood the formula expressing your theory.
Hi eric, the NDS ratio is 46% for the 18-18, whereas the 18-12 is 69% ... that's a 23% improvement. Absolutely, if spoke tension plays no part at all, then you are absolutely correct, but maybe the testing method used was not completely correct ... maybe ...
A thing to remember though is that an assembled spoked wheels rim has been tensioned like a leaf spring, or torsion bar, on a car, but in a circular manner ... which is even stronger.
The rim has been pre-tensioned and pre-stressed, and with more pre-tensioning and pre-stressing (ie more spoke tension) it will become more resistant to the same lateral/radial forces that will act on it (and even torque effects) ... sound reasonable
Isn't it interesting that we do not hear of many (or any) issues with Campagolo's 14:7 triplet, 21H rim?
With 21 spokes it appears to be stronger than the current 16:8 24H rim arrangement ... 3 spokes less
It appears to be the relationship between the pre-tensioned rim, spoke placement, and even DS/NDS spoke tensions ... do you have any ideas re 14:7 triplet, 21H rim
A thing to remember though is that an assembled spoked wheels rim has been tensioned like a leaf spring, or torsion bar, on a car, but in a circular manner ... which is even stronger.
The rim has been pre-tensioned and pre-stressed, and with more pre-tensioning and pre-stressing (ie more spoke tension) it will become more resistant to the same lateral/radial forces that will act on it (and even torque effects) ... sound reasonable
Isn't it interesting that we do not hear of many (or any) issues with Campagolo's 14:7 triplet, 21H rim?
With 21 spokes it appears to be stronger than the current 16:8 24H rim arrangement ... 3 spokes less
It appears to be the relationship between the pre-tensioned rim, spoke placement, and even DS/NDS spoke tensions ... do you have any ideas re 14:7 triplet, 21H rim
Last edited by KLabs on Sat Mar 09, 2013 5:49 am, edited 1 time in total.
-
- Posts: 849
- Joined: Sat May 12, 2012 8:32 am
- Location: Australia
KLabs wrote:Isn't it interesting that we do not hear of many issues with Campagolo's 14:7 triplet, 21H rim?
With 21 spokes it appears to be stronger than the current 16:8 24H rim arrangement ... 3 spokes less
It appears to be the relationship between the pre-tensioned rim, spoke placement, and even DS/NDS spoke tensions ... do you have any ideas re 14:7 triplet, 21H rim
I'm gonna say they have optimized the hub geometries for 14:7 triplet, Some triplet hubs that I see are just "regular" hubs with a 16:8 drilling
I write the weightweenies blog, hope you like it
Disclosure: I'm sponsored by Velocite, but I do give my honest opinion about them (I'm endorsed to race their bikes, not say nice things about them)
Disclosure: I'm sponsored by Velocite, but I do give my honest opinion about them (I'm endorsed to race their bikes, not say nice things about them)
verycreativeusername wrote:I'm gonna say they have optimized the hub geometries for 14:7 triplet, Some triplet hubs that I see are just "regular" hubs with a 16:8 drilling
Hi verycreativeusername, absolutely, especially as only 21 spokes are used, and would most likely mean that the DS bracing angle has been increased, ie. better than 3.7' or the FTF spacing has been optimized (about 57mm).
... but I don't think that's the case. Have a look at these 11spd hub upgrades ... http://fairwheelbikes.com/cycling-blog/updates-and-news/hub-conversions-for-shimano-11-speed.html ... and you will see that the best NDS ratio was 51%, based on an ERD of 587, 24 spoke 12-12 2x/2x arrangement. Only 2 hubs in that group achieved a DS bracing angle of 3.7' ... the others were all less than 3.7'
It would appear that with 11spd we are entering an era of deep rims ( >=30mm), which are needed to improve the DS brazing angle.
If my maths is reasonably correct then my observations are that 20-8, 20-10, 18-9, 18-10, 16-8, 18-12, 18-18, and 16-12 spoke arrangements will again make non asymmetric and non OC shallow rims viable with 11spd hubs ... food for thought ... thanks KL
If my maths is reasonably correct then my observations are that 20-8, 20-10, 18-9, 18-10, 16-8, 18-12, 18-18, and 16-12 spoke arrangements will again make non asymmetric and non OC shallow rims viable with 11spd hubs ... food for thought ... thanks KL
Hi all, I was thinking about the Lew Pro VT1 hub and I find it nice in the following ways
- the centre flange can be laced 2x or 3x or even 4x, and because it is in the same plane as the rim, can control all torque effects.
- because the centre flange is controlling all torque effects the DS/NDS flanges only need to control lateral effects (lateral stiffness) and as such can be laced 0x heads in.
- also, fewer DS/NDS spokes are required because they only need to control lateral stiffness (not torque effects)
- DS/NDS spoke tension issues are more easily controlled (although Lew has made spoke/wheel repair to proprietary and difficult)
- this design can nearly be tested statically
- very clever design
What are your thoughts on this hub design ... thanks KL
- the centre flange can be laced 2x or 3x or even 4x, and because it is in the same plane as the rim, can control all torque effects.
- because the centre flange is controlling all torque effects the DS/NDS flanges only need to control lateral effects (lateral stiffness) and as such can be laced 0x heads in.
- also, fewer DS/NDS spokes are required because they only need to control lateral stiffness (not torque effects)
- DS/NDS spoke tension issues are more easily controlled (although Lew has made spoke/wheel repair to proprietary and difficult)
- this design can nearly be tested statically
- very clever design
What are your thoughts on this hub design ... thanks KL
-
- in the industry
- Posts: 5777
- Joined: Sat May 12, 2012 7:25 pm
- Location: Glermsford, Suffolk U.K
- Contact:
Klabs that maths makes no sense to me, the way you have worked it out is nonsense. I am sorry to be blunt and possibly rude. You have just invented that formula but not dervied it from first principles. Those papers I linked give some of the maths invovled in working ot lateral stiffness is complicated and computor models are needed. I say this and I used to be Physics and Maths teacher so my maths backgoround is strong and this something that would stretch my Maths skills to the limit and beyond and for that I will not bother to even try to work it all out.
Tension blance however does not effect wheel stiffness as Eric pointed out! That has been estabilshed many times (notice how it is not refered to in the paper only material properties of spoke and rim and bracing angles are concidered becase that is all that effects it) and yet you still cling to the idea.
What you have done is invented a ranking system for lateral stiffness which to me is meaningless and there are flaws in it.
I refer you again to this paper.
http://people.duke.edu/~hpgavin/papers/ ... -Paper.pdf" onclick="window.open(this.href);return false;" onclick="window.open(this.href);return false;
The answers you seek may be found by posting on Physics Forums. There are alot of very competant folk on there with Maths skills way beyond mine and yours (no offense intended) who could possibly help more with a matematical treatment of wheel stiffness.
I have been very blunt I am sorry if this offends.
However with 11 speed hubs (campagnolo have had them for a while now) shallow rims still work - I build them and have zero isses. Deeper rims ( for stiffness) and off centre rims (for tension balance and improving that never hurts) obviously help but I don't need maths to demsotrate that.
Tension blance however does not effect wheel stiffness as Eric pointed out! That has been estabilshed many times (notice how it is not refered to in the paper only material properties of spoke and rim and bracing angles are concidered becase that is all that effects it) and yet you still cling to the idea.
What you have done is invented a ranking system for lateral stiffness which to me is meaningless and there are flaws in it.
I refer you again to this paper.
http://people.duke.edu/~hpgavin/papers/ ... -Paper.pdf" onclick="window.open(this.href);return false;" onclick="window.open(this.href);return false;
The answers you seek may be found by posting on Physics Forums. There are alot of very competant folk on there with Maths skills way beyond mine and yours (no offense intended) who could possibly help more with a matematical treatment of wheel stiffness.
I have been very blunt I am sorry if this offends.
However with 11 speed hubs (campagnolo have had them for a while now) shallow rims still work - I build them and have zero isses. Deeper rims ( for stiffness) and off centre rims (for tension balance and improving that never hurts) obviously help but I don't need maths to demsotrate that.
Hi bm0p700f, to ask a question, which area of physics and maths would you say that wheel building would be related to ...
This process must be quantifiable otherwise it is just hearsay, a mystical experience, and guess work at best ...
For example ... you have said that you really like the 16:8 2xDS 0xNDS arrangement, although you have not stated why? For the same rim and FTF spacing, do you prefer it to the 12:12 2xDS 2xNDS arrangement ...
Anyhow, I am happy to read through the posted link (document) and shall give my opinion once read ... thanks KL
This process must be quantifiable otherwise it is just hearsay, a mystical experience, and guess work at best ...
For example ... you have said that you really like the 16:8 2xDS 0xNDS arrangement, although you have not stated why? For the same rim and FTF spacing, do you prefer it to the 12:12 2xDS 2xNDS arrangement ...
Anyhow, I am happy to read through the posted link (document) and shall give my opinion once read ... thanks KL
-
- in the industry
- Posts: 5777
- Joined: Sat May 12, 2012 7:25 pm
- Location: Glermsford, Suffolk U.K
- Contact:
I have not atated that I like the 16:8 arrangment I don't in fact I am not too sure where you got that from. A wheel is sturcture so mechanics is what is sed to analysis it. Wheels can be analayised mathematically but the maths is complex so the onlt things that are with the reach of most are lateral wheel stiffnes measurements.
The ranking you came up with tries to combine tension balance and spoke araganaged to come up with lateral stiffness ranking.
I do not know how to calcualte the lateral stiffness on a wheel but I don't have as spoc clac spits out the most important nmber for m, bracing angles. Good bracing angles are required and the high these are the better. That is pretty much it. That is all we need to quantify. It is not the sum of the bracing angles either just knowing the indivaual angles is enough. The reason why summing does not work is you can make a high bracing angle out of two equally sized ones (good for wheel) or on very small and one very large (not so good). Then by building different wheels and doing some as experiments to see if they even work you get a feel for what combinations work and what does not. So it "science" but alot of it is prior experience. You could say thay is the "art". It not a black one though.
The ranking you came up with tries to combine tension balance and spoke araganaged to come up with lateral stiffness ranking.
I do not know how to calcualte the lateral stiffness on a wheel but I don't have as spoc clac spits out the most important nmber for m, bracing angles. Good bracing angles are required and the high these are the better. That is pretty much it. That is all we need to quantify. It is not the sum of the bracing angles either just knowing the indivaual angles is enough. The reason why summing does not work is you can make a high bracing angle out of two equally sized ones (good for wheel) or on very small and one very large (not so good). Then by building different wheels and doing some as experiments to see if they even work you get a feel for what combinations work and what does not. So it "science" but alot of it is prior experience. You could say thay is the "art". It not a black one though.
Visit starbike.com Online Retailer for HighEnd cycling components
Great Prices ✓ Broad Selection ✓ Worldwide Delivery ✓
www.starbike.com
Hi bm0p700f, re 16:8 arrangement, sorry for the mistake ... I guess that you do not like this arrangement, which is fine ... some do, some don't ... I do
Re: Bracing Angles, one thing that is often posted here is the need for wide/good FTF spacing ,,, the calculations/maths reflects and agrees with this, especially when used in conjunction with DS/NDS flange spoke circle diameter
Hey bm0p700f, re spoke tension affecting or not affecting lateral stiffness, I guess we will have to agree to disagree and continue with having fun with the art of wheelbuiding ...
Thank you for all the assistance you have afforded to me, appreciated ... thanks KL
Re: Bracing Angles, one thing that is often posted here is the need for wide/good FTF spacing ,,, the calculations/maths reflects and agrees with this, especially when used in conjunction with DS/NDS flange spoke circle diameter
Hey bm0p700f, re spoke tension affecting or not affecting lateral stiffness, I guess we will have to agree to disagree and continue with having fun with the art of wheelbuiding ...
Thank you for all the assistance you have afforded to me, appreciated ... thanks KL