The questions keep rolling in, which is fantastic, and the questions not only give good topic ideas on their own, they also kick that lonely brain cell into hyperdrive and dredge out more good stuff to talk about. We recently got two questions, one from Anthony in Washington State and another from Donny in Singapore, and though they're very different questions they wind up relating back to the same start point. Anthony has had good experiences with both Rolf paired spoke wheels and "normal" wheels (ours), and wants us to weigh in on the validity of the paired spoke concept. Donny is going to try his first wheel build, with Kinlin XR31s, Bitex or Novatec hubs, Pillar bladed spokes, and brass nipples. He wants to know if he's chosen good components (there are obviously ones I prefer, but yes these are just fine) and, more importantly, since he's quite light, can he get away with fewer spokes, or if that will compromise the build's stiffness too much. We'll excuse Donny since he certainly didn't know my enmity for that phrase of "get away with," and off we go.
The concept of paired spokes is straightforward and I'd say valid. You don't sell however many million wheels Rolf has sold and continues to sell if paired spokes doesn't work as a concept.
As you can see from these 5 star professional illustrations, the paired spoke design aims to balance the pull of opposing spokes, one against the other, and avoid the zig-zag stress pattern that the conventionally spoked rim shows.
Rolf tell us that this allows for fewer spokes, and higher spoke tensions, and lighter overall weight than conventional wheels. There are far better and more valid ways to illustrate a wheel's strength and resilience than throwing it off a building, for what it's worth.
When you look at Rolf's wheels, they indeed generally have fewer spokes than most wheels. Their weights are on the light side but not holy cow, and we don't get a spec on spoke tension but we also know that spokes, once tensioned, gain nothing from more tension. No strength, no stiffness, no nothing. They just need enough tension to keep from going slack and that's that.
What about aerodynamics? Rolf claims their wheels are pretty fast, and you can read their rundown on that for yourself. They test with a 20mm clincher, and against a Mavic Ksyrium SL, which we know has similar aerodynamic benefits to your average cereal box.
I think that Rolf wheels are generally ok. The whole reason that we sell wheels built with Astral rims, which are Rolf rims sold to the wheel builder market with conventional spoke drillings, is that I was in a shop in San Diego that had a bunch of Rolf wheels that looked like they had quite nice rims and I struck up a conversation with them just as the Astral project was starting. I've never seen a set of Mavic Ksyrium SLs and thought "oh man, we're missing out if we can't build with those rims!" And on their higher end wheels, Rolf's hubs are made by White Industries, and you don't need to be told how I feel about White Industries.
The issue with balancing the stresses as paired spokes do is that this leads to stress concentrations. It's not uncommon to hear of spoke pull throughs with paired spoke wheels, and then stuff like this can happen (not to be snuff porn about it, but I came across this photo recently entirely unrelated to this post).
Not a WI-built hub
When you concentrate stresses, stresses sometimes bite back. And yes, we've seen hub shell failures on other "normal" brands, too. Also, I have no idea what's going on with the bigger non-drive flange. That's just weird and backward to me.
So overall, it's none surprising to me that Rolf wheel owners would have a generally good experience, but I certainly don't think that their engineering is a dead lock world beater either.
So how does this relate to Donny and his wheel build? Well, this is Donny's first wheel build, and if he's anything like me, his first wheel build won't be as good as his 100th, and his 100th won't be as good as his 1000th, and he'll still continue to improve after that. So some room for error on the first build is good. And he's using good components, but not great components.
The fewer spokes you use, the more important each one is to the structure, which lowers room for error. Also, each spoke is a point of control. Committed readers will be familiar with my use of that phrase. "Points of control" is sort of how I articulate "avoiding the zig-zag deal" from the illustration at the top. And, just plainly, it's going to take some skill to get the wheel durably straight and round for a first time builder using that few spokes. I sure as heck wouldn't recommend fewer points of control and more importance of each point.
Kinlin rims are good, not great. They don't have the extrusion quality that HED does, and their joins not infrequently require some artful manipulation to get right in the build. A good builder can sort these out and repeatably build good wheels with them, but they will challenge a novice builder. Bitex and Novatec hubs don't typically have superb geometry, so making sure all the non-drive spokes have enough to keep from going slack will require excellent tension equalization on all of them. The Kinlin rim's extrusion quality is going to add a bit of challenge there, but Donny's inexperience will add much more challenge. We sure don't need to make this harder.
And then finally we get to the standard phrasing of "how few spokes can I get away with?" When I tell you that this question is always phrased this way, it is ALWAYS phrased this way. Why? Is it some kind of guilty conscience that the zeitgeist imparts on people trying to build with few spokes? Do they know they're tempting physics and fate? Tough saying, but it's gotta be something. There are a few reasons to try and use as few spokes as possible. The big one is just plain artistry, and I can get that. It's not my gig, but I get it. Another is losing every gram you can, and though some of this falls under art, we know that weight doesn't matter nearly as much within these levels as people perceive that it does, and there's a point of reversing returns - making stuff lighter makes it worse. And then there's making things as aerodynamic as possible.
I didn't address Donny's build stiffness concerns in this one, and that will come at another time. This one is long enough as is.
A brief post-script. We enjoy writing these, and though we're not crazy about having the time to do it, we're happy to do what little part we can to offer this distraction to help increase the likelihood that you'll be able to do the right thing and stay away from other people. And the emails and comments have been awesome. So thank you all for that. We of course would love to increase the "doing well" factor of "doing well by doing good" when the world returns to a semblance of normalcy, and one of the big ways we do that is through reach. So if you enjoy what we're doing, it's helpful to us if you share and let other people know about it. Thanks.
10 comments
Hi Adam -
They’ll be just fine.
Dave
That’s crazy! I think I might have been the legit one. The gist of my question was about novice builders and spoke selection. Donny is using Pillar bladed spokes. I’ve only built a few wheels and not surprisingly found that I can build better (and faster) with bladed spokes than round, so am curious if you would tend to recommend to the novice builder who doesn’t want to pay retail for CX-rays to consider pillar bladed or if the differences in quality between sapim and pillar are so great they’d be better off to use sapim round spokes with perhaps a slightly less precise build.
I know a blanket answer is impossible as everyone has to weigh the extent to which an extra dollar or two for CX rays is worth it to them, so mostly just curious the extent to which Sapim is the one spoke that rules them all and so should just find the spoke in their line-up that fits their budget.
We got about 100 spam comments on this post and I nuked a legit one. Sorry. If you re-post I won’t nuke it again.
I have worked on wheels for about 40 years and I have often worked on both paired spokes and regular type wheels .
I would state categorically that I would favour regular laced wheels. The paired spokes using high tension calls for beefier rims on the bottom of the rim where the nipples fit . That equates to weight in the wrong place. A disc rotor has its weigh near the hub and doesn’t affect a wheel as much. ( which is where most manufacturers are going)!
As far as the strength of a wheel it is all about even and correctly tensioned spokes . I have built wheels with 20 frt and 24 rear without issues but for heavier riders 32 hole is the way to go . For social riders of 80 kg and heavier rather go for 36 hole for road bikes because of higher tire pressures and bumpy roads. The narrowness of the tire is also an issue and most new road bikes are using wider tires. ( manufacturers claim lower rolling resistance) The single most cause of broken spokes is uneven tensions . Other problems are under tensioned spokes. It is more difficult to get the tensions correct with butted spokes but in the long run they build a better wheel because you can get the spokes tight and don’t risk broken hubs or broken rims because of the amount that a db (swaged) spoke can stretch . Refer The bicycle wheel by Jobst Brandt ( he has tested their breaking point ) I am in the process of writing a manual for a great wheel without the prerequisite of being an engineer ! It explains how to use sound ( tones ) , feel and how to correctly use a tensiometer and using a radar graph to illustrate the tensions in your finished wheel .
They say that one has to do repetition work for
10 000 Hours to become proficient with your chosen work. ( there must also be sufficient talent& passion)
I’d validate the paired spoke argument,What’s not discussed is how much force is applied to rims with spoke loadings the science is not too tough , all things must be equal ,so the zig zag pattern can load the rim up by approximately 6:1 , 1 kg of spoke tension requires 6 kg to be maintained in the rim. Side by side is 1:1 as there’s no trig to be done, it’s exactly equal opposite. So in theory it’s clearly better, the spoke seats may need to be reworked to take this but throughout the rest of the rim drastic material can be removed as it’s not required to hold opposing spoke tension in the same way. Aero out the window and no consideration here.