Hi All!
For those wishing for the summary at the beginning, let me say Thorn (via their designer, Andy Blance) did a terrific job designing my Sherpa 560S. It is fun to look at why it handles so well, and how changes in fork rake and tire size can affect handling. In sum, it is largely pointless to substitute a fork with different rake, even though they are available. If one wishes to change handling, the most straightforward way to do so is by changing to wider/taller/larger tires or narrower/shorter/smaller tires in identical pairs or closely-matched pairs, front/rear.
The detail-oriented can read on...
I am terrifically pleased with my Sherpa, and have no intention of doing anything to alter the handling. It works beautifully and is the ideal un/loaded all-rounder I had been searching for. I could have built my own heavy tourer from scratch, but choosing to buy one ready-made from Thorn says something about how "ready-right" a solution it is.
As a hobbyist framebuilder with a longtime interest in the geometry of framebuilding, I became curious about the geometry of mine and, by extension, others (the geometry and trail of small-wheel folders is
really interesting!). Though my comments are specific to my Sherpa 560S, purchased August 2011, they might or might not reflect on Thorn's general design philosophy at the time. I am spot-on the physical average in all dimensions for my age cohort, so perhaps my 560S can be taken as a proxy for the "average" Sherpa.
My Sherpa 560S' geometryFor those who are curious, my geometry follows (measured with high accuracy on my framebuilding fixtures; the measurements almost exactly match the figures from the
Cycling Plus March 2007 article titled, "Super-Tough Tourers", available in PDF form from Thorn's own website (Reviews section)...
http://www.thorncycles.co.uk/thornpdf/CP194SherpaReview.pdf(My measurements taken in metric units; inch conversions rounded to nearest whole 1/10th inch)
Danneaux's 560S Sherpa Top tube: 56cm/22in
Seat tube (c-c): 50cm/19.7in
Chainstays: 44.5cm/17.5in
Wheelbase: 107cm/42.1in
Head tube angle: 70.5deg
Seat tube angle: 72.5deg
Fork offset: 52mm/2in
Trail: 63mm (62.93mm), given an overall wheel *radius* of 333.5mm w/Schwalbe Dureme 26x2.0 tires@5bar max. pressure for measurement
BB height: 295mm/11.6in with Schwalbe Dureme 26x2.0 tires
Standover height @ mid-top tube: 795mm/31.3in with Schwalbe Dureme 26x2.0 tires
Alignment of the rear triangle was spot-on, as was the head tube-seat tube. The fork is a bit wide at the dropouts, but the.dropout faces are parallel.
Handling/design philosophy and TrailAlthough a comprehensive discussion of bicycle geometry and how it affects handling is beyond the scope of this posting, it is sufficient to introduce the topic by saying a major determinant of handling is trail (the result of head tube angle and fork rake; trail is the difference between the lines intersecting these points at the ground plane, and is affected by wheel diameter and tire size (a large tire will result in a larger-diameter and vice versa).
In turn, trail measurements fall into three broad categories: low, neutral, and high; each category results in specific handling characteristics for the bicycle, each optimal for a different purpose.
Here are some general characteristics of each trail category...LOW TRAILGenerally speaking, a low-trail bike will will require a deliberate effort to lean into a corner and to stand back up again on exiting corners. As speeds increase, the bike will tend to rise out of a corner on its own. At low speeds, the bike will tend to go straight and will do so with little rider input. This makes low-trail frames highly prized by fatigued randonneurs and by those who also tend to carry weighty handlebar bags low over the front wheel; low trail bikes don't need a lot of minding at speeds below 30mph/48kph and tolerate weight well in that location. Unfortunately, there's a downside -- at higher speeds, the stability goes away along with steering feel and there is a greater tendency to shimmy with or without a load.
NEUTRAL TRAILMost of the recent published studies on trail-affected geometry have been 700C-specific. With that wheel size, a "neutral" trail falls into the 56-59mm range with 57-58 being the golden mean, but can extend from 50-63mm, depending on builder philosophy and intended purpose. The result is a frame that steers pretty much the same regardless of speed, one that will hold a line without much rider intervention and will corner neutrally (no bike-initiated diving into or climbing out of turns).
HIGH TRAILLike a low-trail bike (and unlike the bike with neutral geometry), the handling if high-trail bikes varies with speed -- but in the opposite way. High-trail bikes tend to exhibit light, lively handling at low speeds, which really helps when manhandling large touring loads at slow speeds on rough roads and goat tracks. They tend to take tighter cornering lines and are as happy to be steered as leaned, and stability/resistance to shimmy increase with speed. The downside here is if you're tired and grumbling along at low speed, a high-trail bike can require more conscious minding on the part of the rider in return for more sporty low-speed handling. At rest, a high-trail bike will exhibit a lot of "wheel flop" -- when leaned even slightly while standing across the bike, the fork will whip around like a horse biting a fly. It is nice to have stability increase with speed, but there can be a tendency to corkscrew into corners (tightening your line) if you're not used to the handling. You probably won't need to lean as deep into corners to turn, and you can "steer" the bike a bit like a bus with a flat steering wheel.
At 63mm of trail, this (my 560S) Sherpa on 26x2.0 tires falls into the category of a "high-trail" frame, consistent with its actual handling and is appropriate to the task of a heavy-tourer with lively low-speed handling and increasing stability with increasing speed. It behaves exactly as I (or anyone) would (should) expect of a somewhat high-trail frame. It is at home and happy unladen or loaded, with easy steering easy steering either way, and really reassuring high-speed handling.
But...what would happen if one wished for heavier, more stable steering at low speeds or the effects of lower trail, mitigating some of theSherpas's baked-in characteristics with a dose from low(er) trail bottle?
Glad you asked...SJS Cycles sells Sherpa forks in a choice of 4 rakes: 43mm, 46mm, 52mm (as came on my 560S Sherpa), and 59mm.
Playing with forks and Danneaux's wide tires...what happens if we change the original 650S' 52mm-offset fork for another?If we hold constant for tire size (keeping the 26x2.0 Schwalbe Duremes I use) and run the numbers through the calcublender, here's the trail results provided by each of the optional forks on my 560S Sherpa:
Fork rake = Trail (26x2.0 Schwalbe Duremes @ 5bar for max. diameter measurement purposes; usual pressure of 3bar will yield a *slightly* reduced trail)
_________________
43mm = 72.48mm
46mm = 69.29mm
52mm = 62.93mm
59mm = 55.50mm
Clearly, substituting any fork with lesser rake would push this bike (my Sherpa 560S with the specified tires) too far into the high-trail category; the bike would be unpleasant or unsafe to ride for general use, with excessive wheel flop at rest, too-lively low-speed handling, and too-stable high-speed handling to be optimal.
Substituting the fork with 59mm of rake drops the handling into the neutral-trail range, and would alter the handling as noted in my comments for "Neutral Trail" above. Possibly just the ticket for dedicated randonneur use, or for carrying a heavy handlebar bag mounted low, but on balance not worth it for the loss of low-speed agility and loss of high-speed stability with full touring loads; the bike handles nicely as-designed by Andy Blance.
Playing with tires...what happens if we change to different widths for a given fork offset?Since trail is in part a function of effective wheel diameter (outside diameter of an inflated tire of a given size mounted on a rim of a given size), let's see what happens to the trail on my 560S Sherpa if we change the width/height of the tires...
Wide tires...26x2.0 (Thorn loaded touring option)We've already seen the trail for my bicycle with various forks and my 26x2.0 Schwalbe Duremes in the fork/trail discussion above, but I'll repeat the figures here for convenience:
Fork rake = Trail (26x2.0 Schwalbe Duremes @ 5bar for max. diameter measurement purposes; usual pressure of 3bar will yield a *slightly* reduced trail)
_________________
43mm = 72.48mm
46mm = 69.29mm
52mm = 62.93mm
59mm = 55.50mm
Medium tires...26x1.75 (Thorn default)Let's see what happens to the trail on my 560S Sherpa with smaller 1.75" (44mm) tires[/u] (1.75" Panaracer Pasela tires are the default option for this model):
Fork rake = Trail (26x1.75/44mm Panaracer Pasela)
_________________
43mm = 70.35mm
46mm = 67.17mm
52mm = 60.80mm
59mm = 53.38mm
What this tells us is that merely by choosing a narrower tire (remember, bicycle tires normally have a 1.0 profile where profile/height is equal to width), we can reduce the trail with any fork, but the fork supplied with the bike is still the most well-balanced for general handling and loaded touring. If we were to substitute a fork with 59mm of rake
and the smaller 26x1.75 tires, then we dip further into a true low-trail geometry (for perspective, some older Treks were commonly supplied with as little as 45mm of trail).
Narrow tires...26x1.50 (Thorn "good road" option)Now, lets go a bit more extreme. Thorn offer a 26x1.5" Panaracer Pasela "only recommended for good road surfaces". Let's see what that does to trail at all options:Fork rake = Trail (26x1.50/38mm Panaracer Pasela)
_________________
43mm = 68.23mm
46mm = 65.05mm
52mm = 58.68mm
59mm = 51.25mm
What this example tells us is the originally-supplied 52mm fork with the narrowest tires offered by Thorn ends up putting the bike smack-dab into the neutral-trail/neutral-handing zone. Switching to the 59mm fork with these narrow tires puts the bike into the upper-end of the low-trail range.
Really skinny tires...26x1.25Let's take it one step farther, with a really narrow tire, like the 26x1.25" Panaracer Pasela:Fork rake = Trail (26x1.25/32mm Panaracer Pasela)
_________________
43mm = 66.10mm
46mm = 62.92mm
52mm = 56.56mm
59mm = 49.13mm
Equivalent-diameter 650Bs rims and tires...I discovered my fork and stay v-brake braze-ons are high enough to allow the brake pads on my Sherpa to accommodate 650B rims (and certain tires that don't exceed the overall diameter of my 26x2.0 Schwalbe Duremes). The closest 650B tire giving a similar OD (668mm vs my current 667mm) is the 650x38B Grand Bois Lierre.
Let's take a look at the equivalent 650B setup:Fork rake = Trail (650Bx38mm Grand Bois Lierre)
_________________
43mm = 72.65
46mm = 69.47
52mm = 63.11
59mm = 55.68
The trail results for a given fork rake are nearly identical as for my 26x2.0 Schwalbe Duremes; not surprising, since the effective OD is only 1mm greater than what I am now running. As a happy side effect, a switch to 650B rims with 650x38B Grand Bois Lierre tires wouldn't even require a fender adjustment and handling would be virtually identical to what I now enjoy.
So...what can we learn from all this?1) If you aren't satisfied with your Sherpa's handling (if it is a 650S model; I don't have geometry for other sizes), then you might wish to replace the original fork with 52mm or rake/offset with one that has 59mm or rake/offset. For a given tire size, this will move you from high-trail geometry toward more neutral or even low-trail, depending on tire size. It just won't work to substitute a fork with less rake (waaay too much trail to be pleasant), so mark those off your list of possibilities.
2) For a given fork, a wider tire will yield a higher trail; a narrower tire will yield less trail with handling characteristics to match.
3) The original, Thorn-designed frame geometry is awfully hard to beat for all-'round use and loaded touring.
4) If you wish to change the handling of your Sherpa, I would suggest changes in tire width and/or pressure to accomplish your desired ends, rather than swapping forks. If yours is damaged, it is best to replace it with a like model.
5) Because wider tires are taller (and vice versa; narrower tires are also shorter), a more extreme change can be made by mixing
tire widths/heights on the front and rear tires. However, because width correlates to height, it would be unwise to make any F/R
difference very extreme because of differences in the comparative contact patches; handling could quickly become unpredictable and
would likely suffer with, say, a 1.25" tire in front and a 2.0" in the rear. Best to change tire widths/heights in matched or
nearly-matched pairs, F/R.
6) If you're used to running your Sherpa on 26x1.75" Panaracer Paselas and wish to go heavily-loaded touring, a change to 26x2.0 Schwalbe Duremes will not only provide more cushion and shock absorption (thanks to lower pressures), but will also optimize the handling by pushing the effective geometry (increased pneumatic trail) toward the high-trail end of the spectrum, giving quicker, lighter low-speed steering and greater stability at higher speeds (typically over 30mph/48kph).
7) If you're used to running your Sherpa on 26x2.0 tires, you can make it more stable and resistant to rider input at lower speeds and a bit less stable/more vague at high speeds by switching to narrower/lower tires (most suitable when riding unladen on good roads).
8 ) If you have a shimmy problem in/dependent of load, a switch to larger tires (wider/taller) should help, ceteris parabus (all other things being equal or held constant).
As a side note, when I asked Lisa Parsons what size tire was used to determine standover in the Thorn brochure, she told me it was the default 26x1.75 Panaracer Paselas. It seems reasonable to presume the bike was designed around these tires because they represent a midpoint between the 1.5 and 2.0 tires available in the Thorn options list. The 1.75" tire puts my Sherpa just a wee bit into the high-trail range, which is a really sweet spot for good handling and feel, with the option to gain more trail (high-trail geometry) simply by fitting wider/higher tires for heavy loads. It would be fair to say that starting with the base Sherpa geometry (at least with my 650S), the handling is almost self-optimizing according the tires suited for a given use/purpose. A little more than other bikes because of where it starts. Nice!
Handy links for more on trail, geometry, and handling...Those interested in learning more about trail as a byproduct of frame geometry and how it affects bike handling might be interested in the following links:
Bicycle Trail Calculator (jimg)
http://yojimg.net/bike/web_tools/trailcalc_dual.phpBicycle Trail Calculator (BikeRaceInfo)
http://bikeraceinfo.com/tech/trail.htmlTom Kellogg/Spectrum Cycles
http://www.spectrum-cycles.com/geometry.php#trailRandonoodler: The High Spark of Low Trail Bikes
http://www.randonoodler.com/2012/02/high-spark-of-low-trail-bikes.htmlAn Introduction to Bicycle Geometry and Handling (from the guys over at Chunk)
http://www.dclxvi.org/chunk/tech/trail/Jan Heine's Journey of Discovery
http://janheine.wordpress.com/2011/02/10/a-journey-of-discovery-part-4-front-end-geometry/low trail bicycle geometry - Google Search
http://tinyurl.com/bpu2d8tBest,
Dan.
[EDIT: Revised subheads for clarity, cleaned up some typos this edit]
