I didn't read into that at all. It was a pretty broad post and you could interpret it to be about handlebars, XC hardtails, DH bikes, cranks, seat posts, ect.
Yes man, believe in da carbonz it's really making you fasterrrrr! (like gwinney)
Pretty much. Ever ride a full carbon road bike then hop on a aluminum one with a aluminum fork and handlebar?? HOLY FUKK!
That's why we got teh suspensions. Less noticeable.
Exactly. I would bet money that given the same geometry settings, with identical builds/suspension setups, nobody could pick the difference between the carbon or aluminium Demo in a double blind riding test.
Read what I actually wrote rather than jumping to conclusions. Material damping has the same effect as viscous damping in that it slows movement down by ADDING resistance. When has anybody ever cranked up the compression damping in their fork and said "wow, this is way less harsh now!"? Same stiffness + more damping does not = more compliance. Ever. Substantially less stiffness + more damping, however, can = more compliance.
Let's understand what vibration really is: vibration refers to any oscillatory motion of a structure, that is either caused by a repeating/continuing force (forced vibration) or caused by a single strong input that then allows a mass to oscillate (that mass being the bike/rider - though the rider is a LONG way from rigid). When you're flying a plane at Mach 1, you get some pretty crazy resonance going on in your airframe at insanely high frequencies - this is well worth studying, and material damping becomes pretty relevant here, especially when there is no viscous damping on top of it. The abstract of both of those articles did not mention the frequency spectrum they were investigating except to say that both free (completely irrelevant to bikes) and forced vibrations were considered.
That's why I'm bummed we can't have double blind tests on bikes like they had on snowboards for mvp awards from some magazine. What was funny is that when I remembered it very few of the most expensive space tech boards won. I'm really curious how much of a placebo is happening in mtb.
If I had $15K to burn through I would buy 3-4 or so bikes and run em through. I am just not sure how you can cover the bike and not have it effect the suspension. Guess you could go with black saran wrap and cover em tight then let the riders run em. I was waiting on a timing system to use do 5 runs on each bike take the best of the 5 and compare the times.....another option. Unless the guy riding has only been on FSR sleds and think they rule. Guess that is where the blind test comes in......
TL;DR
Yeah the Jedi and Legend we tested had same build. Well the same exact parts actually. I think that is the best route overall.
Have you ever ridden a carbon road bike versus an aluminum? The difference is instantly noticeable. What your talking about are high speed hits where the suspension is going to take the majority of the hit. What they are talking about and what most people describe with carbon is it's ability to smooth out slow speed bumps and chatter that you constantly feel during a ride.
Actually, more compression CAN make a smoother and less harsh ride on a DH bike. This is VERY frequent in the moto world. Too little compression can cause a very harsh ride due to over-oscillation and excessive transient force. When your unsprung mass gets low enough (relative to the sprung mass) this becomes less of an issue. Lack of compliance is not the only thing that causes "harshness" in a suspension system. Over-travel and over-oscillation definitely produces a similar symptom.
Suspension overshoot to the point that the spring's peak force (which is obviously at zero speed) exceeds the peak force generated by the damper (just after max speed) will indeed create higher peak accelerations/harshness than something that is controlling the stroke more and dispersing energy more evently through the stroke, this is true. Due to the high natural frequency of any unsuspended/rigid structure, the higher frequency the input (and by necessity, also the smaller the amplitude), the more relevant this becomes, and on a road bike frame where inputs are commonly in several hundred Hz (the surface roughness), through a very stiff structure (including tyres), this actually has a discernible effect. However, the inputs to a DH frame via the tyre and suspension are already extremely heavily frequency filtered, and the natural frequencies within the structure are so high relative to the forcing frequencies that peak strain (deflection) has by FAR the greatest influence on peak force transmission. Increasing stiffness substantially as carbon fibre structures are prone to doing, far outweighs the ability for increased damping to decrease peak accelerations (in a DH frame).
Which carbon dh bikes have you ridden?
Lahar DHV M9, GT Fury, both of which were full carbon, not just carbon front triangles. Had a quick punt on a V10 but not even a whole run. The main difference I found was they are nowhere near as noisy as aluminium bikes, but in terms of what you actually feel through your hands and feet, I never noticed any difference one way or another between them and any other bikes. But hey, maybe my hands have so much carbon in them that they take out all the vibrations on ANY bike...
Resonant frequency depends on the stiffness in the plane of excitation fool, look it up.
With the frame CoG it is not feel it is maths. The real cog is bike + rider. The shock weights what? 1kg? On a complete system that weights 80-100%. Do you really think that lowering 1% of weight by a few cm will be noticeable? You want a bigger differance? A longer cockpit lowers your chest which weights a lot more than your shock. You don't have to be fast or smart to notice the only place it will make the differance is mid air.
http://www.downhill-board.com/70035-kann-mir-jemand-helfen-hab-was-unglaubliches-gesehen-gefahren.html
Reread if it wasn't clear; I didn't say it made a difference (or that it didn't.), only that it could be felt.
what am I looking at here?http://www.downhill-board.com/70035-kann-mir-jemand-helfen-hab-was-unglaubliches-gesehen-gefahren.html
and its really cheap:
http://mx-extrem.de/index.php/cPath/114
just 499 EUR!
The pieces of the system with 6-10" of travel that work at a natural frequency of around 1-3Hz aren't what's going to neutralize motion occurring at 10-1000000000Hz. That's up to the tires and the other materials between the rider.
"power balance" sticker for the bike, makes the ride more stable blabla
Cause the VPFree and V10 are exactly the same bike other than shock placement
. I don't think the shock placement is what you are feeling that's noticeable.
