Asymmetric design

Asymmetric design: If the forces in the bike aren’t symmetrical, why should the bike be?

On a bicycle, the drivetrain is mounted on the right side, the brakes on the left side, and the suspension (usually) around the centre. When riding, the environment influences the wheels, and consequently the suspension and frame. When braking, it inflicts major forces on the left side of the bike, whereas acceleration and pedaling affect the right side of the bike.

Asymmetric design does away with the conventional stigma that a frame must be mirrored from drive side to non-drive side.

Reinforced where it’s needed, lightened where it isn’t – allow for a frame that is just as stiff, but lighter.

Asymmetric tubes allow for the dispersion of shock forces between the top tube and downtube. At the riding sag point, most of the shock forces are directed along the top tube. At suspension bottom-out, the rear shock rotates and shock forces are split between the top tube and downtube via the single-sided support strut.

XC Mountain bike ft asymmetric geometry - Stratos CF SBC - Silverback Bikes


Support Strut (Shock brace) redistributes bottom out forces between the top tube and the downtube, which in turn is triangular for a more regular force distribution. By reducing peak stresses at points in the frame, the entire bike can be constructed lighter.

Power delivered through the drive train is drive-side bias. Braking on disc rotors are non-drive side bias. To add to this, your average rider does not have equal power output in both his or her legs, but we’ll stick to the design points we have control over as designers.

On a full suspension bike, this becomes even more important to have ‘balanced’ kinematic through the middle plane of the frame, that is not bias toward the drive or non-drive side. The drive side sees long periods of loading, of relative low to medium force. Where the non-drive side sees momentaneous loading, of a far higher magnitude.So very different forces – localized to a specific side.

Larger bearing used on the drive side, which has to contend with chain forces as well.

“Quickdraw” bottle placement. Presents the bottle to the rider, where it can be seen and easily staken/stowed. Clint Eastwood didn’t carry his gun in the middle…

The Stratos is strongly based on this philosophy with profiles favoring strength towards the non-drive side.

Nothing in nature is symmetric. Riding forces are not symmetric. Why should your bike be?

View our full range of Asymmetric bikes HERE

6 thoughts on “Asymmetric design

  1. One of a kind technology, very interesting that highest results are achieved by the riders on these bikes.

  2. Sounds logic. I’m curious if you are going to add it to all the higher end bikes (trail, enduro,…)?

    1. Hi Dennis, going forward you will see this featured on most of our high-end bikes, including our new Slider.

  3. A bike that was #borntobefast

  4. Nicely designed. This bike carries several new and very interesting features. I am looking forward to throw a leg over it.

  5. Stunning design. Beautiful machine. That engineer sure knows what he’s doing.

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Asymmetric design

Asymmetric design: If the forces in the bike aren’t symmetrical, why should the bike be? On a bicycle, the drivetrain is mounted on the right



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