this post was submitted on 20 Jul 2024
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micromobility - Ebikes, scooters, longboards: Whatever floats your goat, this is micromobility

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Ebikes, bicycles, scooters, skateboards, longboards, eboards, motorcycles, skates, unicycles: Whatever floats your goat, this is all things micromobility!

"Transportation using lightweight vehicles such as bicycles or scooters, especially electric ones that may be borrowed as part of a self-service rental program in which people rent vehicles for short-term use within a town or city.

micromobility is seen as a potential solution to moving people more efficiently around cities"

Feel free to also check out

!utilitycycling@slrpnk.net

!bikewrench@lemmy.world

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!electricbikes@lemmy.world

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!notjustbikes@feddit.nl

!longboard@lemmy.world

It's a little sad that we need to actually say this, but:

Don't be an asshole or you will be permanently banned.

Respectful debate is totally OK, criticizing a product is fine, but being verbally abusive will not be tolerated.

Focus on discussing the idea, not attacking the person.

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Solar Scooters’ new E-Clipse Race Edition is a full-carbon EV motorcycle that looks like tons of fun to ride around town.

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[–] MentalEdge@sopuli.xyz 15 points 3 months ago* (last edited 3 months ago) (4 children)

Too expensive.

The more complex the structure and load profile, the more expensive it gets to design and produce.

Carbon composites are stupidly strong, but they have to be "designed". It's a composite material, so depending on how you lay out the fibres inside the material you get different properties. You can do extreme rigidity, or you can do flexibility, you can do strength in one direction only, while wasting no weight on strength in a direction where there won't be a load.

And once you make a design, you have to make it. Laying down the carbon, layer by layer, so each fibre inside the material goes where it needs to, to provide strength in all the places where it's needed.

A bike frame, even a motorized EV motorbike, is much simpler than a car.

The emissions of producing carbon composites are also absolutely massive.

It's also basically unrepairable. It can't be welded, it has to be bolted together or glued, and once broken, will never be as strong as it was as a solid piece.

[–] Robomekk@lemmy.ca 11 points 3 months ago (2 children)

In general, agree with your explanation here, but would disagree on the repairability point. Lots of carbon repair shops will repair carbon parts. Often just needs paint sanded off and additional carbon bonded on. Generally doesn’t bend and deform like metal parts, so the cracked bit can just be cut out and reinforced.

On the other hand the aluminum alloys a lot of car parts and bikes are being made of end up quite difficult to weld and re-heat-treat in practice, so no easier than carbon.

[–] MentalEdge@sopuli.xyz 6 points 3 months ago* (last edited 3 months ago) (1 children)

Aluminium is extremely easy and cheap to recycle, in comparison.

I know that carbon composite structures can be mended in a variety of ways, but like you say, it's typically done my layering on more carbon.

Depending on the part, this may or may not result in something that can serve its purpose again.

[–] Robomekk@lemmy.ca 6 points 3 months ago

Definitely agree on the recycling. Carbon fibre is a whole can of worms there.

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