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Tensile Freewheel


TheMunn

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Be cool, Mr. JT. The only time that's a problem is if you have to strip it down, and the joy of open bearing freewheels is that if you need to relube them, you can flush them through without stripping them. How delightful.

When I was initially told on the phone they were open bearing, I was a bit sceptical 'cos I knew how shite ACS Claws felt, and how good my Eno felt. However, the Tensile's driveshell is as stable as the Enos, easily. In fact, it feels just as solid as the Eno does. Like I *think* I said in that post on OTN, there's no discernible difference between the 2 freewheels. 12 engagement points doesn't amount to much, so it's very similar. The only plain difference is the sound; the Tensile is more 'open' than the Eno in that there's not sealed bearings one side and a mud seal the other, so you can really hear every one of those pawls clicking into place.

It's a really, really good freewheel. Tart told me that he had a feeling they were gonna be £30 when they come out, and if they do, I really can't imagine why anyone would ever buy an ACS Claw (especially the Monty-branded ACS Claws...) instead. £20 more for a vastly, vastly superior freewheel. They really are that good.

I've already asked if I can buy my test one after they're released simply because it's as good as an Eno, but this one's a lot newer than mine.

According to Supercycles, you'll be able to buy spares and the like from them too, so it should be peachy, really.

www.supercycles.co.uk are obviously going to be the main distributor. I'd imagine that if a shop stocks Tensile cranks it should therefore be able to stock the Tensile freewheel as they'll have an account with SC, but I can guarantee Tartybikes and Supercycles will be the first places to be selling them.

Buy buy buy!

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The ACS's loosen themselves super easily, hence the Tensile being threaded the opposite way to an ACS. Therefore, it won't come loose - and indeed hasn't at all on mine, unlike my old ACS which took about 2 minutes to become all flappy 'n' shite.

The BB interface works super well too. The freewheel itself is a fraction wider than an ACS with no tabs, but you'll still be able to take it off without heinously buggering up your freewheel.

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Shite pictures due to the whole shiny object/dark room problem <_<

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think about the way a freewheel spins when ur coasting, then think about the way it would loosen, see my point?

Will, seriously <_<

ACS Claws loosen. All the time. That's why so many die. That's why I think there's still a thread in the FAQ saying how to weld them/glue them/break them so they never open again. The Tensile one is threaded the other way.

Think about it. The ACS goes in one direction. It loosens all the time. The Tensile goes the other direction. It's stayed tight.

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Will, seriously <_<

ACS Claws loosen. All the time. That's why so many die. That's why I think there's still a thread in the FAQ saying how to weld them/glue them/break them so they never open again. The Tensile one is threaded the other way.

Think about it. The ACS goes in one direction. It loosens all the time. The Tensile goes the other direction. It's stayed tight.

that is probarbly to do with the amount/thickness of spacers acs provide, they dont provide enough. if you put a few more in, then it wont come loose.

the reason tensiles dont come loose is because they have got the spacing correct.

i'll do a drawing if you want me to explain ^_^

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Can you answer my question please ? <_<

Erm, no, 'cos there's no set date. I think they're hoping to release them sooner rather than later (think: within 2 months?), mainly 'cos they're heckling me for reports about how it's working and so on. It's been tested extensively by Ben Slinger and Ryan, so it's almost good to go, basically.

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think about the way a freewheel spins when ur coasting, then think about the way it would loosen, see my point?

You need to think about what would happen if the lockring were prevented from moving (if it stayed with the chain) - would it unscrew or tighten with the movement of the bike.

I think:

ON A BMX - You're pelting down a hill, the chain and teeth on freewheel stay where they are, the lockring, if it made contact with the outer part of the freewheel, would be forced anticlockwise. So the lockring has an anticlockwise thread and is tightened by such contact.

ON A FRONT FREEWHEEL ARRANGEMENT:

Especially with the chain tight, the bit with the teeth on comes into contact with the lockring and unscrews it because it's the opposite way round to the BMX

The Tensile freewheel will be available in front and rear versions. Difference as discussed.

EDIT:

i'll do a drawing if you want me to explain ^_^

Go on, then. <_<

Edited by BikeDotStuffAtOnzaDotCom
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think about the way a freewheel spins when ur coasting, then think about the way it would loosen, see my point?

Coasting put's naff all force through freewheels, it actually tightens them minutely, it's the force of some fat b*****d trials rider kicking down on the pedal that loosens it I would think, due to shock loading?

Joe

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Coasting put's naff all force through freewheels, it actually tightens them minutely, it's the force of some fat b*****d trials rider kicking down on the pedal that loosens it I would think, due to shock loading?

Joe

on a rear freewheel thats true - the direction it turns would tighten the lockring

a front freewheel spins the opposite way so it gets loose.

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You need to think about what would happen if the lockring were prevented from moving (if it stayed with the chain) - would it unscrew or tighten with the movement of the bike.

I think:

ON A BMX - You're pelting down a hill, the chain and teeth on freewheel stay where they are, the lockring, if it made contact with the outer part of the freewheel, would be forced anticlockwise. So the lockring has an anticlockwise thread and is tightened by such contact.

ON A FRONT FREEWHEEL ARRANGEMENT:

Especially with the chain tight, the bit with the teeth on comes into contact with the lockring and unscrews it because it's the opposite way round to the BMX

The Tensile freewheel will be available in front and rear versions. Difference as discussed.

EDIT:

Go on, then. ^_^

<_<

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