School me: Explain TPI, please
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School me: Explain TPI, please
Can someone explain TPI to me? Which is better for a fast-ish kevlar commute tire: Ultra Gatorskin (180 TPI) or Bontrager Hardcase (60 TPI)? What should I be looking for in a puncture resistant yet still relatively fast (yet still affordable!) commuting tire?
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It's not just about TPI, but the overall construction of the tire. The Gatorskin's 180tpi rating is actually 3 plys of 60tpi. There are some hard wearing tires that are under 100tpi, but because of the rest of the construction they are a stiff ride. On the flip side, there are some less durable tires (Vittoria) with 200+ tpi counts but very supple construction. It depends on the material used for the casing, to some extent. Cotton vs. silk casing being a huge difference.
I ride a Pasela TG, which is 66tpi with a kevlar belt and has served me well for both comfort and puncture resistance.
The RibMO is a higher puncture resistance, but only 27tpi.
Vittoria makes a track tubie with 320tpi, but I wouldn't take it off the velodrome surface.
I ride a Pasela TG, which is 66tpi with a kevlar belt and has served me well for both comfort and puncture resistance.
The RibMO is a higher puncture resistance, but only 27tpi.
Vittoria makes a track tubie with 320tpi, but I wouldn't take it off the velodrome surface.
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It is threads per inch as has been said. You may also see it called EPI, ends per inch. Euro-metric madness being what it is it is odd that it has not been converted to metric and inverted from the usual sense, micro-meters per thread or something like that. I guess I should not complain, the European bicycling industry is still charmingly unit neutral to a large extent.
Anyway a lot of the loss in a tire is due to sidewall flex. There are two ways to reduce this. One is by high inflation pressure which reduces the flex and the other is to change the tire construction to reduce the energy lost when the tire does inevitably flex. Supposedly high thread count casings have less energy loss and that is why you tend to see them mostly on high end racing tires in the narrower widths where the thread count may be 320 tpi or higher. So, in theory the 180 tpi tire will be faster than the 60, and 100-180 is as high as I have found in city/touring tires with good puncture resistance. TPI is an absolute measure that can be compared from make to make (although there is no way to know for certain that one brand's 120 TPI tire is as efficient as another's). Everyone rates their puncture resistance on their own internal scale and I know of no way to compare them. All you can do is ask people who own a given tire how it has worked for them with regards to punctures. Of course if you stick with one brand then I would imagine that the brand rating system is accurate, the tires they claim are puncture resistant should be better than their unprotected tires.
Ken
Anyway a lot of the loss in a tire is due to sidewall flex. There are two ways to reduce this. One is by high inflation pressure which reduces the flex and the other is to change the tire construction to reduce the energy lost when the tire does inevitably flex. Supposedly high thread count casings have less energy loss and that is why you tend to see them mostly on high end racing tires in the narrower widths where the thread count may be 320 tpi or higher. So, in theory the 180 tpi tire will be faster than the 60, and 100-180 is as high as I have found in city/touring tires with good puncture resistance. TPI is an absolute measure that can be compared from make to make (although there is no way to know for certain that one brand's 120 TPI tire is as efficient as another's). Everyone rates their puncture resistance on their own internal scale and I know of no way to compare them. All you can do is ask people who own a given tire how it has worked for them with regards to punctures. Of course if you stick with one brand then I would imagine that the brand rating system is accurate, the tires they claim are puncture resistant should be better than their unprotected tires.
Ken
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