I don't think you can say the engine can operate at full load for that distance, for me you would have to specify what full load is first at a minimum. Is it full revs? Is it peak power (HP)? I s it peak torque or is it peak volumetric efficiency? Now the designers design for a mixed bag of all these factors, you cannot claim if it is designed for that purpose it will be O.K as these engines are pushed to the limit and to a degree are experimental! If I can give you an example, I can't remember if it was Cosworth or Renault but it was one of them and they found the first or major problem with extra milage was the blocks cracking. Now this is a stressed member, if you ride curbs and the block is borderline it would I think be reasonable to shorten the life by pounding away at the mounts if the block is the weak point.
Now as to it being Vettel's mechanics they do not have any thing to do with the engine assembly and may not even fit the engine to the car. Renault would normally do the fit but I don't know their specific arrangement so I would bow to anybody who knows differently.
As to thermal loads being considered of course they are, however you can only have one set of optimum settings, as such if you make lots of allowances you will end up with a compromised engine. Give you this example, piston to wall clearance, these are very short slipper pistons. That means the skirts which guide the pistons are short and this means that every bit of clearance you use will give you extra rock of the piston in the bore. This ruins your ring seal and that ring seal gives you your power. So run a sloppy clearance and get lots of blowby and loose power because of this.
So if they are using 2618 alloy this is a high expansion aluminium and will expand faster and more than the bore, so if you got the engine really hot like Button did in Monte Carlo, game over. That is an extreme example. So the same applies with the fuel mixture. Most engines will operate and produce the best power at approx 12.8 to 1 these engines are probably around 12.3 due to the oxygenated aspect of the fuel, that is the bio component. If you lean that out to 13 to 1, be sure of this it is not designed to operate like this all the time and also I would imagine that the drivers when in this mode are probably told to get clean air as sucking in hot air would probably be the last straw for the engine.
We also know there has been lost of redesigns of the Renault engine, to me it appears to be a good engine is certain respects and Newey likes it because of the packaging but it has had its problems and Vettel may just push it too hard?
I think you could have an argument over which is worse, the driver who crashes like Webber or the guy who breaks his car like Vettel, that is not about speed so much but who actually gets to the finish line.
ringo wrote:928, what you are saying has some truth, but it's a little exaggerated.
An engine that is designed to do 2,200km on full load, does not catastrophically fail at 1600km because of one driver using it like it's supposed to be used.
Pressure vessels have certain factors of safety that have to be adhered to, especially when in proximity to an operator; such as a driver.
Whatever thermal loads, it's all considered in the design of the engine by a certain factor.
Unless you can mathematically demonstrate why one driver pressing a computer moderated pedal and paddle shift can force his engine to blow 3/4 it's life cycle, it cannot be concluded that Vettel overdrove his computer limited engine.
All Vettel can do is press a pedal and flick a paddle. These are the only driver inputs. Curb riding doesn't cause a catastrophic failure either.
Take for example the failure of Sutil's engine in Suzuka. No way to blame the driver's habits or, recommended by the engine maker, fuel mixtures.
You know a lot of the details of the make up of a race engine, but there is still no correlation as to what the driver is actually doing to influence the failure, or even if lean mixture, recommended by the engine maker can cause such a visually chaotic failure.
It's easier to imagine and more likely the engine was put together improperly by Vettel's mechanics. His repeated mechanical troubles points to the people who work on his car. They actually established a trend for themselves this year.
Webber being on the team the longest probably has the most experienced and detail oriented mechanics. Redbull should hold a mechanics meeting and have Webber's Mechanics retrain Vettel's.
