- Login or Register
No account yet? Sign up
This has been the point the entire time this thread has been going! Been said over a dozen times. Key is the word OUR. Williams' solution. Not the solution for all of F1.SM wrote:"The main changes revolve around the gearbox casing and location of the differential. Like most other teams, the target is to have as much clear flow to the rear wing assembly as possible. It is clear that we have lifted the top wishbone and track rod, and opted for a Z-bone layout, which was commonly used in the early 1990s. Using a pull-rod was an easy decision for our particular design, as it means thereβs less blockage to the rear. This is the smallest and lowest gearbox we have ever made, with the most extreme driveshaft design. We made all these major decisions in March 2010 and have subsequently worked hard to ensure reliability through plenty of mileage on the dyno."
Thank you Jersey Tom, and to the other engineers here who've had a hand in motorsport, who are capable of creating lucid posts regarding more nuanced views of car design without needing to use emoticons and cartoons. I usually learn something new with your posts. Thank you for explaining things in a rational way and providing contrast to the more blind-faith tone of some of the other posts in this thread. Makes me miss 747 and riffraff, haven't seen 'em post much lately.Jersey Tom wrote:This has been the point the entire time this thread has been going! Been said over a dozen times. Key is the word OUR. Williams' solution. Not the solution for all of F1.
This "discussion" we've been having would be comical if it wasn't so sad. The practicing engineers that I know here, with working experience in open ended problems, are all saying the same thing. In real engineering work, there are few clear-cut answers.
You're very blunt, and I can see why some people have a go back - but that's a really good post.Jersey Tom wrote:For Christ's sake... talk about not seeing the forest because the trees are in the way...
I'm quoting directly from here - http://www.f1technical.net/news/15912
This has been the point the entire time this thread has been going! Been said over a dozen times. Key is the word OUR. Williams' solution. Not the solution for all of F1.SM wrote:"The main changes revolve around the gearbox casing and location of the differential. Like most other teams, the target is to have as much clear flow to the rear wing assembly as possible. It is clear that we have lifted the top wishbone and track rod, and opted for a Z-bone layout, which was commonly used in the early 1990s. Using a pull-rod was an easy decision for our particular design, as it means thereβs less blockage to the rear. This is the smallest and lowest gearbox we have ever made, with the most extreme driveshaft design. We made all these major decisions in March 2010 and have subsequently worked hard to ensure reliability through plenty of mileage on the dyno."
This "discussion" we've been having would be comical if it wasn't so sad. The practicing engineers that I know here, with working experience in open ended problems, are all saying the same thing. In real engineering work, there are few clear-cut answers. There are no big solutions that work for everyone, nor all the time. As an aside, this is what drives me nuts about posts on FSAE.com. There are a lot of inquiries - and as much as I want to I'm not going to generalize about them or where they typically come from - to the effect of "How do I design the brakes?" ... "What's the optimum material for my uprights?" ... "What's the best value for caster and KPI?"
There is no single set answer. Given a problem and a set of rules, you don't just click the "Optimize Button" and spit out the best answer every time. These problems are not like this-
Classroom Engineering
"Find the minimum of this function."
This is a bit closer, but still a simplification-
FSAE-level Engineering
"Find the global minimum of this multivariate function." (Which computationally is not trivial, and is really easy to get stuck in a local minimum rather than global - especially if you're only looking along ONE tiny slice of it, e.g. the CG of the damn suspension linkage by itself)
Here's more like what we're looking at-
Pro Motorsport Engineering
"Here's a rough idea of what you're looking at. Try and figure out what the problem even is, because it's not really even defined. The number of variables you have to worry about is somewhere between 1 and infinity - depending on who you talk to, and the people who claim they have all the answers are usually full of ---. You have 5 minutes to find the global minimum, and at some point between 2 and 4 minutes in, the problem is going to change. Also, you will lose partial credit for every minute you take to solve the problem, even if you get it entirely correct at the end of your allotted time."
To sum this thread up - Gross, unrealistic oversimplification leading to silly questions and even sillier answers. Are Ferrari going to win some races with a pushrod setup? Absolutely. Are Red Bull going to win some races with a pullrod setup? Absolutely. Is there one answer that works the best for everyone? NO.
Indeed, I'm from New Jerseyubrben wrote:You're very blunt
This is the full interview Tom. Remember sometimes journalists will edit interviews to make the content easier to read. Then again i think it might be a different interview all together.Jersey Tom wrote:For Christ's sake... talk about not seeing the forest because the trees are in the way...
I'm quoting directly from here - http://www.f1technical.net/news/15912
SM wrote:"The main changes revolve around the gearbox casing and location of the differential. Like most other teams, the target is to have as much clear flow to the rear wing assembly as possible. It is clear that we have lifted the top wishbone and track rod, and opted for a Z-bone layout, which was commonly used in the early 1990s. Using a pull-rod was an easy decision for our particular design, as it means thereβs less blockage to the rear. This is the smallest and lowest gearbox we have ever made, with the most extreme driveshaft design. We made all these major decisions in March 2010 and have subsequently worked hard to ensure reliability through plenty of mileage on the dyno."
Q: Can you speak about the gearbox casing and differential?
The main target was to clear all the area to the rear lower wing because it's a performance differentiator now. You've got to have the underside of the rear lower wing completely free, so we took the decision to lift the top wishbone and the track rod and went to a Z-bone layout which was commonly used in the early nineties to get that all above the underside so that all the weight is all inline with the trailing edge of the legality box, so you are nowhere near the underside of the rear lower wing and it's completely free airflow.
The pull rod was a no-brainer because it doesn't matter what you do with a pushrod, even if it's swept forwards or backwards you've got a load going into the rear lower wing, whereas a pull rod is completely out of the rear lower wing. That was an easy decision. Then the other thing was to clear the centre of it by lowering the gearbox. We dropped the top section as much as we could and so it's the smallest box we've ever made. We took that decision in March last year and we've done quite a few thousand kilometres on the dyno with that rear end. That was quite a big step on driveshaft angle, definitely the most extreme I've seen. The people we did the driveshaft design with had never done anything that extreme before. It was quite a big programme.
Q: Is there no performance loss with that degree of angularity in the joint?
It's pretty small with the tricks they've got nowadays, pretty impressive stuff.
