This is a bit overdue (okay, long overdue) but I figured it's better late than never. If you're following me on Instagram or Facebook, you already know that I had to replace my clutch in 2018. It wasn't so much because the clutch failed. It was actually the clutch slave cylinder. Why would I need to replace the clutch if my slave cylinder went? Well, Ford had the genius idea of putting the slave cylinder inside the transmission. Ok, this isn't entirely fair. Putting my engineer hat on, I can see how this makes sense. If you put the slave cylinder in, it's outside of the elements and should theoretically last longer. Unfortunately, Ford should have invested in a better slave cylinder for this to be a great idea, not one that can't make it past 22,500 miles (36,000 kms), albeit with track use - which probably exacerbates the problem because of the additional heat and higher temps. But I digress. At any rate, the slave cylinder went. Most people would replace
A few weeks ago, I made a post explaining mainstream AWD system types and how they compare , pros and cons, etc. including some simple diagrams to show where the power goes and how much. As promised, this post will focus on specific cars and what AWD systems they use, especially ones that that have more or less been defined by their AWD systems, and the best place to start may be with a bombshell; the Nissan GT-R. Nissan GT-R (R35) The GT-R has built a reputation around having monster traction and very approachable performance, thanks to its AWD system - Advanced Total Traction Engineering System for All-Terrain (ATTESA) - and what it can do for you. But the GT-R doesn't actually use the most mechanically sophisticated type of AWD systems discussed in the previous article, namely a "true" AWD with a centre differential. Instead, it uses a clutch pack to transfer power. RWD-based clutch-type AWD schematic - Rams Eye The Track Guy © The R32, R33, and R34 Sky