Nice index. I can add some real-world detail on a few of these from jobs we've actually run:
Automotive — seat frame (UHSS 980MPa): The servo advantage here is the slow-speed forming zone. We run 8 mm/s through the draw at 300T, then fast return at 250 mm/s. On our old mechanical press the same part needed a 600T frame because you couldn't control the speed through the work zone. Die life went from 40K hits to 110K hits just from the speed control.
Electronics — connector terminals: This is where servo precision really shows. We stamp 0.2mm phosphor bronze at 120 SPM with ±0.01mm feed accuracy. The key is the pendulum motion profile — short stroke, high speed, minimal slide travel. Our Aida does 0.8mm total stroke for the coining station. Try that on a mechanical press.
Medical — surgical instrument blanking: Haven't done this ourselves but visited a shop that does. They run 17-4PH stainless at very low speed (2 mm/s) with force feedback that adjusts in real-time based on material hardness variation. Each blank gets a force curve stored with a serial number for traceability. FDA requires it for Class II devices.
Would be great to see more people add their specific application experiences here. The theory is everywhere online — it's the real numbers that are hard to find.