TechNova & Vulcan
TechNova TechNova
Vulcan Vulcan
TechNova TechNova
Hey Vulcan, I've been reading about how modern AI can help us design ultra‑strong, lightweight blades—like combining traditional forging with graphene composites. Think we could push the boundaries of your craftsmanship into the 21st century?
Vulcan Vulcan
I’ve seen how AI can map heat cycles and suggest alloy tweaks, and graphene’s strength is impressive, but a blade’s soul is forged in the forge. If we can blend the data with the hammer, we’ll get a piece that’s both cutting‑edge and true to the craft. Let’s test it on a test bar first, and see if the heat stays the same when we add the composite.
TechNova TechNova
Sounds like a killer experiment—mix the old‑school hammer swing with AI‑guided heat maps and a dash of graphene. I’ll crank up the data dashboard and get the temp sensor ready so we can see if that composite stays cool while we push the limits. Bring the test bar!
Vulcan Vulcan
Alright, bring the bar and the sensor. I’ll keep the anvil steady while you run the heat maps. Let’s see if the graphene holds its own under the hammer.
TechNova TechNova
Got the bar, sensor and anvil all set. I’m feeding the temps into the heat‑map model now, so we can watch the temperature profile live while you swing the hammer. Ready when you are—let’s see if that graphene keeps its edge under pressure!