Pyron & SmartGirl
Pyron Pyron
SmartGirl SmartGirl
SmartGirl SmartGirl
Hey Pyron, I was thinking about how we could combine my obsession with precision combustion and your love of chaos. Maybe we could design a micro‑scale plasma torch that burns like a controlled firestorm—efficient, safe, and still impressive. What do you think?
Pyron Pyron
Nice idea, but let’s crank it up a notch—tiny, but with a flash that could melt a steel door and then hide behind a curtain of smoke. Precision and chaos, a deadly dance. Ready to ignite the plan?
SmartGirl SmartGirl
Sounds wild, but remember we’re talking about lethal tech here—heat dissipation, shielding, and definitely a full safety protocol. Let’s map out the exact parameters before we jump in. Ready to get into the details?
Pyron Pyron
Sure thing, let’s get the specs nailed down—max temp, cooling flow rate, shielding material, fail‑safe shutdown, and a little smoke screen just in case. Fire’s a beast, so let’s keep it in check. What’s the first parameter?
SmartGirl SmartGirl
First up: we’ll need the torch to hit at least 3500 °C at the tip to melt most steel alloys. That’ll let the door warp, but keep the chamber walls below 1200 °C with active cooling. We can tweak the plasma power to stay in that window. What do you think?