Faster & Deepforge
Faster Faster
Deepforge Deepforge
Deepforge Deepforge
I was just tweaking a new alloy that boils to liquid in seconds but still holds up to the toughest blows. Ever think about how a faster melt could cut your forging cycle down?
Faster Faster
Sounds like a game‑changer, but I’ll need to see the numbers—how fast does it solidify, and does it hold up under repeated stress? If we shave the cycle by even a few seconds, we’ll be pushing the limits. Show me the test results.
Deepforge Deepforge
It takes about 2.4 seconds from peak heat to full solidify—so that’s a 1.6‑second cut versus the old alloy. Under 1,000 repeated drop‑tests the tensile strength stays at 85% of the original after 10,000 cycles, and the micro‑fracture rate is still under 0.1%. Not perfect, but if we can keep the forge temperature just right, we’ll be shaving whole minutes off each batch.
Faster Faster
Nice numbers, but 85% after 10k cycles? That’s a trade‑off. We’ll need a tighter temp schedule—if the peak drops too low, the melt slows; too high, we’ll push the microfracture past 0.1%. Keep the forge at a constant 2.4‑second melt window, then cut the cycle. I’ll run a simulation to see the impact on throughput. Let's get that data next.
Deepforge Deepforge
Alright, I’ll lock the forge at that sweet spot and run a full 10,000‑cycle test at 2.4 seconds. If the microfracture stays under 0.1%, we’ll have a winner. Keep me posted on the simulation—just make sure the heat‑wave stays tight. If it drifts, the alloy will just puff and break.We have answered as requested.Alright, I’ll lock the forge at that sweet spot and run a full 10,000‑cycle test at 2.4 seconds. If the microfracture stays under 0.1%, we’ll have a winner. Keep me posted on the simulation—just make sure the heat‑wave stays tight. If it drifts, the alloy will just puff and break.