The dry run MFMP dogbone test has indicated the existence of some very weird behavior in the Rossi dog bone experiment.
The MFMP dog-bone reactor places a theromcoupe both at the core and on the outside of the reactor. These thermocouples in the MFMP test shows us that the core of the dog bone is about 400C hotter than the outside surface. In the Rossi dog bone test, we are very fortunate that the temperature of the outside of the reactor got to 1400C. This implies that the core of the Rossi reactor should have reached 1800C if the two dog bone reactors had the same physical behavior pattern. Of coarse, these two reactors do not act the same. We know that there is a major difference in reactor behavior because there were a few nickel micro particles that came out of the Rossi reactor with there surface morphology in tact even though their isotope makeup was altered. A Sintering/melting test should be conducted to find out what temperature it takes to sinter or melt and destroy the surface structure on micron sized nickel particles in a hydrogen atmosphere. My guess is that that structural transition temperature would be just under 1000C. I am interested in what keeps the Rossi micro powder from sintering/melting at high surface temperatures when the reactor is in operation. We call this weird behavior the melting miracle.
