Recrystallization temperatures for different metals… Nickel---600C,
Iron---450C, Copper---200C, Aluminum---150C, Zinc---Room Temperature, As depicted in the table above, even if copper can be used as a replacement for Nickel in the Rossi reaction, the operating temperature of copper nano-powder will be very low. Quiescence will occur at a very low temperature. Also, the accumulation of copper in the nickel powder will poison the Rossi reaction over an extended running time. Alloying can increase the recrystallization temperature. On Sun, Jan 15, 2012 at 12:21 AM, Axil Axil <[email protected]> wrote: > FYI > > Factors affecting recrystallization > > > http://en.wikipedia.org/wiki/Recrystallization_(metallurgy) > > > > > On Sat, Jan 14, 2012 at 7:53 PM, Axil Axil <[email protected]> wrote: > >> 'Quiescence' – a detailed causation speculation. >> >> >> >> My theory of E-Cat operation states that polycrystalline tubercle >> structures in the nanometer size range on the surface of micro sized nickel >> particles will dissociate molecular hydrogen (H2) into hydrogen ions >> (protons) based on patch field electrostatic interactions with Rydberg >> atoms. >> >> >> >> If you need a refresher on my theory, see: >> >> >> >> http://www.mail-archive.com/[email protected]/msg55135.html >> >> >> >> A varied and random polycrystalline tubercle structure is required to >> load protons into the micro-powder. Quiescence is caused by a >> disintegration of this polycrystalline tubercle structure either by melting >> the tubercles causing recrystallization of the tubercle thereby making the >> crystal structure of the micro powder more homogeneous. In other words, the >> tubercle crystal structures will tend to revert to the default (111) FCC >> crystal orientation. This recrystallization process will proceed at a rate >> proportional to the temperature point above nominal levels. >> >> >> >> This realignment should occur somewhere below 1000C but become >> increasingly less probable as the powder operating temperature is decreased >> into the 600C range. >> >> >> >> The operational temperature of the Rossi powder may range at plus or >> minus 50C centered on 600C. >> >> >> >> Since Rossi controls this powder temperature manually, this tight optimum >> power operating temperature range is impossible to maintain leading to >> quick powder spill over catalytic failure. >> >> >> >> A fast reaction National instrument control system is required to make >> negative feedback adjustments using temperature sensors to keep the >> operational temperature of the Rossi powder in the 600C + or - 50C >> temperature range to keep the powder from exceeding specification for high >> temperature operations so that destructive recrystallization does not occur. >> >> >> >> >> >> >> >> >> >> >> >> >> >> >> > >
