Wnen you get back, there has been some great updates:
The patent Info retyped by the RB original guy:http://www.ragingbull.com/mboard/boards.cgi?board=NUKE&read=1493
...creating new materials there is a wide use of various disperse composite
materials on the base of diamonds, oxides, silicon silicates or nitrides, titanium, tungsten,
zirconium, vanadium, molybdenum, boron, aluminum etc., covered with shells of one or
several metals: nickel, cobalt, silver, copper, molybdenum, tungsten, titanium, aluminum, tin,
lead, zinc, zirconium, metals of the platinum group, etc. These materials are used in the
processes of depositing various (for example, strengthening, abrasive, abrasive resistant,
heat resisting with no magnetic permeability, and also as a conductive phase in composite
resistor) coatings upon the product as well as for creating high-strength structural composite
materials. Metalization of initial powders leads to the absence of contacts between the
particles of the carrier material among themselves, i.e. to matrix structure of mascroscopic
compositions in the product. Besides the deposition of coatings, being diffusion barriers for
atoms of initial powders, allows to suppress recrystallization during the process of
manufacturing the product by sintering method. It opens a possibility of making the stable
materials with a super small sized grain. Besides that the DCM can be used as an
intermediate material during soldering or welding various ceramic and other nonmetal items
with metals, for example, as a solder for junction of high temperature superconductors
(HTSC) of electrolytes with current leads. Coating material for this method can be, for
example, silver, which is one of few metals not interacting with oxygen HTSC materials and
used for treading low resistive contacts.
Chucka
and:
uq.oz.au
webcom.com
Model 1000: Resistance and Persistent Current in a
Model 1000: Resistance and Persistent Current in a Ring. Watch as the resistance of a superconductor drops suddenly to zero at its critical temperature. Use the unique ring-shaped superconductor to store a current that could literally last for trillions of years, and explore other properties of superconductors. This kit reinforces the basics of electromagnetism, and demonstrates the vast potential of superconductors in applications such as electrical energy storage, levitating trains and medical imaging. A convenient probe holds the ring-shaped superconductor on a brass disk with an imbedded temperature sensor and a four-point resistance measurement hookup. Also included are electronics for converting temperature and resistance
signals for measurement with an ordinary voltmeter,
rare-earth magnet with holder, compass, liquid nitrogen cup and manual.
Temperature readout can be calibrated to read in °K or °C.
Price: $195.00
superconductorweek.com
" A Brief History of Superconductors
The first discovery of a superconductive material took place in 1911 when a Dutch scientist named Heike Kammerlingh Onnes
cooled mercury down to -269° C. Practical difficulties involved with refrigeration meant that this phenomenon was of mostly
theoretical interest until 1986, when new materials were discovered that became superconductive at -173° C. While this may
still seem incredibly cold, it is far easier to reach these temperatures in an industrial setting. The discovery of these "High
Temperature Superconductors" has created vast interest and an entire industry dedicated to the research and commercial
development of these materials and their applications. International competition is strong in these materials, and current efforts
involve many facets of the electronics, power, medical technology, transportation, and materials processing industries.. " NUKE HAS BROKEN THRU THE TEMPERARURE LEVEL from minus 200 F to higher temps!IMHO- this will be a 50 BILLION industry in 10 years...mininum...from the infancy of superconductors some 15 years ago that only could run super cold...NUKE will run at HIGH TEMPERATURES. Interconect the dots and the matrix of the innerds of any computer application, onlt the small CHIP is mentioned, but read Rambus, this is BETTER....not multiples og 8 as there...but by HUNDREDS when developed. WE HAVE A PROTOTYPE! In that we have the Diamond and Dust Matrix to break down resistance, thus HEAT, therefore we have speed and coolness! No Wear- No Spears needed as we have today...no spear parts! In the ...future!
Future SHOCK ...a book we read in the 70's ...in 99 it's the SUPERCODUCTOR BIRTH AND EVOLUTION that will SHOCK, everone!
Chucasemisuperconductivity- totally bull. Not BEAR- BULL on NUKE- NUKE the shorts. |
