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Reactivity of pyrites and dislocation density

Conference ·
OSTI ID:5752263
; ; ;  [1];  [2]
  1. USDOE Pittsburgh Energy Technology Center, PA (USA)
  2. Sandia National Labs., Albuquerque, NM (USA)
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Highly reactive coal pyrites and unstable museum specimens are easily distinguished from the stable pyrites by the growth of white crystals that cover samples exposed to room atmosphere for short periods of time. Continued exposure to the atmosphere will eventually cause the specimens to fall apart. The term rotten pyrite has been applied to museum specimens that fall apart in this way. SEM studies show that reactive (rotten) pyrites contain between 100 and 10,000 times more dislocations than stable pyrites. Shock-loading of a stable pyrite to 7.5 GPa and 17 GPa increased its reactivity by a factor of two, probably caused by an increase in the number of imperfections. However, shock-loading at 22 GPa decreased the reactivity of pyrite because the imperfections produced at the higher pressure were removed during annealing the sample received at the higher temperature. Although there was a factor of six difference between the most and least reactive shocked MCB (commercial pyrite) samples, shock-loading did not increase the reactivity of the MCB pyrite to that of the Queensland coal pyrite. The results in hand show that while shock-loading produces sufficient imperfections to increase the reactivity of pyrites, there is insufficient data to show that imperfections are the main reason why some coal pyrites are highly reactive. 9 refs., 1 fig., 1 tab.

Research Organization:
Sandia National Labs., Albuquerque, NM (USA)
Sponsoring Organization:
DOE; USDOE, Washington, DC (USA)
DOE Contract Number:
AC04-76DP00789
OSTI ID:
5752263
Report Number(s):
SAND-91-1013C; CONF-910902--2; ON: DE91011736
Country of Publication:
United States
Language:
English

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Related Subjects

01 COAL, LIGNITE, AND PEAT
010600* -- Coal
Lignite
& Peat-- Properties & Composition
ACTIVATION ENERGY
ANNEALING
AUSTRALASIA
AUSTRALIA
CARBONACEOUS MATERIALS
CHALCOGENIDES
COAL
COAL PREPARATION
COMPARATIVE EVALUATIONS
CRYSTAL DEFECTS
CRYSTAL STRUCTURE
DEVELOPED COUNTRIES
DISLOCATIONS
ELECTRON MICROSCOPY
ENERGY
ENERGY SOURCES
FOSSIL FUELS
FUELS
HEAT TREATMENTS
IMPACT SHOCK
IRON COMPOUNDS
IRON SULFIDES
LINE DEFECTS
MATERIALS
MICROSCOPY
MINERALS
PERFORMANCE
PYRITE
QUEENSLAND
SCANNING ELECTRON MICROSCOPY
SULFIDE MINERALS
SULFIDES
SULFUR COMPOUNDS
SULFUR CONTENT
TRANSITION ELEMENT COMPOUNDS