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Evaluation of in-situ cemented backfill performance. Rept. of Investigations/1991

Technical Report ·
OSTI ID:5249176
; ;

As part of its research program to investigate ways of improving resource recovery and reducing subsidence, researchers from the U.S. Bureau of Mines placed instruments in the B-North ore body of the Cannon Mine, Wenatchee, WA, to monitor cemented backfill and rock deformation during mining. The vibrating-wire guages proved to be reliable and versatile, and approximately half of the instruments are providing data after 2 years of use. A two-dimensional, finite-element model was used to analyze the Cannon Mine's multilevel bench cut-and-fill mining method and predict rock and backfill displacements. The model accurately predicted rock displacements, but the predicted and measured displacements in cemented backfill had a correlation coefficient near zero, indicating that the model should only be used to predict rock displacements and not backfill displacements. A finite-difference model was also used to evaluate the stability of a cemented backfill pillar. Results can be used to conservatively predict backfill stresses, but on-site observations of pillar failures coupled with in situ measurements are needed to make more accurate predictions. An ongoing evaluation of the mining system has indicated that filling the primary stopes tight to the back with cemented backfill allowed these pillars to carry overburden loads soon after the cemented backfill was placed.

Research Organization:
Bureau of Mines, Spokane, WA (United States). Spokane Research Center
OSTI ID:
5249176
Report Number(s):
PB-91-230334/XAB; BUMINES-RI--9360
Country of Publication:
United States
Language:
English

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Related Subjects

01 COAL, LIGNITE, AND PEAT
012031* -- Coal
Lignite
& Peat-- Underground Mining-- Strata Mechanics & Control-- (1987-)
BACKFILLING
BUILDING MATERIALS
CEMENTS
COAL MINING
CONTROL
DEFORMATION
ENGINEERING
EXTENSOMETERS
FIELD TESTS
FINITE DIFFERENCE METHOD
FINITE ELEMENT METHOD
FORECASTING
GEOLOGIC STRATA
GEOLOGIC STRUCTURES
GROUND SUBSIDENCE
IN-SITU PROCESSING
ITERATIVE METHODS
MATERIALS
MATHEMATICAL MODELS
MEASURING INSTRUMENTS
MECHANICAL STRUCTURES
MINING
MINING ENGINEERING
MONITORING
NUMERICAL SOLUTION
OVERBURDEN
PERFORMANCE TESTING
PROCESSING
STABILITY
STATIC LOADS
STRATA MOVEMENT
STRESS ANALYSIS
SUPPORTS
TESTING
TWO-DIMENSIONAL CALCULATIONS
UNDERGROUND MINING