scale-effect considerations for shear strength assessment of coal … 2018... · 2018-10-19 ·...
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Scale-effect considerations for shear strength assessment of coal mine spoilDr. Leonie Bradfield
Principal Engineer - Thiess Pty Ltd
University of Newcastle
Prof. Stephen Fityus
University of Newcastle
Dr. John Simmons
Sherwood Geotechnical & Research Services
Size Does Matter
• Coal mine spoil dumps commonly exceed 250m. There are plans to
construct spoil dumps more than 400m high
• The scale effect on shear strength suggests there is a minimum test
specimen size, and minimum test normal stress that is technically
acceptable for simulating a shear failure surface within a high dump
constructed of mine spoil
• Practicing engineers are reluctant to apply shear strength
parameters determined from standard laboratory testing due to
uncertainty regarding the significance of scale effects
• How do we determine shear strengths for modelling the stability of
high dumps?
SO DOC… YOU’RE SAYING THE SPOIL IS EXCEPTIONALLY STRONG, EVEN THOUGH IT
NEVER STANDS UP AT MORE THAN 30°?
WELL, IF THAT’S WHAT THE DATA
SAYS, IT MUST BE RIGHT…
THANKS DOC. MANAGEMENT WILL
BE SO PLEASED!
ABSOLUTELY !!!IF WE EXTRAPOLATE THE DATA BY SEVERAL
ORDERS OF MAGNITUDE, THE RESULTS INDICATE THAT YOU CAN BUILD YOUR SPOIL
DUMPS 2 KILOMETERS HIGH WITH SLOPE ANGLES OF 80°!!!
Site Engineer Laboratory Technician
Max σn= 1MPa
1. DOES SIZE MATTER?
To what degree can the grading of a spoil sample be down-scaled
to comply with device limitations, so that the influence of prototype-
sized particles on shear strength is not anomalous?
2. DOES STRESS MATTER?
Normal stress limits of test apparatus. Can the failure envelope
developed from small-scale tests be reliably extrapolated out to the
much higher stress ranges to simulate field conditions for dumps of
modern and future heights (>350m) ?
Scale Effects
What has been used until now?
• Spoil-specific strength testing is rarely performed
• For 2+ decades shear strength estimation for spoil dumps has been
based on published guidelines such as the BMA Coal (BMAC) strength
framework (Simmons & McManus,2004).
– Linear Mohr-Coulomb strengths
– Small-scale tests that simulated stresses for dumps 60-90m high
– Test data adjusted by back-analysis of failed dumps up to 120m high
– Verified in practice for dumps 30-120m high
• What about high dumps?
– For rockfill dam design there is a broad acceptance of curvilinear shear
strength envelopes
– If this was true for coal mine spoil, extrapolation of linear strength
envelopes to cover the stress range for high dumps may overestimate
shear strength to an unknown degree
τ = σ′ntan φ′ + c′
Shear Strength Parameters
Spoil
Category
Unsaturated SaturatedRemoulded
c‘ = 0kPa
γ
(kN/m)
C’
(kPa)
Φ’
(deg)
γ
(kN/m3)
C’
(kPa)
Φ’
(deg)
Φ’
(deg)
118
(1)
20
(10)
25
(2.5)
20
(1)
0
(0)
18
(3)
18
(1.5)
218
(1)
30
(15)
28
(3)
20
(1)
15
(7.5)
23
(2.5)
18
(1.5)
318
(1)
50
(15)
30
(2)
20
(1)
20
(10)
25
(2.5)
18
(1.5)
418
(1)
50
(15)
35
(2.5)
20
(1)
0
(0)
30
(1.5)
28
(2)
Parameter standard deviations in italicised parentheses
Spoil Categorisation Table
Category 1 2 3 4
Description
Attributes
Weighting
(excl. Age)
Fine-grained
clay-rich high
plasticity
Fine-grained
low plasticity
with larger
clasts
Larger clasts
with fine
matrix, low
plasticity
Large blocks,
minor fines,
minor slaking
Predominant
Particle Size
3/31 = 9.7%
(11.6%)Clay Sand Gravel Cobbles
Consistency:
cohesive
cohesionless
7/31 = 22.6%
(26.9%)Soft to Firm
Loose
Stiff
Medium
Dense
Hard DenseXLS + rock
Very Dense
Structure7/31 = 22.6%
(26.9%)Matrix only
Matrix
Supported
Framework
Supported
Framework
Only
Liquid Limit9/31 = 29.0%
(34.6%)
High
(>50)
Intermediate
(35-50)
Low
(20-35)
Not Plastic
(<20)
Age 5/31 = 16.1% 0-2y 2-10y 10-30y >30y
Shear strength defined as linear
Mohr-Coulomb Failure Envelopes
After Simmons and McManus
(1995, 2004)
BMAC shear strength framework
Spoil structure control ranking
(Category)
Schematic – Simmons & McManus (2004)Max σ’nfailure initiation
spoil dump
(a)
(b)
(c)
Instability Mechanisms
Mechanisms (b) and (c) σ’n acting on the critical failure surface is large
BMAC shear strength framework
1970’s & 1980’s
Spoil dumps rarely
exceeded 90m in height
Max σn ≤ 1MPa
Fast forward to dumps of modern times
High dump example > 350m
Reliable design
information from
the ’70’s & ’80’s
≤120m
Max σn ≤ 1MPa
No reliable design information>120m
Max σn>> 1MPa
60-100mm
Standard-sized Direct Shear Machine (DSM)
Max σn~ 1MPa
Scalping Mine Spoil to fit Shear Box
τovere
stim
ation
Standard shear box
Scale Effect - Normal Stress
Resolving Limitations – Full Scale Testing
• A Large Direct Shear Machine at the University of Newcastle was custom-built to test large samples of spoil at field stresses– Specimen Dimension 720mm x 720mm x 600mm
– Normal Stress Range 0 – 4600kPa
• Significance of scale effects evaluated by comparing shear strength data measured by DSMs of various sizes:– Small (60-100mm)
– Medium (300mm)
– Large (720mm)
• Test Materials– Consistently graded, fine-grained dry silica sand (calibration)
– Permian coal mine spoil containing fine and coarse grained particles in a range of different proportions
3 x 100t actuators
Split box
0.72m x 0.72m x 0.6m
2 x 100t
actuators
teflon
2 x 180t
load cell
Large Direct Shear Machine “BIG JOHN”
Large Direct Shear Machine
Standard
Box Size
60mm,
f’=31.1°
100mm,
f’=30.9°
720mm,
f’=31.4°
300mm,
f’=29.5°100mm,
f’=30.9°
720mm,
f’=31.1°
60mm, f’=31.1°
300mm, f’=29.5°
s’n= 0-3400kPa (wide stress range)s’n= 0-1250kPa (standard lab stress range)
Sand Test Results – Shear Strength
All Shear Box Sizes, different stress ranges
f’s unchanged with
increasing s’n for all DSM
sizes
f’s unchanged with
increasing s’n for all DSM
sizes
s’n= 0-3400kPa (wide stress range)s’n= 0-1250kPa (standard lab stress range)
Sand Test Results – Secant Friction Angle
All Shear Box Sizes, different stress ranges
Samples dominated by siltstone and
fine to medium grained sandstone.
Minor amounts of claystone, shale,
tuff, laminite and conglomerate
Category 2 spoil (BMAC framework)
1m
Test material – Permian Mine Spoil
Systematic decrease in f’s with
increasing s’n for all DSM sizes
Systematic decrease in f’s with increasing
s’n for small DSMs
For LDSM - Systematic decrease in f’s
with increasing s’n for Zones 1 and 3 of
trilinear envelope
s’n= 250-1100kPa (standard lab stress range) s’n= 250-4600kPa (wide stress range)
Mine Spoil Test Results – Secant Friction Angle
All Shear Box Sizes, different stress ranges
s’n= 250-1100kPa (standard lab stress range)
Mine Spoil Test Results – Shear Strength
All Shear Box Sizes
Extrapolated failure
envelopes from
100mm and 300mm
DSMs compared with
actual 720mm LDSM
data
Shear strength
overestimated by
small DSMs
Mine Spoil Test Results – Extrapolated Strength
s’n= 250-4600kPa (wide stress range)
Conclusions
• For coal mine spoils, scale effects are significant in the
context of dumps of modern and future heights
– Size of the specimen tested SIZE DOES MATTER !
– Normal stress STRESS DOES MATTER !
• Adoption of shear strength parameters measured by
standard-sized DSMs will overestimate the shear strength
of spoil dumps with height-equivalent stress ranges of
450kPa-4600kPa
• Scale effects are material-type dependent
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