Engineering
Compression Strength
100%
Compressive Strength
92%
Plaster
73%
Porosity
55%
Engineering Property
49%
Macropore
46%
Failure Mode
45%
Modulus of Elasticity
36%
Analog Model
23%
Numerical Model
20%
Rock Sample
19%
Two Dimensional
19%
Compressive Deformation
18%
Surfactant
18%
Ultimate Tensile Strength
18%
Joints (Structural Components)
15%
Sampling Interval
14%
Wave Velocity
14%
Soil Mix
14%
Experimental Investigation
11%
Engineering
11%
Shear Strength
11%
Coefficient of Variation
11%
Point Cloud
11%
Failure Plane
10%
Tensiles
9%
Waterway
9%
Axial Stress
9%
Concrete Slab
9%
Failure Load
9%
Construction Process
9%
Engine Dynamometer
9%
Gaussians
9%
Measurement Error
9%
Ground Improvement Performance
9%
Concrete Temperature
9%
Design Process
9%
Compressional Wave
9%
Volumetric Strain
9%
Binder Property
9%
Term Settlement
9%
Rock Dynamics
9%
Road
9%
Distributed Noise
9%
Sampling Frequency
9%
Subgrade
9%
Frequency Content
9%
Differential Settlement
9%
Axial Strain
9%
Monitoring Technique
9%
Earth and Planetary Sciences
Florida
85%
Compressive Strength
67%
Porosity
37%
Basalt
26%
Surface Roughness
26%
Wave Velocity
24%
Borehole
22%
Rock Joint
21%
Photogrammetry
21%
Failure Mode
18%
Calcite
18%
Profilometers
18%
Remote Sensing
18%
Ground Penetrating Radar
18%
Storm
17%
Compression Wave
17%
Laser Scanning
17%
Shear Strength
16%
Geotechnical Property
16%
Analog Model
16%
Site Characterization
15%
Standard Deviation
14%
United States of America
14%
Sinkhole
14%
Signal Processing
14%
Interdisciplinary Research
14%
Geology
14%
Sine Wave
14%
Imaging Technique
14%
Nevada
12%
Numerical Model
12%
Stratigraphy
11%
Histogram
11%
Geotechnical Engineering
11%
Near-Surface Geology
10%
Surfactant
9%
Waterway
9%
Rupturing
9%
Mitigation Measure
9%
Microbially Induced Calcite Precipitation
9%
Building Stone
9%
Karstification
9%
Ground Improvement
9%
Vertical Movement
9%
Change Detection
9%
Subgrade
9%
Rock Dynamics
9%
Monitoring Technique
9%
Annual Variation
9%
Dam Failure
9%
