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PUBLICATIONS
The publications listed below are good sources for types and application of various
geotechnical lab testing. For publications on how to perform the tests, you need the
appropriate texts from ASTM or AASHTO.
Geotechnical Laboratory Testing Publications Available for Downloading
FHWA NHI-00-044 - Corrosion/ Degradation of Soil Reinforcements for Mechanically
Earth Stabilized Walls and Reinforced Soil Slopes. Discusses corrosion of metals,
corrosive soil environments, geosynthetic durability and degradation, monitoring and testing
for soil reinforcements.
NAVFAC 7.01 -
Soil Mechanics. This publication includes soil/ rock identification and properties,
field exploration, field testing, instrumentation, laboratory testing, distribution of
stresses, settlement analysis, volume expansion, seepage, erosion control, drainage filters,
slope stability and slope protection.
NAVFAC 7.03
- Soil Dynamics and Special Design Aspects. Main topics include soil dynamics,
earthquake engineering and special design aspects. Information pertaining to these topics
include machine foundations, impact loadings, dynamic soil properties, slope stability,
bearing capacity, settlement, vibratory compaction, pile driving analysis and field testing,
ground anchor systems, seismic design parameters, liquefaction, sheet pile walls and laboratory
testing.
USACE TM 5-818-7 - Foundations in
Expansive Soils. Note: This publication does not have an appendix. For link to appendix,
click here.
USACE EM 1110-1-1804 - Geotechnical
Investigations. Note: This publication does not have an appendix. For link to appendix,
click here.
USACE TM 5-818-1 - Soils and Geology Procedures for Foundation Design of
Buildings and Other Structures (Except Hydraulic Structures)
References to Geotechnical Laboratory Testing in other Publications
Canadian Society for Civil Engineering, Cold Climate Utilities Manual, Canadian Society for Civil Engineering,
Montreal, 1986. An in-depth publication concerning water facilities. Also has excellent information
pertaining to foundations, roadways, runways, dams, earthwork and soil properties.
Lamb, T.W., and Whitman, R.V., Soil Mechanics, Massachusetts Institute of
Technology, John Wiley and Sons, New York, 1969.
Means, R.E., Parcher, J.V., Physical Properties of Soils, Charles E.
Merrill Publishing Company, Columbus, OH, 1963.
Phukan, Arvind, Frozen Ground Engineering, Prentice Hall, Inc.,
Englewood Cliffs, New Jersey, 1985. This publication has information on soil classifications including a
frost susceptibility soil classification, ice descriptions, as well as physical, mechanical and thermal properties of frozen soils. Drilling, sampling and
testing are discussed. This book also includes a foundation design philosophy, and analysis of thaw settlement, shallow foundations, pile foundations,
roadways, airfields, utility systems, and slope stability.
Terzhaghi, K., Peck, R.B., and Mesri, G., Soil Mechanics in Engineering Practice, 3rd ed.
, John Wiley and Sons, New York, 1996.
SOILS - Geotechnical data file for testing, instrumentation and explorations
Soil Properties
Specific soil properties are usually determined by an appropriate laboratory test. Typical soil and soil related properties are
provided in the links below:
Angle of Internal Friction
Cohesion
External Friction Angle
Modulus of Vertical Subgrade Reaction
Phase Diagram
Permeability
R-Value
Soil Classification Comparisons
Soil Unit Weights
Standard Proctor values
Unified Soil Classification System
USDA Textural Triangle
Youngs Modulus
Soil properties may be classified as either engineering properties or index properties. Examples of
engineering properties are permeability, shear strength and consolidation. Index properties are soil attributes such as
grain size distribution, moisture content, Atterburg limits, specific gravity and void ratio.
Soil Classification
Formal classifications are a way to group and identify similar soils. Each soils group have similar characteristics that are used
in predicting behavior. For the most part, these characteristics are distinguishable by the percentages of various particle sizes such
as gravel, sand, silt and clay. Secondly, characteristics may be further refined in some classification
systems from the plasticity of silt and clay size particles. Various soil classification schemes have been used for over 100 years.
One of the first classification systems for soils was accomplished by the Bureau of Soils in 1890. The most popular for engineers in the
U.S. are the Unified Soil Classification System (USCS) and the AASHTO Classification System.
Also see the
Soil Classification Systems
for a good comparison.
Soil Testing
Many soil testing procedures and equipment are standardized by the American Society for Testing and Materials (ASTM).
Other agencies and their corresponding standardization includes AASHTO and local State Department of Transportation. The following
soil tests with ASTM designation are provided.
AASHTO Soil Classification (ASTM D3282) - A soil classification system usually used for highway design and
construction.
Atterberg Limit Tests (ASTM D4318) - The water contents of a soil mass corresponding to the transition between a solid,
semi-solid, plastic solid or liquid. Laboratory test used to distinguish the magnitude of plasticity for clay and silt particles.
CBR Test (ASTM D1883) - California Bearing Ratio is a laboratory test that is used to determine the suitability of of a soil for use
as a subbase in a pavement section.
Compression Test (ASTM D4546) - The compression test is performed in the laboratory using a relatively undisturbed ring
sample. The sample is loaded with expected building pressures to estimate the amount of compression the soil undergoes. The sample is then
inundated with water in order to measure additional compression or swelling.
Cone Penetrometer Test (ASTM D3441) - A penetration test in which a cone that has a 60� point is pushed into the ground at a
continuous rate. Resistance is measured by correlating the depth penetrated with the force applied. Recently, the dynamic cone penetration test is
surpassing in popularity.
Consolidation Test (ASTM D2435) - A laboratory test in which results are used to predict consolidation of a soil under applied
structural loads. Also known as confined compression tests and oedometer tests.
Direct Shear Test (ASTM D3080) - Laboratory test used to determine the relationship of shear strength to consolidation
stress by graphing the Mohr's failure envelope. Strength characteristics that are estimated from this test includes
cohesion and angle of internal friction.
Fines Content Test (ASTM D1140) - Laboratory test used to determine the amount of clay- and silt-sized particles in a
soil sample.
Hveem's Resistance Value Test (ASTM D2844) - Evaluation of a particular soils' suitability within a pavement section.
See R-Value
In-Place Density Tests - Field testing used to estimate density (unit weight), and moisture content of soils. Usually used as part
of a quality control/ quality assurance plan for verifying compacted fill meets required specifications. Common in-place density tests include
nuclear densiometer test (ASTM D2922), rubber-balloon method (ASTM D2167) and sand cone test (ASTM D1556).
Moisture Content Test (ASTM D2216) - Laboratory test for determining the water content of a soil sample.
Particle Size Analysis Test (ASTM D422) - Laboratory test used to measure the distribution of clay, silt, sand, gravel,
cobbles and boulders. A sieve analysis is performed in order to determine the amount and distribution of various sand- and gravel-sized
particles as well as the combination of silt and clay particles. The hydrometer analysis is used for determining the specific distribution of
clays and silts.
Permeability Test (ASTM D2434) - Constant head permeameters or falling head permeameters may be used to determine a
soils' coefficient of permeability. Soil permeability relates to groundwater flow, and is a measurement of continuous void space within a soil medium. .
See permeability for typical values relating
to various soils.
Plate Bearing Value Test (ASTM D1195) - This field test is usually performed on compacted soils to provide an indication of
shear strength, and estimate the modulus of subgrade reaction. From graphing the increasingly applied loads versus deflection, the bearing
value is interpolated as the load (psi) that produces a 1/2 inch deflection. The slope of the line is the modulus of subgrade reaction.
See Modulus of Vertical Subgrade Reaction for some typical values.
Proctor Test - Proctor tests in the laboratory either use standard effort (ASTM D698) or modified effort
(ASTM D1557). Proctor tests are used to determine maximum dry density and optimum moisture content. Results from Proctor
tests are used in the field to correlate relative compaction from in-place density testing during the placement and compaction of fill.
See typical Standard Proctor values for a range of maximum dry densities and optimum moisture
contents.
Remolded Swell Test (ASTM D 4546) - Using the same equipment as the compression test, the soil sample is remolded
and compacted in order to achieve similar earthwork conditions for the project's soils. The amount of swell can be measured after
inundating the soil sample with water after the applied loads have stabilized.
Standard Penetration Test (SPT) (ASTM D1195) - The SPT is performed in the field utilizing a split-spoon sampler.
Resistance is measured by penetrating the sampler with a 140 pound hammer, dropped from a height of 30 inches. After the initial
6 inches of penetration, the N-Value is recorded by counting the
number of blows required to drive the sampler an additional 12 inches. The
N-Value can be used to estimate relative density and angle of internal
friction of the in-situ soils.
Triaxial Test - Laboratory tests such as the consolidated-undrained (CU) test
(ASTM D4767) and unconsolidated-undrained (UU) test (ASTM D2850) that are used to determine the soils' strength characteristics
such as cohesion and angle of internal friction.
Unconfined Compressive Strength Test (ASTM D2166) - Laboratory test similar to the unconsolidated-undrained test
performed on plastic soils, usually clay. From this test, the undrained shear stregth is calculated as 1/2 of the unconfined
compressive strength. Cohesion is considered to be equal to the undrained shear strength.
USCS Soil Classification (ASTM D2487) - A soil classification system that is most common for engineers in the United States.
The Unified Soil Classification System (USCS) was established in 1953 by the Army Corps of Engineers.
Visual Classification (ASTM D2488) - A field test that is used to estimate soil characteristics such as the range of particle sizes
and plasticity.
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