Frost Action Predictive Techniques for Roads and Airfields; A Comprehensive Survey of Research Findings.

Findings from a six-year yield and laboratory program of frost action research in four principal areas are summarized. Research on the first topic, frost susceptibility index tests, led to selection of the Corps of Engineers frost design soil classification system as a useful method at the simplest...

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Bibliographic Details
Main Authors: Johnson,Thaddeus C, Berg,Richard L, Chamberlain,Edwin L, Cole,David M
Other Authors: WASHINGTON UNIV SEATTLE APPLIED PHYSICS LAB
Format: Text
Language:English
Published: 1986
Subjects:
Snow
Ice and Permafrost
Civil Engineering
Test Facilities
Equipment and Methods
*FREEZING
*LANDING FIELDS
*THAWING
*SOIL TESTS
*FROST HEAVE
STRESSES
MATHEMATICAL MODELS
ALGORITHMS
RECOVERY
LABORATORY TESTS
PREDICTIONS
VALIDATION
PROBABILITY
DEFLECTION
TEST METHODS
PAVEMENTS
SOILS
SEASONAL VARIATIONS
SURVEYS
TENSION
GAMMA RAYS
LABORATORY PROCEDURES
INDEXES
LABORATORIES
FROST
ROADS
MOISTURE
PERMAFROST
RESILIENCE
FROST ACTION
PE62730A
AST42
Ice
permafrost
Online Access:http://www.dtic.mil/docs/citations/ADA178243
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA178243
Description
Summary:Findings from a six-year yield and laboratory program of frost action research in four principal areas are summarized. Research on the first topic, frost susceptibility index tests, led to selection of the Corps of Engineers frost design soil classification system as a useful method at the simplest level of testing. At a much more complex level, a new freezing test combined with a CBR test after thawing is recommended as an index of susceptibility to both frost heave and thaw weakening. Under the second topic, a soil column and dual gamma system were developed and applied to obtain soil data used in improving and validating a mathematical model of frost heave, the objective of the third research topic. The model was effectively improved, a probabilistic component was added, and it was successfully tested against field and laboratory measurements of frost heave. A thaw consolidation algorithm was added, which was shown to be useful in predicting the seasonal variation in resilient modulus of granular soils, the objective of the fourth topic. A laboratory testing procedure was developed for assessing the resilient modulus of thawed soil at various stages of the recovery process, as a function of the applied stress and the soil moisture tension, which increases as the soil gradually desaturates during recovery. The procedure was validated by means of appropriate analyses of deflections measured on pavements by a falling-weight deflectometer. Frameworks for implementing findings from the principal research topics are outlined. Keywords: Airfields, Freezing thawing, Frost heave, Frozen soil, Resilient modulus, Roads.

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