X-Ray Photography Method for Experimental Studies of the Frozen Fringe Characteristics of Freezing Soil

The main objectives of this report are: (1) To describe the development of an X-ray photographic method for observing the frost-heaving properties of soil, especially the characteristics of the frozen fringe; (2) To describe observations of the temperature and strain field change in the frozen fring...

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Bibliographic Details
Main Author: Akagawa, Satoshi
Other Authors: COLD REGIONS RESEARCH AND ENGINEERING LAB HANOVER NH
Format: Text
Language:English
Published: 1990
Subjects:
Soil Mechanics
Snow
Ice and Permafrost
Photography
*FROST HEAVE
*X RAY PHOTOGRAPHY
*PHOTOGRAPHIC ANALYSIS
*SOIL MECHANICS
MEASUREMENT
TEMPERATURE
THICKNESS
EXPERIMENTAL DATA
EDGES
DEFORMATION
SPHERES
STRAIN RATE
GRIDS(COORDINATES)
THREE DIMENSIONAL
SOILS
PROFILES
FREEZING
ICE
MATHEMATICAL ANALYSIS
THERMAL CONDUCTIVITY
GEOMETRY
MARKERS
FROZEN SOILS
EXPANSION
RANGE(EXTREMES)
DISTORTION
THERMOCOUPLES
PHOTOGRAPHS
SOURCES
IMAGE PROCESSING
MATHEMATICAL MODELS
TEST AND EVALUATION
DATA BASES
FREEZING SOILS
ICE LENSES
AST42
PE62730A
WU001
Ice
permafrost
Online Access:http://www.dtic.mil/docs/citations/ADA222448
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA222448
Description
Summary:The main objectives of this report are: (1) To describe the development of an X-ray photographic method for observing the frost-heaving properties of soil, especially the characteristics of the frozen fringe; (2) To describe observations of the temperature and strain field change in the frozen fringe using the procedure developed; and (3) To publish the test results as a data base that can be used in evaluating frost heave models. The method used X-ray photography with thermocouples installed inside lead marking spheres to observe soil expansion, including expansion due to in-situ freezing and expansion due to segregation freezing. The method includes an image-processing technique for analyzing the coordinates of the lead spheres on the photos, a three-dimensional analysis of the lead spheres' coordinates to compensate for the geometrical distortion caused by the use of a point X-ray source, and direct measurements of the temperature at each lead sphere using thermocouples in the spheres. Therefore, both the deformation and the temperature field in a freezing soil can be observed directly. Results on the following characteristics include: Temperature profiles in two freezing soil specimens; The expansion activity (strain and strain rate) distributions in two specimens; The apparent temperature range of the frozen fringe; The apparent thickness of the frozen fringe; and The thermal conductivity of the frozen fringe while the warmest ice lens is segregating.

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