Regionalized Feasibility Study of Cold Weather Earthwork.

A regional approach is used to delineate areas in Canada, Alaska, and the conterminous United States, in which selected earthwork operations should receive careful consideration for winter execution. Soil texture and soil form or physical site environment are deemed important physical factors in the...

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Bibliographic Details
Main Author: Roberts,William Stephan
Other Authors: PURDUE UNIV LAFAYETTE IND
Format: Text
Language:English
Published: 1976
Subjects:
Cartography and Aerial Photography
Snow
Ice and Permafrost
Civil Engineering
*COLD WEATHER OPERATIONS
*COLD REGIONS
*MAPS
*EARTHWORK
LOW TEMPERATURE
UNITED STATES
ECONOMICS
CANADA
ALASKA
EFFICIENCY
THESES
SOIL MECHANICS
SOILS
WINTER
FREEZING
FEASIBILITY STUDIES
CLASSIFICATION
FROST
LABOR
GEOMORPHOLOGY
MOISTURE
TEXTURE
EXCAVATION
ARCTIC REGIONS
EARTH HANDLING EQUIPMENT
PERMAFROST
Arctic
Canada
Ice
permafrost
Alaska
Online Access:http://www.dtic.mil/docs/citations/ADA029936
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA029936
Description
Summary:A regional approach is used to delineate areas in Canada, Alaska, and the conterminous United States, in which selected earthwork operations should receive careful consideration for winter execution. Soil texture and soil form or physical site environment are deemed important physical factors in the economic feasibility of cold weather earthwork. A compatible modern physiographic map of Canada, and the conterminous United States compiled for this study is presented. The physiographic section is the basic areal unit used in the evaluation of winter earthwork feasibility. A generalized soil texture map for Canada, Alaska, and the conterminous United States is developed from geologic and pedologic information. Summary maps showing areally significant soil forms and related feasible earthwork operations are presented. A general discussion of the importance of the soil form in the economic feasibility of winter earthwork is included. A summary matrix is presented which shows, with respect to physiographic sections, the salient information and conclusions developed by this study. At least 94% of physiographic sections have two or more winter earthwork operations that are deemed feasible. Only 5 of 213 sections considered do not have any earthwork operations that appear feasibly implemented in the winter season. Inefficiency curves for manual labor, excavation, and hauling operations, as a function of season and geographic location, are shown. These curves are based on efficiency data published in a Swedish survey, and are calculated from the meteorological factors of temperature, lighting, and precipitation. Master's thesis.

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