Creep and fracture of ice and surface stain measurements on glaciers and sea ice
Author: Dougal J. Goodman
Publisher:
Published: 1977
Total Pages:
ISBN-13:
DOWNLOAD EBOOKPosts
Creep and Fracture of Ice and Surface Strain Measurements on Glaciers and Sea Ice
Author: Douglas Jocelyn Goodman
Publisher:
Published: 1977
Total Pages: 150
ISBN-13:
DOWNLOAD EBOOKCreep and Fracture of Ice
Author: Erland M. Schulson
Publisher: Cambridge University Press
Published: 2009-04-30
Total Pages: 403
ISBN-13: 0521806208
DOWNLOAD EBOOKThe first complete account of the physics of the creep and fracture of ice, for graduates, engineers and scientists.
Creep and Fracture of Ice
Author: E. M. Schulson
Publisher:
Published: 2014-05-14
Total Pages: 417
ISBN-13: 9780511540752
DOWNLOAD EBOOKThe first complete account of the physics of the creep and fracture of ice for graduates, engineers and scientists.
Fracture of Lake and Sea Ice
Author: Wilford Frank Weeks
Publisher:
Published: 1969
Total Pages: 92
ISBN-13:
DOWNLOAD EBOOKThe increased activity in cold regions has made a thorough understanding of fracture in lake and sea ice quite desirable, inasmuch as this information has application to a number of problems of geophysical as well as engineering importance. This survey starts with a discussion of the structure of ice I and the macro- and microstructure of sea and lake ice as well as their chemistry and phase relations. Recent work on the direct observation of dislocations as well as the formation of cracks in ice is summarized. Formal ice-brine-air models for analyzing variations in ice strength are also reviewed. The results of the different types of tests are discussed and compared (compressive, indentation, direct and ring-tension, small beam flexure and in situ cantilevers and simple beams, shear, and impact). Scale effects are considered as well as the rapid strength deterioration experienced by ice sheets in the spring. Finally, a number of recommendations are made concerning future research in this field. (Author).
Drift, Deformation, and Fracture of Sea Ice
Author: Jerome Weiss
Publisher: Springer Science & Business Media
Published: 2013-03-14
Total Pages: 95
ISBN-13: 940076202X
DOWNLOAD EBOOKSea ice is a major component of polar environments, especially in the Arctic where it covers the entire Arctic Ocean throughout most of the year. However, in the context of climate change, the Arctic sea ice cover has been declining significantly over the last decades, either in terms of its concentration or thickness. The sea ice cover evolution and climate change are strongly coupled through the albedo positive feedback, thus possibly explaining the Arctic amplification of climate warming. In addition to thermodynamics, sea ice kinematics (drift, deformation) appears as an essential factor in the evolution of the ice cover through a reduction of the average ice age (and consequently of the cover's thickness), or ice export out of the Arctic. This is a first motivation for a better understanding of the kinematical and mechanical processes of sea ice. A more upstream, theoretical motivation is a better understanding of the brittle deformation of geophysical objects across a wide range of scales. Indeed, owing to its very strong kinematics, compared e.g. to the Earth’s crust, an unrivaled kinematical data set is available for sea ice from in situ (e.g. drifting buoys) or satellite observations. Here, we review the recent advances in the understanding of sea ice drift, deformation and fracturing obtained from these data. We focus particularly on the scaling properties in time and scale that characterize these processes, and we emphasize the analogies that can be drawn from the deformation of the Earth’s crust. These scaling properties, which are the signature of long-range elastic interactions within the cover, constrain future developments in the modeling of sea ice mechanics. We also show that kinematical and rheological variables such as average velocity, average strain-rate or strength have significantly changed over the last decades, accompanying and actually accelerating the Arctic sea ice decline.
Fracture of Lake and Sea Ice
Author: Cold Regions Research and Engineering Laboratory (U.S.)
Publisher:
Published: 1971
Total Pages:
ISBN-13:
DOWNLOAD EBOOKSize And Rate Effects on the Fracture of Sea Ice
Author:
Publisher:
Published: 1996
Total Pages: 91
ISBN-13:
DOWNLOAD EBOOKThis report contains the details of the experimental study as well as the theory applied to study the rate and size effect on the fracture of sea ice. To study the fracture of ice, experiments were carried out on a semi-circular bend fracture geometry. The test program formed a lab scale study to complement the in-situ large-scale sea ice fracture tests. The ice used was shipped back in the form of cores from the arctic tests. Two directions of fracture, parallel to the c-axis (optical axis) and perpendicular to the c-axis are studied. To examine the rate effect, a Reversed Direct Stress (RDS) device was modified to suit rectangular shaped test specimens. The details of modifications are given. Ice samples were subjected to creep-recovery loading and allowed to recover. The resultant time dependent deformations were analyzed using nonlinear viscoelastic theory. Experimental results as well as the details of the nonlinear viscoelastic models are given.
Laboratory And Field Scale Fracture Of Sea Ice
Author:
Publisher:
Published: 1996
Total Pages: 129
ISBN-13:
DOWNLOAD EBOOKThis report contains details of laboratory and field scale studies carried out to study fracture of sea ice. The field scale studies were carried out in six field trips on in-situ arctic sea ice. Lab scale studies were carried out on the samples obtained from cores taken from the sea ice during the field trips. The details of the experimental method and portable loading system specifically designed for these tests are given. The first two field trips are analyzed to reveal the size effect on the fracture of S1 freshwater and S2 sea ice. The analysis is carried out using size effect laws. To analyze the creep-recovery and cyclic loading experiment, a model based on the nonlinear theory of viscoelasticity is proposed. It is shown that the model is capable of predicting the load-deformation paths under simple loading histories.
A Practical Guide to the Study of Glacial Sediments
Author: David J. A. Evans
Publisher: Routledge
Published: 2014-04-23
Total Pages: 297
ISBN-13: 1444119141
DOWNLOAD EBOOKSediments are the most valuable form of physical evidence for past Earth surface processes. They have the potential to build up an archive of events and provide a window into the past. Through careful examination of sediments the shifting patterns of surface processes across space and time are revealed, allowing us to reconstruct past environments and environmental change. A Practical Guide to the Study of Glacial Sediments is a guide to the standard techniques employed to read the sedimentary record of former glaciers and ice sheets. It demonstrates that the often complex and fragmentary glacial sedimentary record can, when examined systematically and rationally, provide detailed insights into former environments and climates in places where no other evidence is available. The complementary techniques covered in this book include: facies description, grain size analysis, clast form assessment, clast macrofabric analysis, micromorphology, particle lithology and assessment of engineering properties. They yield consistent and meaningful results in a range of glacial depositional environments throughout the world, from the high Arctic to the Himalayas. A Practical Guide to the Study of Glacial Sediments provides students and researchers with a clear and accessible guide to recording and interpreting glacial successions wherever the location.
