The Flow and Fracture of Cracked Ice: Experiments to Aid Modeling

Abstract

The ultimate goal of this work is to contribute new physical insight to the development of the next generation sea ice model, "PIPS 3.0". More specifically, it is to understand the processes underlying the deformation of first-year sea ice covers, from the formation of oriented leads to the frictional sliding of individual floes. The objective is to test the hypothesis that first-year sea ice covers deform through a combination of continuum and granular flow. It is suggested that continuum flow controls deformation until "slip lines" develop, at which point granular flow governs. With this in mind, the near-term objectives are to study and understand the mechanical behavior of columnar sea ice deformed in the laboratory under controlled conditions and then to compare behavior on the small scale with that on the large scale. The second hypothesis to be tested is that the physical processes underlying the compressive failure of ice are independent of spatial scale.

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Document Details

Document Type
Technical Report
Publication Date
Sep 30, 1999
Accession Number
ADA619286

Entities

People

  • Erland M. Schulson

Organizations

  • Dartmouth College

Tags

Communities of Interest

  • Space

DTIC Thesaurus Topics

  • Arctic Ocean
  • Beaufort Sea
  • Cold Regions
  • Compressive Strength
  • Ductile Brittle Transition
  • Engineering
  • Flow
  • Fracture (Mechanics)
  • Grain Boundaries
  • Hypervelocity Flow
  • Ice
  • Materials
  • Materials Science
  • Mechanics
  • Melting Point
  • Sea Ice
  • Strain Rate

Readers

  • Mechanical Engineering/Mechanics of Materials.
  • Polar and Arctic Studies
  • Systems Analysis and Design