Fatigue Crack Propagation in Freshwater Ice

Abstract

The study describes an investigation of the fracture toughness and fatigue behavior of granular and columnar S2 freshwater ice. A four point bend single edge notched beam was used throughout. The fracture toughness of columnar ice was found to be temperature independent between -5 and -45 deg C. In contrast, granular ice exhibited a higher toughness than columnar ice between -5 and -20 deg C. At -45 degrees C, granular ice had the same toughness as the columnar ice. The differences in behavior are due to micro-structural differences in the two ice types, as shown by scanning electron micrography. The internal friction response of the granular and columnar ice was determined as a function of both frequency and amplitude. The results are consistent with a Granato-Lucke type dislocation damping model. A new technique has been developed to measure sub- critical crack growth in ice, using a low powered laser mounted on an X-Y vernier. Fatigue crack growth in ice has been observed and Quantified. Three stages are evident: Initial growth may be termed classic ductile fatigue. This is followed by a period of brittle fatigue, then finally by crack arrest. The final two stages develop as the crack becomes shielded by cycling dislocations.

Document Details

Document Type

Technical Report

Publication Date

Jul 01, 1993

Accession Number

ADA271086

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