Rate and size effects on the deformation and fracture of warm and floating columnar freshwater ice

Defence is held on 29.10.2021 12:00 – 15:30 https://aalto.zoom.us/j/66036070494 Climate change has led to warmer and fragmented ice, and thus has increased the interest in understanding and modelling the fracture behavior and creep deformations of warm ice. The thesis explores the fracture and creep...

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Bibliographic Details
Published in:Acta Materialia
Main Author: El Gharamti, Iman
Other Authors: Dempsey, John P., Prof., Clarkson University, USA, Insinööritieteiden korkeakoulu, School of Engineering, Konetekniikan laitos, Department of Mechanical Engineering, Tuhkuri, Jukka, Prof., Aalto University, Department of Mechanical Engineering, Finland, Solid Mechanics, Aalto-yliopisto, Aalto University
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: Aalto University 2021
Subjects:
Mechanical engineering
freshwater ice
fracture
creep
size effect
rate effect
viscoelasticity
The Cryosphere
Online Access:https://aaltodoc.aalto.fi/handle/123456789/110432
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Summary:Defence is held on 29.10.2021 12:00 – 15:30 https://aalto.zoom.us/j/66036070494 Climate change has led to warmer and fragmented ice, and thus has increased the interest in understanding and modelling the fracture behavior and creep deformations of warm ice. The thesis explores the fracture and creep response of warm and floating columnar freshwater S2 ice under different loading scenarios, by conducting large scale experiments in the Ice Tank of Aalto University. A program of nineteen mode I fracture tests, using deeply cracked edge-cracked rectangular plates, that varied the test sizes, loading types, and loading rates was conducted. The ice was very warm with a temperature of about -0.3 oC at the top surface. The ice was loaded in the direction normal to the columnar grains, and the loading conditions divided the test program into two parts. In the first part, fourteen tests were conducted in displacement control (DC) and loaded with different rates monotonically to fracture. The plates covered a size range of 1:39, the largest for ice tested under laboratory conditions, with three plate sizes: 0.5m x 1m, 3m x 6m and 19.5m x 36m. In the second part, five tests of 3m x 6m plates were loaded in load control (LC) under creep/cyclic-recovery loading and monotonic loading to fracture. For the DC tests, methods for both the linear elastic fracture mechanics (LEFM) and a non-linear viscoelastic fictitious crack model (VFCM) were derived to analyze the data and calculate values for the apparent fracture toughness, crack opening displacement, stress-separation curve, fracture energy, and size of the process zone near a crack tip. Issues of notch sensitivity and minimum size requirements for polycrystalline homogeneity were addressed. Size and rate effects were interrelated as rate dependent size effects and size dependent rate effects. The loading rates applied led to test durations from fewer than 2 seconds to more than 1000 seconds, leading to an elastic response at the highest rates and a viscoelastic response at ...

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