Mechanisms and Theory of Indentation of Ice Plates

Michel, B.; Toussaint, N.

doi:10.1017/s002214300002935x

“…For the latter applilowing form can be used to describe the failure cation, the reader is referred to the review article by envelope in terms of the normal stresses (o) and shear Sanderson (1 984). stresses (t) Several different formulations have been used to mathematically describe the failure envelope for ice including the von Mises (Michel and Toussaint, 1977), Tresca (Croasdale et al, 1977), n-type (Reinicke and Ralston, 1977;Ralston, 1978) and modified DruckerPrager Das, 1983a, 1983b). Of all of these methods, only the n-type yield function can represent the anisotropic nature of the ice.…”

Section: Application Of Resultsmentioning

confidence: 99%

Confined compression tests: Outlining the failure envelope of columnar sea ice

Timco¹,

Frederking²

1986

Cold Regions Science and Technology

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/npsi/ctrl?lang=en http://nparc.cisti-icist.nrc-cnrc.gc.ca/npsi/ctrl?lang=fr Access and use of this website and the material on it are subject to the Terms and Conditions set forth at http://nparc.cisti-icist.nrc-cnrc.gc.ca/npsi/jsp/nparc_cp.jsp?lang=en NRC Publications Archive Archives des publications du CNRCThis publication could be one of several versions: author's original, accepted manuscript or the publisher's version. / La version de cette publication peut être l'une des suivantes : la version prépublication de l'auteur, la version acceptée du manuscrit ou la version de l'éditeur. Science and Technology, 12, 1, pp. 13-28, 1986-02 On a mesurk la charge appliquee et la charge sous confinement lateral. Cold RegionsCes essais servent b determiner l'enveloppe globale de rupture de la glace dans les trois dimensions.Les resultats sont i5tudiks au point de vue effet de la vitesse de chargement, tempkrature, volume d'eau salke et porositi5 de la glace.On Stablit un indice de resistance qui met en correlation les rgsultats actuels sur la base de ces paramztres.Cela conduit B une relation empirique qui indique la dependance fonctionnelle de la resistance en compression uniaxiale en termes de vitesse de d6formation, de direction de chargement, de salinitk, de temperature et de densite de la glace.Une description mathematique de l'enveloppe de rupture est faite 3 l'aide d'une fonction limite 6lastique modifike de type n.Cold Regions Science and Technology, 12 (1 986)

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“…The average diameter of pennyshaped cracks and the width of cracks in columnar-grained ice are of the same order as the grain size (Cole 1986(Cole , 1989Gold 1972b). Similar cracks are observed to form duing indentation; the first ones occurring near the edge of the indentor (Nuttall and Gold 1966;Michel and Toussaint 1977).…”

Section: Brittle Failurementioning

confidence: 55%

“…If the rate of indentation is sufficiently high, brittle failure occurs; and the indentation pressure appears to be relatively constant and independent of the rate. As the indentation rate decreases from a relatively critical value, the indentation pressure increases to a maximum (Michel and Toussaint 1977;Sanderson 1988). …”

Section: Calibration Of the Model And Comparison With Observationsmentioning

confidence: 99%

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Brittle to ductile transition during indentation of ice

Gold¹

1991

Can. J. Civ. Eng.

3

0

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/npsi/ctrl?lang=en http://nparc.cisti-icist.nrc-cnrc.gc.ca/npsi/ctrl?lang=fr Access and use of this website and the material on it are subject to the Terms and Conditions set forth at http://nparc.cisti-icist.nrc-cnrc.gc.ca/npsi/jsp/nparc_cp.jsp?lang=en NRC Publications Archive Archives des publications du CNRCThis publication could be one of several versions: author's original, accepted manuscript or the publisher's version. / La version de cette publication peut être l'une des suivantes : la version prépublication de l'auteur, la version acceptée du manuscrit ou la version de l'éditeur. Engineering, 18, 2, pp. 182-190, 1991-04 Brittle to ductile transition during indentation of ice Gold, L. W. Canadian Journal of Civil Brittle to ductile transition during indentation of iceGold, L.W. NRCC-33092A version of this document is published in Canadian Journal of Civil Engineering, 18, (2), pp. [182][183][184][185][186][187][188][189][190] The material in this document is covered by the provisions of the Copyright Act, by Canadian laws, policies, regulations and international agreements. Such provisions serve to identify the information source and, in specific instances, to prohibit reproduction of materials without written permission. For more information visit http://laws.justice.gc.ca/en/showtdm/cs/C-42Les renseignements dans ce document sont protégés par la Loi sur le droit d'auteur, par les lois, les politiques et les règlements du Canada et des accords internationaux. Ces dispositions permettent d'identifier la source de l'information et, dans certains cas, d'interdire la copie de documents sans permission écrite. Pour obtenir de plus amples renseignements : http://lois.justice.gc.ca/fr/showtdm/cs/C-42Brittle to ductile transition during indentation of ice The brittle to ductile transition in the deformation behaviour of ice is considered for indentation by a flat, rigid indentor under fully elastic plane strain or plane stress conditions. It is assumed that failure occurs when a crack initiated near an edge of the indentor is propagated immediately by the maximum shear stress at the site. Consideration is given to the relaxation of the elastic moduli and the change in the critical stress intensity factor for crack propagation that occur in the transition range of strain rates. The analysis shows that for the assumed conditions, the indentation pressure varies inversely with the square root of the width of the indentor, and increases to a maximum with decreasing strain rate. It also indicates that the necessary and sufficient conditions for brittle failure of ice are a critical combination of shear strain and strain rate that will cause a crack to form, which propagates immediately under the imposed stress.Key words: ice, elasticity, indentation, brittle to ductile transition, fracture mechanics, failure.La transition de fragile ii ductile dans le comportement en dkformation de la glace est Ctudiee dans un cas de pinitration a I'aide d'un pCnCtrateur rigide plat, en prisence de dkformations Clastiques planes ...

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“…It is found and proved that ice uniaxial stress or indentation stress is a function of the strain rate as shown in Figure 2 (Blenkarn, 1970;Michel and Toussaint, 1978;Palmer and others, 1983;Sodhi and Haehnel, 2003). The strain rate is defined by v r /λD, where the dimensionless coefficient λ varies from 1 to 4 and D is the structural width (Yue and Guo, 2011).…”

Section: Ice Stress-strain Rate Equationmentioning

confidence: 91%

Physical mechanism of ice/structure interaction

Ji

¹

,

Öterkuş

²

2018

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ABSTRACT. To obtain the effect of velocity and structural natural frequency (structural stiffness) on ice failure, an extended dynamic Van der Pol-based single degree-of-freedom ice/structure interaction model is developed. Three basic modes of response were reproduced: intermittent crushing, frequency lock-in and continuous crushing. Further analysis on the physical mechanism of ice/structure interaction is presented on the basis of feedback mechanism and energy mechanism, respectively. Internal effect and external effect from ice and structure were both explained in the feedback branch. Based on reproduced results, energy exchanges at different configurations are computed from the energy conservation using the first law of thermodynamics. A general conclusion on the predominant type of vibration when the ice velocity increases during the interaction process is forced, self-excited and forced in each of the three modes of responses. Ice force variations also show that there is more impulse energy during the lockin range. Moreover, ice-induced vibration demonstrates an analogy of friction-induced self-excited vibration. Finally, the similarity between strain-stress curve and Stribeck curve shows that static and kinetic friction force variations are attributed to ice force characteristic, and can be used to explain the lower effective pressure magnitude during continuous crushing than the peak pressure during intermittent crushing.

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Mechanisms and Theory of Indentation of Ice Plates

Cited by 78 publications

References 3 publications

Confined compression tests: Outlining the failure envelope of columnar sea ice

Confined compression tests: Outlining the failure envelope of columnar sea ice

Brittle to ductile transition during indentation of ice

Physical mechanism of ice/structure interaction

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