Creep rupture at depth in a cold ice sheet

COLBECK, S. C. ; ST LAWRENCE, W. ; Gow, A. J.

[s.l.] : Nature Publishing Group
Published 1978
ISSN:
1476-4687
Source:
Nature Archives 1869 - 2009
Topics:
Biology
Chemistry and Pharmacology
Medicine
Natural Sciences in General
Physics
Notes:
[Auszug] At great depths beneath the surface of the Earth (500-700 km) where the pressure is of the order of 1010 Pa and high homologous temperatures prevail, classical laws of brittle failure do not apply. As an alternative to stress release by brittle fracture, rupture of the material may result when ...
Type of Medium:
Electronic Resource
URL:
_version_ 1798292939891277826
autor COLBECK, S. C.
ST LAWRENCE, W.
Gow, A. J.
book_url http://dx.doi.org/10.1038/275733a0
datenlieferant nat_lic_papers
hauptsatz hsatz_simple
identnr NLZ23399100X
insertion_date 1911-02-24
issn 1476-4687
journal_name Nature
materialart 1
notes [Auszug] At great depths beneath the surface of the Earth (500-700 km) where the pressure is of the order of 1010 Pa and high homologous temperatures prevail, classical laws of brittle failure do not apply. As an alternative to stress release by brittle fracture, rupture of the material may result when ...
package_name Nature Publishing Group
publikationsjahr_anzeige 1978
publikationsjahr_facette 1978
publikationsjahr_intervall 8024:1975-1979
publikationsjahr_sort 1978
publikationsort [s.l.]
publisher Nature Publishing Group
reference 275 (1978), S. 733-733
search_space articles
shingle_author_1 COLBECK, S. C.
ST LAWRENCE, W.
Gow, A. J.
shingle_author_2 COLBECK, S. C.
ST LAWRENCE, W.
Gow, A. J.
shingle_author_3 COLBECK, S. C.
ST LAWRENCE, W.
Gow, A. J.
shingle_author_4 COLBECK, S. C.
ST LAWRENCE, W.
Gow, A. J.
shingle_catch_all_1 COLBECK, S. C.
ST LAWRENCE, W.
Gow, A. J.
Creep rupture at depth in a cold ice sheet
Nature Publishing Group
[Auszug] At great depths beneath the surface of the Earth (500-700 km) where the pressure is of the order of 1010 Pa and high homologous temperatures prevail, classical laws of brittle failure do not apply. As an alternative to stress release by brittle fracture, rupture of the material may result when ...
1476-4687
14764687
shingle_catch_all_2 COLBECK, S. C.
ST LAWRENCE, W.
Gow, A. J.
Creep rupture at depth in a cold ice sheet
Nature Publishing Group
[Auszug] At great depths beneath the surface of the Earth (500-700 km) where the pressure is of the order of 1010 Pa and high homologous temperatures prevail, classical laws of brittle failure do not apply. As an alternative to stress release by brittle fracture, rupture of the material may result when ...
1476-4687
14764687
shingle_catch_all_3 COLBECK, S. C.
ST LAWRENCE, W.
Gow, A. J.
Creep rupture at depth in a cold ice sheet
Nature Publishing Group
[Auszug] At great depths beneath the surface of the Earth (500-700 km) where the pressure is of the order of 1010 Pa and high homologous temperatures prevail, classical laws of brittle failure do not apply. As an alternative to stress release by brittle fracture, rupture of the material may result when ...
1476-4687
14764687
shingle_catch_all_4 COLBECK, S. C.
ST LAWRENCE, W.
Gow, A. J.
Creep rupture at depth in a cold ice sheet
Nature Publishing Group
[Auszug] At great depths beneath the surface of the Earth (500-700 km) where the pressure is of the order of 1010 Pa and high homologous temperatures prevail, classical laws of brittle failure do not apply. As an alternative to stress release by brittle fracture, rupture of the material may result when ...
1476-4687
14764687
shingle_title_1 Creep rupture at depth in a cold ice sheet
shingle_title_2 Creep rupture at depth in a cold ice sheet
shingle_title_3 Creep rupture at depth in a cold ice sheet
shingle_title_4 Creep rupture at depth in a cold ice sheet
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source_archive Nature Archives 1869 - 2009
timestamp 2024-05-06T08:56:29.986Z
titel Creep rupture at depth in a cold ice sheet
titel_suche Creep rupture at depth in a cold ice sheet
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