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Fatigue crack growth behaviour of an 8090 AlLi alloy under mixed mode I – mode III loading conditions
Scripta Metallurgica et Materialia
◽
10.1016/0956-716x(93)90141-e
◽
1993
◽
Vol 29
(10)
◽
pp. 1371-1376
◽
Cited By ~ 2
Author(s):
S.V. Kamat
◽
N.Eswara Prasad
Keyword(s):
Fatigue Crack
◽
Fatigue Crack Growth
◽
Crack Growth
◽
Mixed Mode
◽
Mode I
◽
Loading Conditions
◽
Growth Behaviour
◽
Mode Iii
◽
Crack Growth Behaviour
Download Full-text
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References
Evaluation of Fatigue Crack Growth Behaviour of SS 316 LN Steel under Mixed Mode Loading (Mode I & II)
Procedia Engineering
◽
10.1016/j.proeng.2014.11.064
◽
2014
◽
Vol 86
◽
pp. 639-644
◽
Cited By ~ 2
Author(s):
M. Nani Babu
◽
S. Venugopal
◽
G. Sasikala
Keyword(s):
Fatigue Crack
◽
Fatigue Crack Growth
◽
Crack Growth
◽
Mixed Mode
◽
Mode I
◽
Mixed Mode Loading
◽
Growth Behaviour
◽
Crack Growth Behaviour
◽
Loading Mode
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FATIGUE CRACK GROWTH BEHAVIOUR OF SM45C STEEL UNDER MIXED-MODE I AND II LOADING
Fatigue & Fracture of Engineering Materials & Structures
◽
10.1046/j.1460-2695.1998.00103.x
◽
1998
◽
Vol 21
(9)
◽
pp. 1037-1048
◽
Cited By ~ 4
Author(s):
BR You
◽
SB Lee
Keyword(s):
Fatigue Crack
◽
Fatigue Crack Growth
◽
Crack Growth
◽
Mixed Mode
◽
Mode I
◽
Growth Behaviour
◽
Crack Growth Behaviour
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Fatigue crack growth behaviour of Ti-5Al-2·5Sn alloy under complex stress (mode I + steady mode III)
Metals Technology
◽
10.1179/mt.1978.5.1.154
◽
1978
◽
Vol 5
(1)
◽
pp. 154-158
◽
Cited By ~ 23
Author(s):
F. Hourlier
◽
D. McLean
◽
A. Pineau
Keyword(s):
Fatigue Crack
◽
Fatigue Crack Growth
◽
Crack Growth
◽
Complex Stress
◽
Mode I
◽
Growth Behaviour
◽
Mode Iii
◽
Crack Growth Behaviour
◽
Stress Mode
◽
Steady Mode
Download Full-text
Mixed Mode Fatigue Crack Growth Behaviour and Lifing Implications in AA8090
Fatigue '96
◽
10.1016/b978-008042268-8/50049-6
◽
1996
◽
pp. 1037-1042
Author(s):
I. Sinclair
◽
P.J. Gregson
Keyword(s):
Fatigue Crack
◽
Fatigue Crack Growth
◽
Crack Growth
◽
Mixed Mode
◽
Growth Behaviour
◽
Crack Growth Behaviour
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Mode I notch fatigue crack growth behaviour under constant amplitude loading and due to the application of a single tensile overload
International Journal of Fatigue
◽
10.1016/s0142-1123(03)00093-8
◽
2004
◽
Vol 26
(2)
◽
pp. 183-192
◽
Cited By ~ 17
Author(s):
M Hammouda
Keyword(s):
Fatigue Crack
◽
Fatigue Crack Growth
◽
Crack Growth
◽
Mode I
◽
Constant Amplitude
◽
Growth Behaviour
◽
Crack Growth Behaviour
◽
Tensile Overload
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THE INFLUENCE OF PRECRACKING TECHNIQUES ON FATIGUE CRACK GROWTH THRESHOLDS UNDER MIXED MODE I/II LOADING CONDITIONS
Fatigue & Fracture of Engineering Materials & Structures
◽
10.1111/j.1460-2695.1994.tb00214.x
◽
2007
◽
Vol 17
(11)
◽
pp. 1261-1269
◽
Cited By ~ 12
Author(s):
J. Tong
◽
J. R. Yates
◽
M. W. Brown
Keyword(s):
Fatigue Crack
◽
Fatigue Crack Growth
◽
Crack Growth
◽
Mixed Mode
◽
Mode I
◽
Loading Conditions
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Fatigue Crack Growth Behaviour Under Mixed Mode Loading in UDIMET 720 SX
Superalloys 2004 (Tenth International Symposium)
◽
10.7449/2004/superalloys_2004_295_303
◽
2004
◽
Cited By ~ 1
Author(s):
M.R. Joyce
◽
P.A.S. Reed
Keyword(s):
Fatigue Crack
◽
Fatigue Crack Growth
◽
Crack Growth
◽
Mixed Mode
◽
Mixed Mode Loading
◽
Growth Behaviour
◽
Crack Growth Behaviour
◽
Udimet 720
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A scaling approach to model history effects in fatigue crack growth under mixed mode I+II+III loading conditions for a 316L stainless steel
International Journal of Fatigue
◽
10.1016/j.ijfatigue.2011.10.013
◽
2012
◽
Vol 42
◽
pp. 207-216
◽
Cited By ~ 9
Author(s):
Flavien Fremy
◽
Sylvie Pommier
◽
Erwan Galenne
◽
Stephan Courtin
Keyword(s):
Stainless Steel
◽
Fatigue Crack
◽
Fatigue Crack Growth
◽
Crack Growth
◽
Mixed Mode
◽
316L Stainless Steel
◽
Mode I
◽
Loading Conditions
◽
History Effects
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The influence of precracking techniques on fatigue crack growth thresholds under mixed mode I/II loading conditions Tong, J., Yates, J.R. and Brown, M.W. Fatigue Fract. Eng. Mater. Struct. (11 Nov. 1994) 17 (11), 1261–1269
International Journal of Fatigue
◽
10.1016/0142-1123(96)82807-6
◽
1996
◽
Vol 18
(1)
◽
pp. 64
Keyword(s):
Fatigue Crack
◽
Fatigue Crack Growth
◽
Crack Growth
◽
Mixed Mode
◽
Mode I
◽
Loading Conditions
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Fatigue crack growth behaviour of gamma base titanium aluminides under different loading conditions
Bulletin of Materials Science
◽
10.1007/bf02745556
◽
1999
◽
Vol 22
(5)
◽
pp. 933-936
Author(s):
R Gnanamoorthy
◽
Y Mutoh
Keyword(s):
Fatigue Crack
◽
Fatigue Crack Growth
◽
Crack Growth
◽
Titanium Aluminides
◽
Loading Conditions
◽
Growth Behaviour
◽
Crack Growth Behaviour
Download Full-text
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Evaluation of Fatigue Crack Growth Behaviour of SS 316 LN Steel under Mixed Mode Loading (Mode I & II)
