kw.\*:("Low cycle fatigue")
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Finite-element analysis of a PBGA assembly under isothermal/mechanical twisting loadingYANG, Q. J; SHI, X. Q; WANG, Z. P et al.Finite elements in analysis and design. 2003, Vol 39, Num 9, pp 819-833, issn 0168-874X, 15 p.Article
A unified expression for low cycle fatigue and extremely low cycle fatigue and its implication for monotonic loadingLIANG XUE.International journal of fatigue. 2008, Vol 30, Num 10-11, pp 1691-1698, issn 0142-1123, 8 p.Article
Multi-scale deformation behavior investigation of 18Cr-8Ni austenitic steel subjected to low-cycle fatigue loadingDUYI YE; MATSUOKA, Saburo; NAGASHIMA, Nobuo et al.Materials characterization. 2005, Vol 55, Num 2, pp 106-117, issn 1044-5803, 12 p.Article
What is fatigue damage? A view point from the observation of low cycle fatigue processMURAKAMI, Y; MILLER, K. J.International journal of fatigue. 2005, Vol 27, Num 8, pp 991-1005, issn 0142-1123, 15 p.Conference Paper
Influence parameters of martensitic transformation during low cycle fatigue for steel AISI 321GROSSE, M; KALKHOF, D; KELLER, L et al.Physica. B, Condensed matter. 2004, Vol 350, Num 1-3, pp 102-106, issn 0921-4526, 5 p.Conference Paper
Low-cycle fatigue characteristics of rolled Mg-3Al-1Zn alloySUNG HYUK PARK; HONG, Seong-Gu; BYOUNG HO LEE et al.International journal of fatigue. 2010, Vol 32, Num 11, pp 1835-1842, issn 0142-1123, 8 p.Article
Low cycle fatigue damage mechanism of the lightweight alloy A12024KHAN, S; WILDE, F; BECKMANN, F et al.International journal of fatigue. 2012, Vol 38, pp 92-99, issn 0142-1123, 8 p.Article
A new model for low cycle fatigue of metal alloys under non-proportional loadingGLADSKYI, Maksym; SHUKAEV, Sergiy.International journal of fatigue. 2010, Vol 32, Num 10, pp 1568-1572, issn 0142-1123, 5 p.Article
Environmental effects on low cycle fatigue of 2024-T351 and 7075-T651 aluminum alloysLEE, E. U; VASUDEVAN, A. K; GLINKA, G et al.International journal of fatigue. 2009, Vol 31, Num 11-12, pp 1938-1942, issn 0142-1123, 5 p.Conference Paper
Method of low-cycle fatigue testingBUDACH, C; BOGATETS, K; MIKOLASHEK, M et al.Zavodskaâ laboratoriâ. 1983, Vol 49, Num 1, pp 70-74, issn 0321-4265Article
Low-cycle fatigue of a multi-layered aluminum sheet alloyUNIGOVSKI, Ya. B; GRINBERG, A; GERAFI, E et al.Surface & coatings technology. 2013, Vol 232, pp 695-702, issn 0257-8972, 8 p.Article
Load path sensitivity and fatigue life estimation of 30CrNiMo8HHNOBAN, M; JAHED, H; IBRAHIM, E et al.International journal of fatigue. 2012, Vol 37, pp 123-133, issn 0142-1123, 11 p.Article
The high- and low-cycle fatigue behavior of Ni-contain steels and Ni-alloys in high pressure hydrogenBALITSKII, Alexander; VYTVYTSKYII, Victor; IVASKEVICH, Ljubomyr et al.International journal of fatigue. 2012, Vol 39, pp 32-37, issn 0142-1123, 6 p.Conference Paper
Mean strain influence in low cycle fatigue behavior of AA7175-T1 aluminum alloySALERNO, Gigliola; MAGNABOSCO, Rodrigo; NETO, Carlos De Moura et al.International journal of fatigue. 2007, Vol 29, Num 5, pp 829-835, issn 0142-1123, 7 p.Article
Verification of numerical determination of carrying capacity of large rolling bearings with hardened racewayKUNC, Robert; ZEROVNIK, Andrej; PREBIL, Ivan et al.International journal of fatigue. 2007, Vol 29, Num 9-11, pp 1913-1919, issn 0142-1123, 7 p.Conference Paper
Determination of low-cycle fatigue strength of nonstabilized austenitic steelsBOGATETS, K; BUDACH, C.Zavodskaâ laboratoriâ. 1983, Vol 49, Num 1, pp 79-83, issn 0321-4265Article
Investigation of the mechanism of failure under low-cycle nonisothermal loadKAZANTSEV, A.G; CHERNYKH, A.N; GUSENKOV, A.P et al.Zavodskaâ laboratoriâ. 1983, Vol 49, Num 1, pp 74-79, issn 0321-4265Article
High-temperature low cycle fatigue behavior of a gray cast ironFAN, K. L; HE, G. Q; SHE, M et al.Materials characterization. 2014, Vol 98, pp 37-46, issn 1044-5803, 10 p.Article
Low-cycle fatigue properties of a titanium alloy exhibiting nonlinear elastic deformation behaviorZHANG, S. Q; LI, S. J; JIA, M. T et al.Acta materialia. 2011, Vol 59, Num 11, pp 4690-4699, issn 1359-6454, 10 p.Article
Quantification of fatigue damage accumulation using non-linear ultrasound measurementsORUGANTI, Ramkumar K; SIVARAMANIVAS, Ramaswamy; KARTHIK, T. N et al.International journal of fatigue. 2007, Vol 29, Num 9-11, pp 2032-2039, issn 0142-1123, 8 p.Conference Paper
Influence des surcharges sur la cinétique de la destruction pour une charge rigide de faible nombre de cycles en tenant compte des variations de l'asymétrie du cycle des contraintesVARYANITSA, V. YU; EGOROV, V. I; SOBOLEV, N. D et al.Mašinovedenie. 1983, Num 6, pp 72-75, issn 0025-4576Article
Cyclic deformation behavior of HAYNES® HR-120® superalloy under low-cycle fatigue loadingCHEN, L. J; LIAW, P. K; WANG, H et al.Mechanics of materials. 2004, Vol 36, Num 1-2, pp 85-98, issn 0167-6636, 14 p.Conference Paper
Low-cycle fatigue behavior of an As-extruded AM50 magnesium alloyLIJIA CHEN; CHUNYAN WANG; WEI WU et al.Metallurgical and materials transactions. A, Physical metallurgy and materials science. 2007, Vol 38, Num 13, pp 2235-2241, issn 1073-5623, 7 p.Conference Paper
Strain-Controlled Low-Cycle Fatigue Properties of a Newly Developed Extruded Magnesium AlloyBEGUM, S; CHEN, D. L; XU, S et al.Metallurgical and materials transactions. A, Physical metallurgy and materials science. 2008, Vol 39, Num 12, pp 3014-3026, issn 1073-5623, 13 p.Article
On the failure condition in strain-controlled low cycle fatigue = Condition de rupture dans la fatigue oligocyclique à contrainte contrôléeBHANU SANKARA RAO, K; VALSAN, M; SANDHYA, R et al.International journal of fatigue. 1985, Vol 7, Num 3, pp 141-147, issn 0142-1123Article