ARTICLE
Stress-life curve for high and low cycle fatigue
 
More details
Hide details
1
Opole University of Technology, Faculty of Mechanical Engineering, Opole, Poland
Online publish date: 2019-07-15
Publish date: 2019-07-15
Submission date: 2017-07-25
Acceptance date: 2019-03-26
 
Journal of Theoretical and Applied Mechanics 2019;57(3):677–684
KEYWORDS
ABSTRACT
The paper contains a proposal of a new model for the stress-life curve. The new model reflects the nature of the stress curve occurring under current conditions, which means its shape of an inclined letter S. It can be used for both low and high cycle fatigue. Verification of the proposed model was performed on experimental results of ten various materials from three main types that are low-alloy, high-alloy and non-alloy steels.
 
REFERENCES (12)
1.
Basquin O.H., 1910, The experimental law of endurance test, Proceedings of ASTM, 10, 625-630.
 
2.
Bastenaire F.A., 1972, New method for the statistical evaluation of constant stress amplitude fatigue-test results. Probabilistic aspects of fatigue, ASTM STP, 511, 3-28.
 
3.
Bäumel A., Seeger T., 1990, Material Data for Cyclic Loading, Supplement 1, Materials Science Monographs, 61, Elsevier Science Publishers, Amsterdam.
 
4.
Kandil F.A., 2000, The Determination of Uncertainties in Low Cycle Fatigue Testing, Standards Measurement & Testing Project No. SMT4-CT97-2165, Issue 1, September, 1-26.
 
5.
Kato A., Hayashi M., 1999, Fatigue life estimation of steel using laser speckle sensor, NDT & E International, 32, 139-145.
 
6.
Kohout J., 2000, Temperature dependence of stress-lifetime fatigue curves, Fatigue and Fracture of Engineering Materials and Structures, 23, 12, 969-977.
 
7.
Kurek M., Lagoda T., Katzy D., 2014, Comparison of fatigue characteristics of some selected materials, Materials Testing, 56, 2, 92-95.
 
8.
Marcisz E., Niesłony A., Łagoda T., 2012, Concept of fatigue for determining characteristics of materials with strengthening, Fatigue Failure and Fracture Mechanics Book Series: Materials Science Forum, 726, 43-48.
 
9.
Palin-Luc T., 1996, Fatigue multiaxiale d’une fonte GS sous sollicitations combinées d’amplitude variable, Thèse de doctorat, ENSAM Bordeaux.
 
10.
Pascual F.G., Meeker W.Q., 1999, Estimating fatigue curves with the random fatigue-limit model, Technometrics, 41, 277-302.
 
11.
Stromeyer C.E., 1914, The determination of fatigue limits under alternating stress, conditions, Proceedings of the Royal Society of London. Series A, Mathematical and Physical Sciences, 90, 411-425.
 
12.
Wöhler A., 1858, Bericht über die versuche, welche auf der Königl. Niederschlesisch-Märkischen Eisenbahn mit Apparaten zum Messen der Biegung und Verdrehung von Eisenbahn-wagen-Achsen während der Fahrt, angestellt wurden, Zeitschrift für Bauwesen, 8, 642-652.
 
eISSN:2543-6309
ISSN:1429-2955