Untersuchung der Dauerhubfestigkeit von Schraubenfedern im Bereich extrem hoher Schwingspielzahlen. Very high cycle fatigue behavior of helical compression springs
Author:
Publisher
Wiley
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Reference24 articles.
1. F. Fischer M. Plitzko G. Savaidis K. Wanke 2002
2. 2001
3. P. Valentin A. Bläsius 2002
4. P. Hora V. Leidenroth 1987
5. H. Salm Th. Heiderich 2002
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1. Fatigue strength of helical compression springs ‐ comparison of calculation methods according to DIN EN 13906‐1 and Forschungskuratorium Maschinenbau (FKM) guideline “Analytical strength assessment of springs and spring elements”;Materialwissenschaft und Werkstofftechnik;2021-02
2. On the Influence of Ultimate Number of Cycles on Lifetime Prediction for Compression Springs Manufactured from VDSiCr Class Spring Wire;Materials;2020-07-20
3. Very high cycle fatigue behaviour of compression springs under constant and variable amplitude loading;Materialwissenschaft und Werkstofftechnik;2019-11
4. VHCF Strength of Helical Compression Springs - Influence of Heat Treatment Temperature before Shot Peening;Key Engineering Materials;2015-09
5. Fatigue behaviour of helical compression springs at a very high number of cycles – Investigation of various influences;International Journal of Fatigue;2014-03
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