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Published in:
Principles of Spring Design Read chapter Read first chapter

2018 | OriginalPaper | Chapter

5. Disk Springs

Author : Vladimir Kobelev

Published in: Durability of Springs

Publisher: Springer International Publishing

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Abstract

In the current chapter the disk spring using the variation methods and equations of thin and moderately thick isotropic and anisotropic shells are investigated in closed analytical form. The equations developed here are based on common assumptions and are simple enough to be applied to the analysis. The analysis of isotropic and anisotropic thin-walled disk springs could be performed using basic spreadsheet tools, removing the need to perform an onerous finite element analysis.
The theory of linear and progressive disk wave springs is presented.

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previous chapter Coiling Process for Helical Springs
next chapter Creep and Relaxation of Springs
Footnotes
1
For the material thickness the symbol T is used, because symbol t is reserved for time.
 
Literature
Almen, J.O., Laszlo, A.: The uniform section disc spring. Trans. ASME. 58(4), 305–314 (1936)
Blom, A.W., Tatting, B.F., Hol, J., Gürdala, Z.: Fiber path definitions for elastically tailored conical shells. Compos. Part B. 40(1), 77–84 (2009)CrossRef
Catapano, A., Desmorat, B., Vannucci, P.: Stiffness and strength optimization of the anisotropy distribution for laminated structures. J. Optim. Theory Appl. 167(1), 118–146 (2015)MathSciNetCrossRefMATH
DIN EN 16984:2017-02.: Disc Springs—Calculation. German version EN 16984:2016 (2017)
Dumir, P.C.: Nonlinear axisymmetric response of orthotropic thin truncated conical and spherical caps. Acta Mech. 60, 121–132 (1986)CrossRefMATH
Fawazi, N., Lee, J.-Y., Oh, J.-E.: A load–displacement prediction for a bended slotted disc using the energy method. Proc. IMechE C J. Mech. Eng. Sci. 1–12 (2011)
Ferrari, G.: A new calculation method for belleville disc springs with contact flats and reduced thickness. Int. J. Manuf. Mater. Mech. Eng. 3(2), 63–73 (2013)
Hengstenberg, R.: Eigenspannungsentstehung in Tellerfedern und Schwingfestigkeit von Tellerfedern großer Scheibendicke, Diss. RWTH, Fak. Bergbau und Hüttenwesen, Aachen (1983)
Hübner, W.: Deformationen und Spannungen bei Tellerfedern. Konstruktion. 34, 387–392 (1982)
Hübner, W.: Large deformations of elastic conical shells. In: Axelrad, E.L., Emmerling, F.A. (eds.) Flexible Shells, pp. 257–270. Springer, Berlin (1984)CrossRef
Hübner, W., Emmerling, F.A.: Axialsymmetrische große Deformationen einer elastischen Kegelschale. ZAMM. 62, 408–411 (1982)CrossRef
Kobelev, V., Hesselmann, B., Rinsdorf, A.: Corrugated spring with gradual progressive spring characteristic, US 7334784 B2, US Patent Office (2003)
Lellep, J., Polikarpus, J.: Optimization of anisotropic circular plates. In: M. Shitikova et al (Ed.). Recent Advances in Mechanical Engineering. WSEAS, pp. 40−45 (2014). ISBN: 978-960-474-402-2, 40-45
Libai, A., Simmonds, J.G.: The Nonlinear Theory of Elastic Shells, One Spatial Dimension. Academic, London (1988)MATH
Marsden, J.E., Hughes, T.J.R.: Mathematical Foundations of Elasticity. Dover, New York (1994)MATH
Niepage, P.: Vergleich verschiedener Verfahren zur Berechnung von Tellerfedern—Teil I. Draht, 34, 105–108. Teil II. Draht. 34, 251–255 (1983)
Niepage, P., Schiffner, K., Gräb, B.: Theoretische und experimentelle Untersuchungen an geschlitzten Tellerfedern. VDI-Verlag, Düsseldorf (1987)
Rovati, M., Taliercio, A.: Stationarity of the strain energy density for some classes of anisotropic solids. Int. J. Solids Struct. 40, 6043–6075 (2003)MathSciNetCrossRefMATH
Saini, P.K., Kumar, P., Tandon, P.: Design and analysis of radially tapered disc springs with parabolically varying thickness. Proc. Inst. Mech. Eng. C J. Mech. Eng. Sci. 221(2), 151–158 (2007). doi:10.​1243/​0954406JMES114 CrossRef
Schremmer, G.: The slotted conical disc spring. Trans. ASME J. Eng. Ind. 95, 765–770 (1973)CrossRef
Shen, W., Fang, W.: Design of a friction clutch using dual Belleville structures. ASME J. Mech. Des. 129, (2007)
Society of Automotive Engineers.: Spring Design Manual. Part 5, SAE, HS-158, Warrendale, PA (1996)
Tavares, S.A.: Thin conical shells with constant thickness and under axisymmetric load. Comput. Struct. 60(6), 895–921 (1996)CrossRefMATH
Timoshenko, S., Woinowsky-Krieger, S.: Theory of Plate and Shell, 2nd edn. McGraw Hill, New York (1957)MATH
Ventsel, E., Krauthammer, T.: Thin Plates and Shells, Theory, Analysis, and Applications. Dekker AG, Basel (2001)CrossRef
Vinson, J.R.: The Behavior of Shells Composed of Isotropic and Composite Materials. Springer, Netherlands (1993)CrossRefMATH
Metadata
Title
Disk Springs
Author
Vladimir Kobelev
Copyright Year
2018
Book
Durability of Springs

Print ISBN: 978-3-319-58477-5

Electronic ISBN: 978-3-319-58478-2

Copyright Year: 2018

DOI
https://doi.org/10.1007/978-3-319-58478-2_5

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