Abstract
History and development of the tangent modulus from the origins to the recent nonsmooth damaging versions are presented. Load history and stability analyses of structures of nonlinear reversible or irreversible materials are based on the concept of tangent modulus. Generally, instantaneously changing tangent modulus is needed and the solution yields iteration process. In the case of inelastic problems, the switch from loading to unloading of the material behaviour results in nonsmooth material functions. Nonsmooth, generally saw-tooth like behaviour happens in composite, laminated or rock type materials, or in the interaction of concrete and the reinforcement, too. Recently, damage and localization are in the focus of structural analyses, extending the tangent modulus to the negative cases, as well. Consequently, an overview of the history and development of the tangent modulus containing the recent modifications seems to be necessary. On the other hand, the more than a century long history of the tangent modulus is a marvellous study of the parallel development of mechanics and mathematics, by following the mutual inspiring effect of them through the activity of such pioneers like P.D. Panagiotopoulos in creating Nonsmooth Mechanics.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Bazant, Z.P. and Cedolin, L. (1991), Stability of Structures. Elastic, Inelastic, Fracture and Damage Theories, Oxford University Press, New York Oxford.
Benallal, A., Billardon, R. and Geymonat, G. (1989), Some Mathematical Aspects of the Damage Softening Rate Problem, in Mazars, J. and Bazant, Z.P. (eds.), Cracking and Damage — Strain Localization and Size Effect, Elsevier, London, New York, 247-257.
Benallal, A., Billardon, R. and Geymonat, G. (1993), Bifurcation and Localization in Rate-Independent Materials, in Nguyen, Q.S. (ed.), Bifurcation and Stability of Dissipative Systems, CISM Lecture Notes, Springer.
Billardon, R. and Doghri, I. (1989), Localization Bifurcation Analysis for Damage Softening Elastoplastic Materials, in Mazars, J. and Bazant, Z.P. (eds.), Cracking and Damage — Strain Localization and Size Effect, Elsevier, London, New York, 295-303.
Bruhns, O.T. (1984), Bifurcation Problems in Plasticity, in Lehmann, Th. (ed.), The Constitutive Law in Thermoplasticity, CISM Lecture Notes 281, 461-540, Springer, Wien, New York.
Clarke, F.H. (1975), Generalized Gradients and Applications, Trans. Am. Math. Soc. 205: 247-262.
Del Piero, G. and Sampaio, R. (1989), Unified Treatment of Damage and Plasticity Based on a New Definition of Microfracture, Proc. Univ. Udine: 062.
Halphen, B. and Nguyen, Q.S. (1975), Sur les materiaux standards generalizes, J. de Mecanique, 1.
Hill, R. (1958), A General Theory of Uniqueness and Stability in Elastic-Plastic Solids, J. of Mechanics and Physics of Solids 6: 236-249.
Hill, R. (1962), Uniqueness Criteria and Extremum Principles in Self Adjoint Problems of Continuum Mechanics, J. of Mechanics and Physics of Solids. 10: 185.
Hill, R. (1967), On the Classical Constitutive Relations for Elastic-Plastic Solids. In: Recent Progress in Applied Mechanics 241. Wiley, New York.
Hill, R. (1978), Aspects of Invariance in Solid Mechanics, in Yih C.S. (ed.), Advances in Applied Mechanics 8: Academic Press.
Janson, J. and Hult, J. (1977), Fracture Mechanics and Damage Mechanics a Combined Approach, J. Mech. Appl. 1: 69-84.
Kaliszky, S. (1975), The Analysis of Structures with Conditional Joints, J. of Structural Mechanics, 6: 195-210.
Keener, J.P. (1988), Principles of Applied Mathematics. Transfonnation and Approximation, Addison Wesley Publ. Comp. California.
Kurutz, M. (1985), Generalized Conditional Joints as Subdifferential Constitutive Models, Zeitschrift fur Angewandte Mathematik und Mechanik, ZAMM, 65(5): T347-T348.
Kurutz, M. (1987), Analysis of Generalized Conditional Joints as Sub differential Constitutive Models, Mechanics of Structures and Machines, 15(2): 123-151.
Kurutz, M. (1991), On the Nonsmooth Stability Analysis, Zeitschrift fur Angewandte Mathematik und Mechanik, ZAMM, 72(4): Tl14-Tl17.
Kurutz, M. (1993), Stability of Structures with Nonsmooth Nonconvex Energy Functionals, European Journal of Mechanics, A/Solids, 12(3): 347-385.
Kurutz, M. (1994), Equilibrium Paths of Poligonally Elastic Structures, Mechanics of Structures and Machines, 22(2) 181-210.
Kurutz, M. (1996), Equilibrium Paths of Polygonally Damaging Sructures, Part one: The Nonsmooth Nonconvex Stability Problem, Part two: One Dimensional Example for Nonsmooth Damage and Localization, International Journal of Damage Mechanics, 5(1): 16-41. and 42–67.
Kurutz, M. (1997), Postbifurcation Equilibrium Paths Due to Nonlinear Configuration-Dependent Conservative Loading by Using Nonsmooth Analysis, Mechanics of Structures and Machines, 25(4) 445-476.
Kurutz, M. (1999), A survey of structural tangent stiffness in fully nonlinear and nonconvex cases including material softening, Mechanics of Structures and Machines, 27(1) 37-63.
Moreau, J.J. (1963), Fonctionelles sousdifferetiables. C.R. Acad. Sc. Paris, 257A: 4117-4119.
Moreau, J.J. (1968), La notion de surpotential et les liaisons unilaterales et elastostatique, C.R. Acad. Sc. Paris, 267A: 954-957.
Moreau, J.J. and Panagiotopoulos, P.D. (eds.) (1988), Nonsmooth Mechanics and Applications, CISM Lecture Notes, 302. Springer, New York, Wien.
Naniewicz, Z. and Panagiotopoulos, P.D. (1995), Mathematical Theory of Hemivariational Inequalities and Applications, Marcel Dekker, New York.
Nguyen, Q.S. (1990), Stabilite et bifurcation des systemes dissipatifs standards a comportement independant du temps physique, R. C. Acad. Sc. Paris, 310.
Nguyen, Q.S. (1993), Bifurcation and Stability of Time-Independent Standard Dissipative Systems, in Nguyen, Q.S. (ed.), Bifurcation and Stability of Dissipative Systems, CISM Lecture Notes, Springer.
Neilsen, M.K. and Schreyer, H.L. (1993), Bifurcations in Elasto-Plastic materials, Int. J. of Solids and Structures, 30(4): 521-544.
Panagiotopoulos, P.D. (1981), Nonconvex Superpotentials in the Sense of P. H. Clarke and applications, Mech. Res. Comm. 8: 335-340.
Panagiotopoulos, P.D. (1983), Nonconvex Energy Functions. Hemivariational Inequalities and Substationary Principles, Acta Mechanica, 42: 160-183.
Panagitopoulos, P.D. (1985), Inequality Problems in Mechanics and Applications. Convex and Nonconvex Energy Functions, Birkhauser, Basel.
Panagiotopoulos, P.D. (1988), Nonconvex Superpotentials and Hemivariational Inequalities. Quasidifferentiability in Mechanics, In Moreau, J.J. and Panagiotopoulos, P.D. (eds.), Nonsmooth Mechanics and Applications, CISM Lecture Notes 302: 83-176. Springer, New York, Wien.
Raniecki, B. and Bruhns, O.T. (1981), Bounds to Bifurcation Stresses in Solids with Nonassociated Plastic Flow Law at Finite Strain, Int. J. of Mechanics and Physics of Solids, 29: 153-172.
Rice, J.R. (1971), Inelastic Constitutive Relations For Solids: an Internal Variable Theory and its Application in Metal Plasticity, J. of Mechanics and Physics of Solids, 19.
Rice, J.R. (1976), The Localization of Plastic Deformations, in Koiter, W.T. (ed.), Theoretical and Applied Mechanics, North Holland P.C. 207-220.
Rice, J. R. and Rudnicki, J.W. (1980), A Note on Some Features of the Theory of Localization of Deformation, Int. J. of Solids and Structures 16: 596-605.
Rockafellar, R.T. (1970), Convex Analysis, Princeton University Press, Princeton.
Shanley, P.R. (1946), The Column Paradox, J. Aero. Sci. 13: 678.
Shanley, P.R. (1947), Inelastic Column Theory, J. Aero. Sci. 14: 261.
Suquet, P.M. (1985), Locking Materials and Hysteresis Phenomena, in Del Piero, G. and Maceri, P. (eds.), Unilateral Problems in Structural Analysis, CISM Lecture Notes 288: 339-373. Springer, Wien, New York.
Szabó, L. (1998), On the Eigenvalues of the Fourth-order Constitutive Tensor and Loss of Strong Ellipticity in Elastoplasticity, Int. J. of Plasticity, 13(10): 809-835.
Thompson, J.M.T. and Hunt, G.W. (1973), A General Theory of Elastic Stability, Wiley, London.
Thompson, J.M.T. and Hunt, G.W. (1984), Elastic Instability Phenomena, Wiley, Chichester.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Kurutz, M. Development of the Tangent Modulus from the Euler-Problem to Nonsmooth Materials. Journal of Global Optimization 17, 235–258 (2000). https://doi.org/10.1023/A:1026574020143
Issue Date:
DOI: https://doi.org/10.1023/A:1026574020143