Abstract
A brief background is given related to general questions on the creation and development of the Three-Dimensional Linearized Theory of Stability (TDLTS) of deformable solid bodies in the historical aspect. It is noted that the intensive study and applications of this theory were caused by investigations of the stability of thick-walled metal structures and thin-walled composite structures with low shear strength; fracture and delamination of composite and pre-stressed materials; stability of rubber-like materials and structural elements; stability of rock workings etc. The sources for development of the TDLTS for elastic and viscoelastic composites within the scope of the initial imperfection criterion are also outlined briefly. A text preview is given and the scope of each chapter of the book is discussed. The list of references contains only works related to the general issues of the TDLTS.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Akbarov SD (1998) On the three dimensional stability loss problems of elements of constructions fabricated from the viscoelastic composite materials. Mech Comp Mater 34(6):537–544
Akbarov SD (2007) Three-dimensional instability problems for viscoelastic composite materials and structural members. Int Appl Mech 43 (10):1069–1089
Akbarov SD, Guz AN (2000) Mechanics of curved composites. Kluwer Academic Publishers, Dordrecht
Akbarov SD, Guz AN (2004) Mechanics of curved composites and some related problems for structural members. Mech Advan Mater Struct 11(6):445–515
Akbarov SD, YahnioÄŸlu N (2001) A method of investigation of the general theory of stability problems of structural elements fabricated from the visco-elastic composite materials. Composites Part B. Engineering 30: 475-482
Akbarov SD, Sisman T, Yahnioğlu N (1997) On the fracture of the unidirectional composites in compression. Int J Eng Sci 35(12/13):1115–1136
Babich IYu, Guz A.N (1983) Stability of bars, plates, and shells of composite materials (three-dimensional formulation): Survey. Int Appl Mech 19(10):835–849
Babich IYu, Guz AN (2002) Stability of composite structural members (three-dimensional formulation). Int Appl Mech 38(9):1048–1075
Babich IYu, Guz AN, Shulga NA (1982) Investigation of the dynamics and stability of composite materials in a 3-dimensional formulation (survey). Int Appl Mech 18(1):1–21
Babich IYu, Guz AN, Chechov VN (2001) The three-dimensional theory stability of fibrous and laminated materials. Int Appl Mech 37(9):1103–1141
Bažant ZP (1971) Correlation study of formulation of incremental deformation and stability of continuous bodies. Trans ASME, Mech Eng Ser A (4):344–358
Biezeno CB, Grammel R (1939) Technische Dynamik. Springer-Verlag, Berlin
Biezeno CB, Hencky H (1929) On the general theory of elastic stability. In: Proceedings Koninklijke Nederlandse Akademie van Wetenschappen, vol 32. Amsterdam, pp 444–456
Biot MA (1934) Sur la stabilité de l’équilibre élastique. Equations de l’élasticité d’un milieu soumis a tention initially. Ann Soc Sci Sect B 54(1):91–109
Biot MA (1939) Nonlinear theory of elasticity and the linearized case for a body under initial stresses. Philos Mag Ser 7, 27:89–115
Biot MA (1965) Mechanics of incremental deformations. New York: Wiley
Eringen AC, Suhubi ES (1975) Elastodynamics, Vol. 1 Finite motions. New York: Academic Press
Gerard F, Gilbert A (1958) A critical strain approach to creep buckling of plates and shells. J Aeroanaut Sci 25(7):429–438
Green AE, Adkins JE (1960) Large elastic deformations and non-linear continuum mechanics. Clarendon Press, Oxford
Green AE, Rivlin RS, Shield RT (1952) General theory of small elastic deformations superimposed on finite elastic deformations. Proceedings of the Royal Society A 211(1104):128–154
Guz AN (1971) Stability of three-dimensional deformable bodies (in Russian). Naukova Dumka, Kiev
Guz AN (1973) Stability of elastic bodies under finite deformations (in Russian). Naukova Dumka, Kiev
Guz AN (1977) Fundamentals of the theory of stability of mine workings (in Russian). Naukova Dumka, Kiev
Guz AN (1979) Stability of elastic bodies under all-round compression (in Russian). Naukova Dumka, Kiev
Guz AN (1983) Mechanics of brittle fracture of materials with initial stresses (in Russian). Naukova Dumka, Kiev
Guz AN (1999) Fundamentals of the Three-Dimensional Theory of Stability of Deformable Bodies. Springer-Verlag, Berlin Heideberg, 1999
Guz AN (2001) Constructing of the three-dimensional theory of stability of deformable bodies. Int Appl Mech 37(1):1–38
Guz AN (2003) Establishing the fundamentals of the theory of stability of mine workings. Int Appl Mech 39(1):20–48
Guz AN (2004) Design models in linearized solid mechanics. Int Appl Mech 40(5):506–516
Guz AN (2009) On the study of nonclassical problems of fracture mechanics and related mechanisms. Int Appl Mech 45(1):3–40
Hoff NJ (1954) Buckling and stability, Journal of the Royal Aeronautical Society, 58(1)
Kappus R (1939) Zur elastizitätstheorie endlicher verschiebungen. ZAMM 19(5):271–285, 19(6):344–361
Neuber H (1943) Die grundgleichungen der elastichen stabilat in allgemeinen koordinaten und ihre integration. ZAMM 23(6):63–82
Novozhilov VV (1953) Foundations of the nonlinear theory of elasticity. Graylock Press,Rochester, New York
Southwell RV (1913) On the general theory of elastic stability. Philosophical Transaction of the Royal Society of London, Serial A, 213:187–244
Trefftz E (1931) Über die ableitung der elastischen gleichgewichts aus der elastizitätstheorie end licher deformation. In: Proceedings of the 3rd international congress for applied mechanics, vol 3. Stockholm, pp 44–50
Trefftz E (1933) Zur theorie der stabilität des elastichen gleichgewichts. ZAMM 12(2):160–165
Truestell C (1972) A first course in rational continuum mechanics. The Johns Hopkins University, Baltimor, Maryland
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
Copyright information
© 2013 Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Akbarov, S. (2013). Introduction. In: Stability Loss and Buckling Delamination. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-30290-9_1
Download citation
DOI: https://doi.org/10.1007/978-3-642-30290-9_1
Published:
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-30289-3
Online ISBN: 978-3-642-30290-9
eBook Packages: EngineeringEngineering (R0)