Comparison of Huber-Mises and Treska yield criteria

• Autorzy: Kowalik M. , Koniecko M.
• Języki publikacji: EN

Abstrakty

EN

The purpose of the paper is to compare two basic yield criteria met in engineering mechanics i.e. Huber-Mises and Treska. The various forms of the yield locus are presented and discussed. The paper has a review character.

PL

Artykuł przedstawia analizę porównawczą dwóch kryteriów plastyczności, tj. Hubera-Misesa i Treski. Zaprezentowano różne postacie warunków plastyczności. Praca ma charakter przeglądowy.

Słowa kluczowe

EN

engineering mechanics; plasticity; comparative analysis

PL

mechanika techniczna; plastyczność; analiza porównawcza

• Wydawca: Wydawnictwo Politechniki Częstochowskiej
• Czasopismo: Zeszyty Naukowe Politechniki Częstochowskiej. Budownictwo
• Rocznik: 2009
• Tom: Z. 15 (165)
• Strony: 127--135
• Opis fizyczny: Bibliogr. 25 poz., rys.

Twórcy

autor

Kowalik M.

autor

Koniecko M.

Bibliografia

• [1] Baltow A., Sawczuk A., A rule of anisotropic hardening, Acta Mechanika 1965, 2, 1-11.
• [2] Bednarski T., Mechanics of plastic flow, Polish Scientific Publishers, Warsaw 1995.
• [3] Drucker D.C., Some implications of work hardening and ideal plasticity, Quart Appl. Math. 1950, 7,411-418.
• [4] Drucker D.C., On uniqueness in the theory of plasticity, Quart Appl. Math. 1956, 14, 35-42.
• [5] Drucker D.C., A definition of stable inelastic material, J. Appl. Mech. 1959, 26, 101-106.
• [6] Drucker D.C., Prager W., Soil mechanics and plastic analysis of limit design, Quart Appl. Math. 1962, 10, 157-165.
• [7] Drucker D.C., On the postulate of stability of material in the mechanics of continua, Journal de Mecanique 1964, 3, 235-249.
• [8] Hill R., The mathematical theory of plasticity, Clarendon Press, Oxford 1956.
• [9] Hoffman O., Sachs G., Introduction to the theory of plasticity for engineers, McGraw-Hill Book Company, New York 1953.
• [10] Johnson W., Mellor P.B., Engineering plasticity, Van Nostrand Reinhold Company, London 1973.
• [11] Malinin N.N., The theory of plasticity and creep, Maszinostrojenije, Moscow 1975 (in Russian).
• [12] Marciniak Z., Mechanics of sheet forming, Polish Scientific Publishers, Warsaw 1961 (in Polish).
• [13] Mises R., Mechanik der festen Körper in plastisch deformablem Zustand, Götinger Nachrichten 1913.
• [14] Perzyna P., Theory of viscoplasticity, Polish Scientific Publishers, Warsaw 1966 (in Polish).
• [15] Perzyna P., Thermodynamics of non-elastic materials, Polish Scientific Publishers, Warsaw 1978.
• [16] Pokorska I., Deformation of powder metallurgy materials in cold and hot forming, Journal of Materials Processing Technology 2008, 196, 1-3, 15-32.
• [17] Pokorska I., Modeling of powder metallurgy processes, Advanced Powder Technology 2007, 18, 5, 503-539.
• [18] Pokorska I., Modele sztywno-plastycznych porowatych materiałów budowlanych, ZN Politechniki Częstochowskiej 2004 nr 158, Budownictwo 10, 137-141.
• [19] Pokorska I., Modelling of isotropic and kinematic hardening in porous materials, ZN Politechniki Częstochowskiej 2004 nr 158, Budownictwo 10, 143-156.
• [20] Pokorska I., Material hardening in porous lightweight structure undergoing thermomechanical loading, Lightweight Structures in Civil Engineering, International Seminar of IASS Polish Chapter, Warsaw 2004, 175-179.
• [21] Sawczuk A., Mechanics and plasticity of structures, Polish Scientific Publishers and Ellis Horwood Limited 1989.
• [22] Skrzypek J., Plasticity and Creep, Polish Scientific Publishers, Warsaw 1986.
• [23] Slater R.A.C., Engineering plasticity, Wiley, New York - Toronto 1977.
• [24] Służalec A., Theory of metal forming plasticity, Springer, 2004.
• [25] Tayler G.J., Quinney H., The plastic distortion of metals, Phil. Trans. Roy. Soc. 1931, A230.