Abstract
Two types of statically admissible stress fields for plastic design of are proposed. They are constructed by the method of characteristics (slip–lines), known from the theory of plastic flow. The structure of the fields is described and examples of possible applications are presented.References
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2. L. DIETRICH and J. MIASTKOWSKI, Limit load tests of pin joints [in Polish], Engng. Trans., 18, 4, 555–574, 1971.
3. W. SZCZEPIŃSKI, Plastic design of machine parts [in Polish], PWN, Warszawa 1968.
4. W. SZCZEPIŃSKI, Limit analysis and plastic design of structural elements of complex shape, [in:] Progress in Aerospace Sciences, D. KUCHEMANN [Ed.], Pergamon Press, 12, pp. 1–47, 1972.
5. W. SZCZEPIŃSKI and J. SZLAGOWSKI, Plastic design of complex shape structures, PWN – Horwood, Warszawa 1990.
6. A. WINZER and G.F. CARRIER, The interaction of discontinuity surfaces in plastic fields of stress, J.Appl. Mech., 15, 261–264, 1948.
7. W. ZOWCZAK, Design and load carrying capacity of pin joint elements [in Polish], Engng. Trans., 29, 2, 267–278, 1981.
8. W. ZOWCZAK, Design of structural elements by continuous statically admissible stress fields [in Polish], J. Theor. Appl. Mech., 19, 4, 563–573, 1981.
9. W. ZOWCZAK, Design of yoke elements by the method of characteristics [in Polish], Engng. Trans, 37, 3, 565–574, 1989.
10. W. ZOWCZAK, On a certain class of standard stress fields for plastic design, Engng. Trans, 44, 3–4, 483–497, 1996.
