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[42374] Artykuł:

Elastic stresses in thin-walled torsional structures designed with SADSF method

Czasopismo: Engineering Transactions   Tom: 61, Zeszyt: 2, Strony: 137-150
ISSN:  0867-888X
Opublikowano: 2013
 
  Autorzy / Redaktorzy / Twórcy
Imię i nazwisko Wydział Katedra Procent
udziału		 Liczba
punktów
Ireneusz Markiewicz orcid logoWMiBMKatedra Mechaniki**1007.00  

Grupa MNiSW:  Publikacja w recenzowanym czasopiśmie wymienionym w wykazie ministra MNiSzW (część B)
Punkty MNiSW: 7

Web of Science LogoYADDA/CEON    
Słowa kluczowe:

projekt  konstrukcje cienkościenne  nośność graniczna  analiza MES  analiza MES 

Keywords:

design  thin-walled structures  limit load capacity  FEM analysis  FEM analysis 


Abstract:

The paper presents general conclusions arising from FEM analyses of elastic properties of thin-walled structures designed with the application version of the statically admissible discontinuous stress fields (SADSF) method. The analyses have been carried out as a part of a large-scale research program, whose main objective is conclusive verification of practical usefulness of the SADSF method in design. The present state of development of the method's application software is so advanced that it allows one to design even very complicated thinwalled structures composed of plane elements. This is a particular class of structures to which the Saint Venant's principle is not applicable [3, 4], and the methods based on consecutive iterative improvements should be applied with due caution. In the SADSF method one does not use iterations, and the method can be applied already at the stage when only boundary conditions are known [3, 4]. Unfortunately, the method is an approximate one and does not apply to the elastic range of stress that usually exists in exploitation conditions. On the basis of analyses carried out for several dozen cases of thin-walled structures designed with the SADSF method we can state, among other things, that in these structures there are dominating membrane states, deformations remain small, equivalent stress fields are well equalized also along free borders, stress concentrations are relatively low, and maximal levels of equivalent stresses are approximately the same in all component elements. It has also been proven that the structures designed with the SADSF method may have strength properties even several dozen times better that those of structures designed traditionally. The obtained conclusions are presented on the basis of three selected examples of original, which in this case have open-section structures (see e.g. [11]) designed to carry torsional load [3, 4].


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