One of the main problems in welding is the microstructural transformation within the area affected by the thermal history. The resulting heterogeneous microstructure within the weld nugget and the heat affected zones is often associated with changes in local material properties. The present work deals with the identification of material parameters governing the elasto—plastic behaviour of the fused and heat affected zones as well as the base material for titanium hybrid welded joints (Ti6Al4V alloy). The material parameters are identified from heterogeneous strain fields with the Virtual Fields Method. This method is based on a relevant use of the principle of virtual work and it has been shown to be useful and much less time consuming than classical finite element model updating approaches applied to similar problems. The paper will present results and discuss the problem of selection of the weld zones for the identification.

Full-Field strain measurement on titanium welds and local elasto-plastic identification with the virtual fields method / Tattoli, F; Pierron, F; Rotinat, R; Casavola, Caterina; Pappalettere, Carmine. - 1315:(2010), pp. 860-865. [10.1063/1.3552559]

Full-Field strain measurement on titanium welds and local elasto-plastic identification with the virtual fields method

CASAVOLA, Caterina;PAPPALETTERE, Carmine
2010-01-01

Abstract

One of the main problems in welding is the microstructural transformation within the area affected by the thermal history. The resulting heterogeneous microstructure within the weld nugget and the heat affected zones is often associated with changes in local material properties. The present work deals with the identification of material parameters governing the elasto—plastic behaviour of the fused and heat affected zones as well as the base material for titanium hybrid welded joints (Ti6Al4V alloy). The material parameters are identified from heterogeneous strain fields with the Virtual Fields Method. This method is based on a relevant use of the principle of virtual work and it has been shown to be useful and much less time consuming than classical finite element model updating approaches applied to similar problems. The paper will present results and discuss the problem of selection of the weld zones for the identification.
2010
International conference on advances in materials and processing technologies (AMPT 2010)
978-0-7354-0871-5
American Institute of Physics
Full-Field strain measurement on titanium welds and local elasto-plastic identification with the virtual fields method / Tattoli, F; Pierron, F; Rotinat, R; Casavola, Caterina; Pappalettere, Carmine. - 1315:(2010), pp. 860-865. [10.1063/1.3552559]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11589/16660
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