Simulation of dynamic instabilities during high rate deformation of ductile bars and plates
Författare
Summary, in English
Effects of inertia are examined by introducing an artificial volume load, representing the hydrostatic pressure that follows a homogeneous deformation of a cylindrical bar where no necking is accounted for. The influence of elastic unloading is studied by comparing the necking patterns obtained for cylindrical bars, using two different material models,
J_2-flow theory and J_2-deformation theory. The deformation developments for the specimens of interest are visualized using a contour plot method denoted q-plot.
In the case of dynamic buckling of plates, the visualized results using the q-plot method are compared with that obtained using a direct geometrical method, denoted geo-plot. Ductile fracture is simulated by using cohesive elements, included in the original finite element mesh after a prescribed state of deformation is reached. Fracture is controlled by
the cohesive law, whereas the constitutive relation for the bulk material is chosen as J_2-flow
theory.
Avdelning/ar
Publiceringsår
2005
Språk
Engelska
Dokumenttyp
Doktorsavhandling
Förlag
Division of Mechanics, Lund University
Ämne
- Applied Mechanics
Nyckelord
- numerical simulation
- non-linear
- wave propagation
- multiple necking
- necking
- buckling
- fracture
- Mechanical engineering
- Maskinteknik
- finite elements
- cohesive elements
- dynamic
- J2-flow theory
- J2-deformation theory
- viscoplastic
- background inertia
Status
Published
Handledare
ISBN/ISSN/Övrigt
- ISBN: 91-628-6427-0
- ISRN: LUTFD2/TFME--05/2005--SE(1-94)
Försvarsdatum
17 mars 2005
Försvarstid
10:15
Försvarsplats
Room M:B of the M-building at Lund Institute of Technology, Lund University, Lund, Sweden
Opponent
- Peter Olsson (Professor)