Open AccessTwo dimensional plastic waves in quasi rate independent viscoplastic materials
Author(s) -
Milan V. Mićunović,
C. Albertini,
Alfio Grillo,
Ivo Muha,
Gabriel Wittum,
Ljudmila Kudrjavceva
Publication year - 2011
Publication title -
theoretical and applied mechanics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.279
H-Index - 6
eISSN - 2406-0925
pISSN - 1450-5584
DOI - 10.2298/tam1101047m
Subject(s) - viscoplasticity , cruciform , materials science , bar (unit) , work (physics) , split hopkinson pressure bar , mechanics , ultimate tensile strength , tensor (intrinsic definition) , strain rate , structural engineering , composite material , mathematics , physics , constitutive equation , finite element method , geometry , engineering , thermodynamics , meteorology
The subject of this work is an analysis of the experimental biaxial Hopkinson bar technique when such a device consists of a cruciform tensile specimen surrounded by four very long elastic bars. Unlike commonly applied by-pass analysis which attempts to draw conclusions from behavior of elastic bars we attempt to take into account real plastic waves inside the specimen with few hundreds of reflections. A quasi rate-independent as well as a more general rate-dependent tensor function model for ASME 537 steel are applied. Plastic wave speeds non-existent in traditional elasto-viscoplasticity are analyzed. Some preliminary numerical results for symmetric and non-symmetric loading cases valid for initial and subsequent elastic ranges are given
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