eprintid: 2828
rev_number: 7
eprint_status: archive
userid: 354
dir: disk0/00/00/28/28
datestamp: 2017-12-25 03:49:20
lastmod: 2017-12-25 03:49:20
status_changed: 2017-12-25 03:49:20
type: article
metadata_visibility: show
creators_name: S. Bondar, Valentin
creators_name: V. Dansin, Vladimir
creators_name: D.Vu, Long
creators_name: Nguyen, Dinh Duc
creators_id: ducnd@vnu.edu.vn
title: Constitutive modeling of cyclic plasticity deformation and low–high-cycle fatigue of stainless steel 304 in uniaxial stress state
ispublished: pub
subjects: Mechanics
subjects: isi
divisions: fac_fema
abstract: For constructing a theory that adequately describes the effects of cycling loading, we initially analyze an experimental plastic hysteresis loop of the stainless steel SS304 and allocate on it three backstress types responsible for yield surface center displacement. Evolutionary equations per each backstresses type are formulated based on the equation of plasticity flow theory at combined (isotropic-kinematic) hardening. Material functions (parameters) closing the theory are defined, and basic experiment and identification methods of material function are formulated. Comparison of design results and experiments testifies their reliable compatibility.
date: 2017
date_type: published
publisher: Taylor & Francis
full_text_status: none
publication: Mechanics of Advanced Materials and Structures
pagerange: 1-9
refereed: TRUE
issn: 1537-6494
related_url_url: https://doi.org/10.1080/15376494.2017.1342882
citation:   S. Bondar, Valentin and V. Dansin, Vladimir and D.Vu, Long and Nguyen, Dinh Duc  (2017) Constitutive modeling of cyclic plasticity deformation and low–high-cycle fatigue of stainless steel 304 in uniaxial stress state.  Mechanics of Advanced Materials and Structures .   pp. 1-9.  ISSN 1537-6494