Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Research › peer-review
Influence of the creep ageing process on the fatigue properties of components from V95pchT2 (analog 7175T76) and V95ochT2 (analog 7475) aluminium alloys. / Larichkin, A.; Zakharchenko, K.; Gorev, B. et al.
ALL-RUSSIAN CONFERENCE WITH INTERNATIONAL PARTICIPATION MODERN PROBLEMS OF CONTINUUM MECHANICS AND EXPLOSION PHYSICS DEDICATED TO THE 60TH ANNIVERSARY OF LAVRENTYEV INSTITUTE OF HYDRODYNAMICS SB RAS. Vol. 894 1. ed. IOP Publishing Ltd., 2017. (Journal of Physics: Conference Series).Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Research › peer-review
}
TY - GEN
T1 - Influence of the creep ageing process on the fatigue properties of components from V95pchT2 (analog 7175T76) and V95ochT2 (analog 7475) aluminium alloys
AU - Larichkin, A.
AU - Zakharchenko, K.
AU - Gorev, B.
AU - Kapustin, V.
AU - Maksimovskiy, E.
AU - Chesnokov, A
AU - Pruuel, E
AU - Shelukhin, V
PY - 2017/10/22
Y1 - 2017/10/22
N2 - Influence of conditions of technological process of forming thick panels of a given geometry on fatigue limit of flat specimens from the V95ochT2 and V95pchT2 (analogues 7475 and 7175T76) alloys (Al-Mg-Cu-Zn) has been analysed. The process has been simulated experimentally on flat samples for temperatures 20, 165 and 420 degrees C. The process includes: non-elastic strain in the range 10(-5) - 10(-2) s(-1) up to 2% of total strain, followed by heat treatment according to T2 mode (quenching and aging). Fatigue life tests were carried out both on solid samples and on samples with a hole. It has been shown that resistance to fatigue of the observed alloys after forming at the annealing temperature (420 degrees C) is comparable to the basic material resistance to fatigue. Meso-structure analysis showed absence of stress in grains. It is established that, on average, the shape of the grains is the same for a series of samples for different temperatures and loading rates. The results of testing samples with a hole showed that fatigue limit slightly decreases in samples which were previously deformed at (420 degrees C), with respect to the durability of samples from the material in basic state. With an increase in rate of pre-strain, the relative number of cycles before destruction occurs increased.
AB - Influence of conditions of technological process of forming thick panels of a given geometry on fatigue limit of flat specimens from the V95ochT2 and V95pchT2 (analogues 7475 and 7175T76) alloys (Al-Mg-Cu-Zn) has been analysed. The process has been simulated experimentally on flat samples for temperatures 20, 165 and 420 degrees C. The process includes: non-elastic strain in the range 10(-5) - 10(-2) s(-1) up to 2% of total strain, followed by heat treatment according to T2 mode (quenching and aging). Fatigue life tests were carried out both on solid samples and on samples with a hole. It has been shown that resistance to fatigue of the observed alloys after forming at the annealing temperature (420 degrees C) is comparable to the basic material resistance to fatigue. Meso-structure analysis showed absence of stress in grains. It is established that, on average, the shape of the grains is the same for a series of samples for different temperatures and loading rates. The results of testing samples with a hole showed that fatigue limit slightly decreases in samples which were previously deformed at (420 degrees C), with respect to the durability of samples from the material in basic state. With an increase in rate of pre-strain, the relative number of cycles before destruction occurs increased.
KW - AGE
KW - PANELS
UR - http://www.scopus.com/inward/record.url?scp=85033220779&partnerID=8YFLogxK
U2 - 10.1088/1742-6596/894/1/012050
DO - 10.1088/1742-6596/894/1/012050
M3 - Conference contribution
VL - 894
T3 - Journal of Physics: Conference Series
BT - ALL-RUSSIAN CONFERENCE WITH INTERNATIONAL PARTICIPATION MODERN PROBLEMS OF CONTINUUM MECHANICS AND EXPLOSION PHYSICS DEDICATED TO THE 60TH ANNIVERSARY OF LAVRENTYEV INSTITUTE OF HYDRODYNAMICS SB RAS
PB - IOP Publishing Ltd.
T2 - All-Russian Conference on Modern Problems of Continuum Mechanics and Explosion Physics Dedicated to the 60th Anniversary of Lavrentyev-Institute-of-Hydrodynamics-SB-RAS
Y2 - 4 September 2017 through 8 September 2017
ER -
ID: 18739612