The variation of storage and heat energy in AISI 304 under plastic deformation
The results of the analysis of heat and stored energy variation in stainless steel AISI 304 under tension are presented in this work. The distributions of temperature and strain on the surface of specimens have been obtained by using infrared thermography and the digital image correlation of laser s...
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| Veröffentlicht in: | Thermal science 2019, Vol.23 (Suppl. 2), p.545-552 |
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| creator | Lunev, Alexey Nadezhkin, Mikhail |
| description | The results of the analysis of heat and stored energy variation in stainless
steel AISI 304 under tension are presented in this work. The distributions
of temperature and strain on the surface of specimens have been obtained by
using infrared thermography and the digital image correlation of laser
speckle patterns techniques. It has been found that the plastic flow
diagram consists of two linear stages. The first one is characterized by the
monotonic growth in evolved heat. At the second linear stage the portion of
stored energy rises, that is connected with the growth in the rate of
martensitic transformations. A temperature fluctuation in the center of a
specimen at the true strain over 0.4 appears due to the motion of localized
strain bands, which are also the sources of heat.
nema |
| doi_str_mv | 10.2298/TSCI19S2545L |
| format | Article |
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steel AISI 304 under tension are presented in this work. The distributions
of temperature and strain on the surface of specimens have been obtained by
using infrared thermography and the digital image correlation of laser
speckle patterns techniques. It has been found that the plastic flow
diagram consists of two linear stages. The first one is characterized by the
monotonic growth in evolved heat. At the second linear stage the portion of
stored energy rises, that is connected with the growth in the rate of
martensitic transformations. A temperature fluctuation in the center of a
specimen at the true strain over 0.4 appears due to the motion of localized
strain bands, which are also the sources of heat.
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steel AISI 304 under tension are presented in this work. The distributions
of temperature and strain on the surface of specimens have been obtained by
using infrared thermography and the digital image correlation of laser
speckle patterns techniques. It has been found that the plastic flow
diagram consists of two linear stages. The first one is characterized by the
monotonic growth in evolved heat. At the second linear stage the portion of
stored energy rises, that is connected with the growth in the rate of
martensitic transformations. A temperature fluctuation in the center of a
specimen at the true strain over 0.4 appears due to the motion of localized
strain bands, which are also the sources of heat.
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steel AISI 304 under tension are presented in this work. The distributions
of temperature and strain on the surface of specimens have been obtained by
using infrared thermography and the digital image correlation of laser
speckle patterns techniques. It has been found that the plastic flow
diagram consists of two linear stages. The first one is characterized by the
monotonic growth in evolved heat. At the second linear stage the portion of
stored energy rises, that is connected with the growth in the rate of
martensitic transformations. A temperature fluctuation in the center of a
specimen at the true strain over 0.4 appears due to the motion of localized
strain bands, which are also the sources of heat.
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| ispartof | Thermal science, 2019, Vol.23 (Suppl. 2), p.545-552 |
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| source | EZB-FREE-00999 freely available EZB journals; Free Full-Text Journals in Chemistry |
| subjects | Austenitic stainless steels Digital imaging Energy storage Heat Infrared imaging Internal energy Martensitic transformations Plastic deformation Plastic flow Speckle patterns Thermography True strain |
| title | The variation of storage and heat energy in AISI 304 under plastic deformation |
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