Publication detail
INFLUENCE OF DEFORMATION TEMPERATURE AND STRAIN RATE ON THE MAXIMUM FLOW STRESS LEVEL OF THE 3D PRINTED AISI 316L STEEL
Opěla Petr, Benč Marek
English title
INFLUENCE OF DEFORMATION TEMPERATURE AND STRAIN RATE ON THE MAXIMUM FLOW STRESS LEVEL OF THE 3D PRINTED AISI 316L STEEL
Type
conference paper
Language
en
Original abstract
The AISI 316L stainless steel is one of the most used 3D printed powder materials due to its good properties. It goes without saying that the properties of the 3D printed steel are naturally less or more different compared to the material which was prepared conventionally. One of the important material characteristics is its flow stress evolution under various thermomechanical circumstances, which has a direct connection to the deformation behavior. The hot deformation behavior of the examined 3D printed steel is in the frame of the submitted research studied with regard to the peak stress levels experimentally achieved under a wide temperature and strain rate range, as well as from the point of view of the onset of a dynamic softening phenomenon – in addition with an emphasis on the corresponding mathematical description. The obtained results indicate a minimal and maximal flow stress level of 65 MPa and 381 MPa as for the combination of 1,523 K – 0.1 s(-1) and 1,173 K – 100 s(-1), respectively. The experimentally achieved peak point coordinates have been described with a good accuracy – corresponding to the Pearson's correlation coefficient of 0.8238 and 0.9919 as regards to the peak strain and peak stress, respectively.
English abstract
The AISI 316L stainless steel is one of the most used 3D printed powder materials due to its good properties. It goes without saying that the properties of the 3D printed steel are naturally less or more different compared to the material which was prepared conventionally. One of the important material characteristics is its flow stress evolution under various thermomechanical circumstances, which has a direct connection to the deformation behavior. The hot deformation behavior of the examined 3D printed steel is in the frame of the submitted research studied with regard to the peak stress levels experimentally achieved under a wide temperature and strain rate range, as well as from the point of view of the onset of a dynamic softening phenomenon – in addition with an emphasis on the corresponding mathematical description. The obtained results indicate a minimal and maximal flow stress level of 65 MPa and 381 MPa as for the combination of 1,523 K – 0.1 s(-1) and 1,173 K – 100 s(-1), respectively. The experimentally achieved peak point coordinates have been described with a good accuracy – corresponding to the Pearson's correlation coefficient of 0.8238 and 0.9919 as regards to the peak strain and peak stress, respectively.
Keywords in English
AISI 316L steel; 3D printing; hot deformation; peak stress; softening onset
Released
12.07.2024
Publisher
TANGER LTD
Location
SLEZSKA
ISBN
978-80-88365-12-9
Book
Metal 2023
Pages from–to
188–191
Pages count
4
BIBTEX
@inproceedings{BUT197245,
author="Marek {Benč} and Marek {Benč},
title="INFLUENCE OF DEFORMATION TEMPERATURE AND STRAIN RATE ON THE MAXIMUM FLOW STRESS LEVEL OF THE 3D PRINTED AISI 316L STEEL",
booktitle="Metal 2023",
year="2024",
month="July",
pages="188--191",
publisher="TANGER LTD",
address="SLEZSKA",
isbn="978-80-88365-12-9"
}