Publication detail
Effect of post process shear straining on structure and mechanical properties of 316 L stainless steel manufactured via powder bed fusion
KUNČICKÁ, L. KOCICH, R. NÉMETH, G. DVOŘÁK, K. PAGÁČ, M.
English title
Effect of post process shear straining on structure and mechanical properties of 316 L stainless steel manufactured via powder bed fusion
Type
journal article in Web of Science
Language
en
Original abstract
Powder Bed Fusion (PBF) has become popular despite the fact that PBF-prepared components feature characteristic defects. Their performance, however, can be shifted to the next level by the application of postprocessing, advantageously via intensive plastic deformation. The study characterizes the effects of rotary swaging performed at hot, cold, and cryogenic conditions on the (sub)structure and mechanical properties of workpieces of AISI 316 L stainless steel, favourably used in constructions as well as medicine, manufactured by PBF. The workpieces built in the horizontal and vertical directions were analysed to assess their structures, residual strain and stress, density, and porosity; porosity was observed primarily in the horizontally built workpiece also featuring lower density and larger average grain size. Subsequently, the workpieces were subjected to rotary swaging, which contributed to (almost) complete elimination of porosity, evident substructure development, and significant grain refinement – the vertically built workpiece exhibited the avg. grain size of 2.3 μm, 1.8 μm, and 0.1 μm after hot, cold, and cryo swaging. The cryo-swaged sample also exhibited specific texture, room temperature ultimate tensile strength (UTS) of more than 2 000 MPa, and two times higher microhardness compared to the as-build workpiece. All the swaged pieces exhibited significantly improved mechanical properties, even at the testing temperature of 900 °C.
English abstract
Powder Bed Fusion (PBF) has become popular despite the fact that PBF-prepared components feature characteristic defects. Their performance, however, can be shifted to the next level by the application of postprocessing, advantageously via intensive plastic deformation. The study characterizes the effects of rotary swaging performed at hot, cold, and cryogenic conditions on the (sub)structure and mechanical properties of workpieces of AISI 316 L stainless steel, favourably used in constructions as well as medicine, manufactured by PBF. The workpieces built in the horizontal and vertical directions were analysed to assess their structures, residual strain and stress, density, and porosity; porosity was observed primarily in the horizontally built workpiece also featuring lower density and larger average grain size. Subsequently, the workpieces were subjected to rotary swaging, which contributed to (almost) complete elimination of porosity, evident substructure development, and significant grain refinement – the vertically built workpiece exhibited the avg. grain size of 2.3 μm, 1.8 μm, and 0.1 μm after hot, cold, and cryo swaging. The cryo-swaged sample also exhibited specific texture, room temperature ultimate tensile strength (UTS) of more than 2 000 MPa, and two times higher microhardness compared to the as-build workpiece. All the swaged pieces exhibited significantly improved mechanical properties, even at the testing temperature of 900 °C.
Keywords in English
Rotary swaging; Powder bed fusion; AISI 316 L; Stainless steel; Microstructure;
Released
08.09.2022
Publisher
ELSEVIER
Location
AMSTERDAM
ISSN
2214-8604
Volume
59
Number
1
Pages from–to
1–15
Pages count
15
BIBTEX
@article{BUT179206,
author="Lenka {Kunčická} and Radim {Kocich} and Gergely {Németh} and Karel {Dvořák} and Marek {Pagáč},
title="Effect of post process shear straining on structure and mechanical properties of 316 L stainless steel manufactured via powder bed fusion",
year="2022",
volume="59",
number="1",
month="September",
pages="1--15",
publisher="ELSEVIER",
address="AMSTERDAM",
issn="2214-8604"
}