2019
DOI: 10.1007/s42243-019-00306-x
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Combination of cold drawing and cryogenic turning for modifying surface morphology of metastable austenitic AISI 347 steel

Abstract: The application of components often depends to a large extent on the properties of the surface layer. A novel process chain for the production of components with a hardened surface layer from metastable austenitic steel was presented. The investigated metastable austenitic AISI 347 steel was cold-drawn in solution annealed condition at cryogenic temperatures for pre-hardening, followed by post-hardening via cryogenic turning. The increase in hardness in both processes was due to strain hardening and deformatio… Show more

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Cited by 11 publications
(3 citation statements)
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“…The Fig. 2 e Process chains for the manufacture of components with hardened surface layer from metastable austenitic steels: a) conventional process chain, b) surface layer hardening during cryogenic turning, according to [48].…”
Section: Measurement Technologymentioning
confidence: 99%
“…The Fig. 2 e Process chains for the manufacture of components with hardened surface layer from metastable austenitic steels: a) conventional process chain, b) surface layer hardening during cryogenic turning, according to [48].…”
Section: Measurement Technologymentioning
confidence: 99%
“…Austenitic stainless steels including AISI 304 grade have been the materials of choice for fabricating components and tools which require a combination of high strength and excellent corrosion resistance in service environments (Ma et al, 2016). AISI 304 has found extensive applications in the fabrication of food and beverage equipment in the food processing industry (Hotz et al, 2019), automotive exhaust system in automotive industry (Hong and Shin, 2017) and nuclear reactor and heat exchangers in the power generation industry (Arivazhagan et al, 2011). The fabrication of these components usually requires joining of various parts.…”
Section: Introductionmentioning
confidence: 99%
“…The factors that affect the metastable austenite phase transformation are the chemical composition, microstructure, temperature, stress/strain characteristics, and their combination [4]. The martensite transformation criteria rely on the stacking fault energy (SFE) of austenite and the phase transformation temperature of martensite Ms [5].…”
Section: Introductionmentioning
confidence: 99%