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2669578 
Journal Article 
Enhancing mechanical properties and formability of AISI 301LN stainless steel sheet by local laser heat treatment 
Jarvenpaa, A; Jaskari, M; Karjalainen, LP; Hietala, M 
2013 
Key Engineering Materials
ISSN: 1013-9826
EISSN: 1662-9795 
Key Engineering Materials 
554-557 
885-892 
WOS:000322092100100 
This study demonstrates applying local laser heat treatment to produce ultrafine-grained austenite (UFGA) structures in an AISI 301LN type commercial austenitic steel. Pieces of 50% cold-rolled sheets containing more than 90% strain-induced martensite were heated locally by a laser beam to various peak temperatures to obtain different degrees of martensite reversion to austenite. Mechanical properties and formability of grain-refined and coarse-grained structures were measured by tensile and Erichsen cup tests. In addition to standard Erichsen cup test, additional interrupted tests were carried out, where cups were first stretched close to the critical strain. Drawn cups were then heated locally by a laser beam to revitalize the structure and thereby enhance the formability in the following cupping test until failure.



Results showed that local laser heat treatment is suitable for the reversion treatment to refine the austenite grain size. Various structures were produced: completely reverted microstructures (T > 700 degrees C) with grain sizes 0.9 - 2 mu m in addition to partially reverted structure (T < 700 degrees C) containing nano- and ultrafme-grained austenite (0.6 mu m) with some martensite. The grain refinement by local annealing improved the strength properties. The Erichsen cup tests showed that the formability was equal in the completely reverted ultrafine-grained structures to that of the coarse-grained sheets. It was demonstrated that the local laser treatment restored formability of the drawn cups, allowing stretching to be continued. The second forming step after the laser-treatment provided an enhancement of 19 and 14% in the cup depths in coarse-grained and ultrafine-grained steels, respectively, even though the laser-treatment parameters were not optimized yet. 
Laser heat treatment; stainless steel; grain size refinement; reversion; strength; formability