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- aggregation classification "P1".
- aggregation creator B56113.
- aggregation creator B56114.
- aggregation creator B56115.
- aggregation date "2007".
- aggregation hasFormat 750052.bibtex.
- aggregation hasFormat 750052.csv.
- aggregation hasFormat 750052.dc.
- aggregation hasFormat 750052.didl.
- aggregation hasFormat 750052.doc.
- aggregation hasFormat 750052.json.
- aggregation hasFormat 750052.mets.
- aggregation hasFormat 750052.mods.
- aggregation hasFormat 750052.rdf.
- aggregation hasFormat 750052.ris.
- aggregation hasFormat 750052.txt.
- aggregation hasFormat 750052.xls.
- aggregation hasFormat 750052.yaml.
- aggregation isPartOf urn:isbn:9780878494286.
- aggregation isPartOf urn:issn:0255-5476.
- aggregation language "eng".
- aggregation publisher "Trans Tech Publications ltd".
- aggregation subject "Technology and Engineering".
- aggregation title "Static strain aging in cold rolled metastable austenitic stainless steels".
- aggregation abstract "Transformation of austenite to martensite during cold rolling operations is widely used to strengthen metastable austenitic stainless steel grades. Static strain aging (SSA) phenomena at low temperature, typically between 200 degrees C and 400 degrees C, can be used for additional increase in yield strength due to the presence of alpha'-martensite in the cold rolled metastable austenitic stainless steels. Indeed, SSA in austenitic stainless steel affects mainly in alpha'-martensite. The SSA response of three industrial stainless steel grades was investigated in order to understand the aspects of the aging phenomena at low temperature in metastable austenitic stainless steels. In this study, the optimization of, both, deformation and time-temperature parameters of the static aging treatment permitted an increase in yield strength up to 300 MPa while maintaining an acceptable total elongation in a commercial 301LN steel grade. Deformed metastable austenitic steels containing the "body-centered" alpha'-martensite are strengthened by the diffusion of interstitial solute atoms during aging at low temperature. Therefore, the carbon redistribution during aging at low temperature is explained in terms of the microstructural changes in austenite and martensite.".
- aggregation authorList BK142472.
- aggregation endPage "4896".
- aggregation startPage "4891".
- aggregation volume "539-543".
- aggregation isDescribedBy 750052.
- aggregation similarTo MSF.539-543.4891.
- aggregation similarTo LU-750052.