Stretch-flangeability measures the ability of a material to form into a complex shape. The parameter is often related to simple properties derived from tensile tests. An attempt is made here to discover the best way to exploit tensile test data to indicate flangeabilty. It is found that the ultimate tensile strength of steel is the single most important criterion that correlates with stretch-flangeability.
SudoM., TsukataniI. and ShibataZ.: in ‘Metallurgy of continuous annealed sheet steel’, (ed. B. L. Bramfitt and P. L. Mangonon, Jr), 310-319; 1982, Warrendale, PA, AIME.
2.
SugimotoK. I., NagasakaA., KobayashiM. and HashimotoS. I.: ISIJ Int., 1999, 39, 56–63.
3.
MatsumuraO., SakumaY., IshiY. and ZhaoJ.: ISIJ Int., 1992,32, 1110–1116.
4.
HasegawaK., KawamuraK., UrabeK. and HosoyaY.: ISIJ Int., 2004, 44, 603–609.
5.
SugimotoK. I., SakaguchiJ., IidaT. and KashimaT.: ISIJ Int., 2000, 40, 920–926.
6.
SugimotoK. I., KanadaA., KikuchiR., HashimotoS. I., KashimaT. and IkedaS.: ISIJ Int., 2002, 42, 910–915.
7.
SugimotoK. I., NakanoK., SongS. M. and KashimaT.: ISIJ Int., 2002, 42, 450–455.
8.
SugimotoK., UsuiN., KobayashiM. and HashimotoS.: ISIJ Int., 1992, 32, 1311–1318.
9.
MacKayD. J. C.: Neural Comput., 1992, 4, 448–472.
10.
MacKayD. J. C.: Neural Comput., 1992, 4, 415–447.
11.
BhadeshiaH. K. D. H.: ISIJ Int., 1999, 39, 966–979.
12.
MacKayD. J. C.: ‘Information theory, inference, and learning algorithms’; 2003, Cambridge, Cambridge University Press.
13.
SinghS. B., BhadeshiaH. K. D. H., MacKayD. J. C., CareyH. and MartinI.: Ironmaking Steelmaking, 1998, 25, 355–365.
14.
BrunF., YoshidaT., RobsonJ. D., NarayanV., BhadeshiaH. K. D. H. and MacKayD. J. C.: Mater. Sci. Technol, 1999, 15, 547–554.
15.
YoshitakeS., NarayanV., HaradaH., BhadeshiaH. K. D. H. and MacKayD. J. C.: ISIJ Int., 1998, 38, 496–502.
16.
LalamS. H., BhadeshiaH. K. D. H. and MacKayD. J. C.: Sci. Technot Weld Join., 2000, 5, 135–147.
17.
LalamS. H., BhadeshiaH. K. D. H. and MacKayD. J. C.: Sci. Technot Weld Join., 2000, 5, 149–160.
18.
MetzbowerE. A., DeLoachJ. J., LalamS. H. and BhadeshiaH. K. D. H.: Sci. Technot Weld. Join., 2001, 6, 116–121.
19.
CapdevilaC., CaballeroF. G. and GarciaC.AndrésDe: ISIJ Int., 2002, 42, 894–902.
20.
CapdevilaC., CaballeroF. G. and de AndrésC. Garcia: Mater. Sci. Technol, 2003, 19, 581–586.
21.
SourmailT. and Garcia-MateoC.: Comput. Mater. Sci., 2005, 34, 213–218.
22.
Garcia-MateoC., SourmailT., CaballeroF. G. and GarciaC.AndrésDe: Mater. Sci. Technol., 2005, 21, 934–940.
23.
CapdevilaC., Garcia-MateoC., CaballeroF. G. and GarciaC.AndrésDe: Mater. Sci. Technol, 2006, 22, 1163–1170.
24.
ChatterjeeS.: ‘TRIP-assisted steels’, PhD thesis, University of Cambridge, Cambridge, UK, 2006.
25.
FangX., FanZ., RalphB., EvansP. and UnderhillR.: J. Mater. Process. Technol, 2003, 132, 215–218.
26.
FangX., FanZ., RalphB., EvansP. and UnderhillR.: J. Mater. Sci, 2003, 38, 3877-3882.
