-
1
-
-
30144442174
-
Extension of product range and perspectives of CSP technology [J]
-
G. Flemming, and K.-E. Hensger Extension of product range and perspectives of CSP technology [J] MPT Int 1 2000 54 64
-
(2000)
MPT Int
, vol.1
, pp. 54-64
-
-
Flemming, G.1
Hensger, K.-E.2
-
2
-
-
0035521366
-
Microstructural analysis of hot-rolled, low-carbon steel strips [J]
-
P.C. Zambrano, M.P. Guerrero, R. Colás, and L.A. Leduc Microstructural analysis of hot-rolled, low-carbon steel strips [J] Mater Charact 47 2001 275 282
-
(2001)
Mater Charact
, vol.47
, pp. 275-282
-
-
Zambrano, P.C.1
Guerrero, M.P.2
Colás, R.3
Leduc, L.A.4
-
3
-
-
0035874188
-
Determination and prediction of the inherited ferrite texture in a HSLA steel produced by compact strip production [J]
-
B. Gardiola, M. Humbert, C. Esling, G. Flemming, and K.E. Hensger Determination and prediction of the inherited ferrite texture in a HSLA steel produced by compact strip production [J] Mater Sci Eng A303 2001 60 69
-
(2001)
Mater Sci Eng
, vol.303
, pp. 60-69
-
-
Gardiola, B.1
Humbert, M.2
Esling, C.3
Flemming, G.4
Hensger, K.E.5
-
4
-
-
0037134103
-
Modelling of the variant selection mechanism in the phase transformation of HSLA steel produced by compact strip production [J]
-
M. Humbert, B. Gardiola, C. Esling, G. Flemming, and K.E. Hensger Modelling of the variant selection mechanism in the phase transformation of HSLA steel produced by compact strip production [J] Acta Mater 50 2002 1741 1747
-
(2002)
Acta Mater
, vol.50
, pp. 1741-1747
-
-
Humbert, M.1
Gardiola, B.2
Esling, C.3
Flemming, G.4
Hensger, K.E.5
-
5
-
-
0037466792
-
Morphology and precipitation kinetics of AlN in hot strip of low carbon steel produced by compact strip production [J]
-
Y. Kang, H. Yu, J. Fu, K. Wang, and Z. Wang Morphology and precipitation kinetics of AlN in hot strip of low carbon steel produced by compact strip production [J] Mater Sci Eng A351 2003 265 271
-
(2003)
Mater Sci Eng
, vol.351
, pp. 265-271
-
-
Kang, Y.1
Yu, H.2
Fu, J.3
Wang, K.4
Wang, Z.5
-
6
-
-
0242667671
-
Study of mechanism on microstructure refinement during compact strip production process [J]
-
H. Yu, Y. Kang, K. Wang, J. Fu, Z. Wang, and D. Liu Study of mechanism on microstructure refinement during compact strip production process [J] Mater Sci Eng A363 2003 86 92
-
(2003)
Mater Sci Eng
, vol.363
, pp. 86-92
-
-
Yu, H.1
Kang, Y.2
Wang, K.3
Fu, J.4
Wang, Z.5
Liu, D.6
-
7
-
-
0039392016
-
Texture in hot rolled austenite and resulting transformation products [J]
-
B. Hutchinson, L. Ryde, E. Lindh, and K. Tagashira Texture in hot rolled austenite and resulting transformation products [J] Mater Sci Eng A257 1998 9 17
-
(1998)
Mater Sci Eng
, vol.257
, pp. 9-17
-
-
Hutchinson, B.1
Ryde, L.2
Lindh, E.3
Tagashira, K.4
-
8
-
-
0032500450
-
The bainitic mechanism of austenite formation during rapid heating [J]
-
W.J. Kaluba, R. Taillard, and J. Foct The bainitic mechanism of austenite formation during rapid heating [J] Acta Mater 46 1998 5917 5927
-
(1998)
Acta Mater
, vol.46
, pp. 5917-5927
-
-
Kaluba, W.J.1
Taillard, R.2
Foct, J.3
-
9
-
-
0038846817
-
An ultrafine grain structure formed as a result of cyclic γ→α→γ transformations [J]
-
V.V. Sagaradze An ultrafine grain structure formed as a result of cyclic γ→α→γ transformations [J] Nanostruct Mater 9 1997 201 204
-
(1997)
Nanostruct Mater
, vol.9
, pp. 201-204
-
-
Sagaradze, V.V.1
-
10
-
-
0035968950
-
Austenite texture and bainite/austenite orientation relationships in TRIP steel [J]
-
B. Verlinden, Ph. Bocher, E. Girault, and E. Aernoudt Austenite texture and bainite/austenite orientation relationships in TRIP steel [J] Scripta Mater 45 2001 909 916
-
(2001)
Scripta Mater
, vol.45
, pp. 909-916
-
-
Verlinden, B.1
Bocher, Ph.2
Girault, E.3
Aernoudt, E.4
-
11
-
-
0035972131
-
Formation of ultra-fine ferrite in hot rolled strip: Potential mechanisms for grain refinement [J]
-
P.J. Hurley, and P.D. Hodgson Formation of ultra-fine ferrite in hot rolled strip: potential mechanisms for grain refinement [J] Mater Sci Eng A302 2001 206 214
-
(2001)
Mater Sci Eng
, vol.302
, pp. 206-214
-
-
Hurley, P.J.1
Hodgson, P.D.2
-
12
-
-
0036822192
-
Microstructure and strengthening parameters of ultra-thin hot strip of low carbon steel [J]
-
H. Yu, Y. Kang, and H. Dong Microstructure and strengthening parameters of ultra-thin hot strip of low carbon steel [J] J Univ Sci Technol Beijing 9 5 2002 356 359
-
(2002)
J Univ Sci Technol Beijing
, vol.9
, Issue.5
, pp. 356-359
-
-
Yu, H.1
Kang, Y.2
Dong, H.3
-
13
-
-
0035980532
-
Microstructural evolution and hardening parameters [J]
-
N. Hansen, X. Huang, and D.A. Hughes Microstructural evolution and hardening parameters [J] Mater Sci Eng A317 2001 3 11
-
(2001)
Mater Sci Eng
, vol.317
, pp. 3-11
-
-
Hansen, N.1
Huang, X.2
Hughes, D.A.3
-
14
-
-
0000534803
-
Modelling of the influence of thermomechanical processing of Nb-microalloyed steel on the resulting mechanical properties [J]
-
J. Majta, R. Kuziak, and M. Pietrzyk Modelling of the influence of thermomechanical processing of Nb-microalloyed steel on the resulting mechanical properties [J] J Mater Process Technol 80-81 1998 524 530
-
(1998)
J Mater Process Technol
, vol.80-81
, pp. 524-530
-
-
Majta, J.1
Kuziak, R.2
Pietrzyk, M.3
-
15
-
-
0030123475
-
A study of the effect of the thermomechanical history on the mechanical properties of a high niobium steel [J]
-
J. Majta, J.G. Lenard, and M. Pietrzyk A study of the effect of the thermomechanical history on the mechanical properties of a high niobium steel [J] Mater Sci Eng A208 1996 249 259
-
(1996)
Mater Sci Eng
, vol.208
, pp. 249-259
-
-
Majta, J.1
Lenard, J.G.2
Pietrzyk, M.3
-
16
-
-
10444245023
-
Quantitative analysis on strengthening mechanism of ultra-thin hot strip of low carbon steel produced by CSP technique [J]
-
H. Yu, Y. Kang, K. Wang, X. Xiong, J. Fu, G. Chen, and L. Li Quantitative analysis on strengthening mechanism of ultra-thin hot strip of low carbon steel produced by CSP technique [J] J Univ Sci Technol Beijing 11 5 2004 425 427
-
(2004)
J Univ Sci Technol Beijing
, vol.11
, Issue.5
, pp. 425-427
-
-
Yu, H.1
Kang, Y.2
Wang, K.3
Xiong, X.4
Fu, J.5
Chen, G.6
Li, L.7
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