A D V A N C E D M A T E R I A L S & P R O C E S S E S | J A N U A R Y 2 0 1 7

2 4

a better basis for phase transformations

theory on alloy design. Potential appli-

cations have yet to be fully explored.

~AM&P

For more information:

Rosalia Remen-

teria is research associate, Span-

ish National Center for Metallurgical

Research (CENIM-CSIC), Avda. Grego-

rio del Amo 8, E-28040 Madrid, Spain,

rosalia.rementeria@cenim.csic.es

,

www.cenim.csic.es

.

References

1. C. Garcia-Mateo and F. Caballero,

Ultra-high-strength Bainitic Steels,

ISIJ

Int.

, Vol 45, p 1736-1740, 2005.

2. T. Sourmail, et al., Evaluation of

Potential of High Si High C Steel Nano-

structured Bainite for Wear and Fatigue

Applications,

Mater. Sci. Technol.

, Vol 29,

p 1166-1173, 2013.

3. F. Caballero and H. Bhadeshia, Very

Strong Bainite,

Curr. Opin. Solid State

Mat. Sci.

, Vol 8, p 251-257, 2004.

4. F. Hu, P. Hodgson, and K. Wu, Acceler-

ation of the Super Bainite Transforma-

tion Through a Coarse Austenite Grain

Size,

Mater. Lett.

, Vol 122 p 240-243,

2014.

5. W. Gong, et al., Effect of Prior Mar-

tensite on Bainite Transformation in

Nanobainite Steel,

Acta Mater.

, Vol 85,

p 243-249, 2015.

6. C. Garcia-Mateo, et al., Tensile

Behaviour of a Nanocrystalline Bainitic

Steel Containing 3 wt% Silicon,

Mater.

Sci. Eng. A

, Vol 549, p 185-192, 2012.

7. H. Beladi, et al., Crystallographic

Analysis of Nanobainitic Steels,

Scr.

Mater.

, Vol 60, p 455-458, 2009.

8. F.G. Caballero, et al., Examination

of Carbon Partitioning into Austenite

During Tempering of Bainite,

Scr. Mater.

,

Vol 63, p 442-445, 2010.

9. K. Hase, C. Garcia-Mateo, and H.

Bhadeshia, Bimodal Size-Distribution

of Bainite Plates,

Mater. Sci. Eng. A

,

Vol 438, p 145-148, 2006.

10. F. Caballero, M. Miller, and C. Gar-

cia-Mateo, Carbon Supersaturation of

Ferrite in a Nanocrystalline Bainitic

Steel,

Acta Mater.

, Vol 58, p 2338-2343,

2010.

11. S. van der Zwaag and J. Wang, A

Discussion on the Atomic Mechanism

of the Bainitic Reaction in TRIP Steels,

Scr. Mater.

, Vol 47, p 169-173, 2002.

12. C. Garcia-Mateo, et al., Low Tem-

perature Bainitic Ferrite: Evidence of

Carbon Super-Saturation and Tetrag-

onality,

Acta Mater.

, Vol 91, p 162-173,

2015.

13. J. Jang, H. Bhadeshia, and D. Suh,

Solubility of Carbon in Tetragonal

Ferrite in Equilibrium with Austenite,

Scr. Mater.

, Vol 68, p 195-198, 2013.

14. Q. Jiansheng, et al., Computer Sim-

ulation on the Interaction Between

Vacancy and Carbon Impurity in α-Fe,

Nucl. Instrum. Methods Phys. Res., Sect. B

,

Vol 267, p 3179-3181, 2009.