An in situ high-energy X-ray diffraction study of micromechanical behavior of multiple phases in advanced high-strength steels

Acta Materialia

Volumn 57, Issue 13, 2009, Pages 3965-3977

  Jia, N ^a   Cong, Z H ^a   Sun, X ^b   Cheng, S ^c   Nie, Z H ^a   Ren, Y ^d   Liaw, P K ^c   Wang, Y D ^a,e  

^a NORTHEASTERN UNIVERSITY   (China)

^b PACIFIC NORTHWEST NATIONAL LABORATORY   (United States)

^c University of Tennessee   (United States)

^d ARGONNE NATIONAL LABORATORY   (United States)

^e BEIJING INSTITUTE OF TECHNOLOGY   (China)

Author keywords

Dual phases; High energy X ray diffraction; High strength steels; Plastic deformation; Simulations

Indexed keywords

ANISOTROPIC ELASTIC; CONSTITUENT PHASE; CONSTITUENT PHASIS; CONSTITUTIVE LAW; DIFFRACTION PEAKS; DUAL PHASES; EXPERIMENTAL DATA; HARD PHASIS; HIGH-ENERGY X-RAY DIFFRACTION; HIGH-STRENGTH STEELS; IN-SITU; LATTICE STRAIN; MICROMECHANICAL BEHAVIOR; MICROSTRUCTURE DEVELOPMENT; MULTIPHASE STEEL; PEAK POSITION; PHASE INTERACTIONS; PLASTIC BEHAVIOR; PLASTIC PROPERTY; PLASTIC STRAIN; SELF-CONSISTENT MODEL; SIMULATIONS; STRESS PARTITIONING; TRANSMISSION ELECTRON MICROSCOPY OBSERVATION; WORK-HARDENING RATE;

HIGH ENERGY PHYSICS; METAL ANALYSIS; PLASTIC DEFORMATION; PLASTICS; STRAIN; TRANSMISSION ELECTRON MICROSCOPY; X RAY DIFFRACTION; X RAY DIFFRACTION ANALYSIS;

DIFFRACTION;

EID: 67649108933     PISSN: 13596454     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.actamat.2009.05.002     Document Type: Article

References (28)

1. Kuziak R., Kawalla R., and Waengler S. Arch Civ Mech Eng 8 (2008) 103
2. Gan W., Babu S.S., Kapustka N., and Wagoner R.H. Metall Mater Trans A 37 (2006) 3221
3. Chen P., and Koc M. J Mater Process Tech 190 (2007) 189
4. Asgari S.A., Hodgson P.D., Lemiale V., Yang C., and Rolfe B.F. Front Mater Sci Tech 32 (2008) 285
5. Jacques P.J., Furnemont Q., Lani F., Pardoen T., and Delannay F. Acta Mater 55 (2007) 3681
6. Sherif M.Y., Garcia Mateo C., Sourmail T., and Bhadeshia H.K.D.H. Mater Sci Technol 20 (2004) 319
7. Jia N., Peng R.L., Chai G.C., Johansson S., and Wang Y.D. Mater Sci Eng A 491 (2008) 425
8. Chakraborti P.C., and Mitra M.K. Mater Sci Eng A 466 (2007) 123
9. Choi K.S., Liu W.N., Sun X., Khaleel M.A., Ren Y., and Wang Y.D. Metall Mater Trans A 39 (2008) 3089
10. Song R., Ponge D., and Raabe D. Acta Mater 53 (2005) 4881
11. Larsson C., Clausen B., Holden T.M., and Bourke M.A.M. Scripta Mater 51 (2004) 571
12. Baczmański A., and Braham C. Acta Mater 52 (2004) 1133
13. van Dijk N.H., Butt A.M., Zhao L., Sietsma J., Offerman S.E., Wright J.P., et al. Acta Mater 53 (2005) 5439
14. Miller M.P., Bernier J.V., Park J.-S., and Kazimirov A. Rev Sci Instrum 76 (2005) 113903
15. Miller M.P., Park J.-S., Dawson P.R., and Han T.-S. Acta Mater 56 (2008) 3927
16. Muránsky O., Šittner P., Zrník J., and Oliver E.C. Acta Mater 56 (2008) 3367
17. Jimenez-Melero E., van Dijk N.H., Zhao L., Sietsma J., Offerman S.E., Wrightc J.P., et al. Scripta Mater 56 (2007) 421
18. Jia N., Peng R.L., Wang Y.D., Johansson S., and Liaw P.K. Acta Mater 56 (2008) 782
19. Larson AC, Von Dreele RB. General structure analysis system (GSAS). Report LAUR 86-748. Los Alamos: Los Alamos National Laboratory; 2004.
20. Tang Z.H., and Stumpf W. Mater Sci Eng A 490 (2008) 391
21. Johansson J., and Oden M. Metall Mater Trans A 31 (2000) 1557
22. Hutchinson J.W. Proc Roy Soc Lond A 348 (1976) 101
23. Lebensohn R.A., and Tomé C.N. Acta Metall Mater 41 (1993) 2611
24. Kocks U.F., Tomé C.N., and Wenk H.R. Texture and anisotropy (1998), Cambridge University Press, Cambridge
25. Dye D., Stone H.J., and Reed R.C. Curr Opin Solid State Mater Sci 5 (2001) 31
26. Johansson J., Odén M., and Zeng X.H. Acta Mater 47 (1999) 2669
27. Jia N., Wang Y.D., and Peng R.L. J Phys: Condens Matter 20 (2008) 104259
28. Lani F., Furnemont Q., Van Rompaey T., Delannay F., Jacques P.J., and Pardoen T. Acta Mater 55 (2007) 3695