Presentation is loading. Please wait.

Presentation is loading. Please wait.

Microstructural Stability of Strong 9-12Cr Steels www.msm.cam.ac.uk/phase-trans 650°C.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Microstructural Stability of Strong 9-12Cr Steels www.msm.cam.ac.uk/phase-trans 650°C."— Presentation transcript:

1 Microstructural Stability of Strong 9-12Cr Steels www.msm.cam.ac.uk/phase-trans 650°C

2 Tempered martensite Tempered bainite Nam (1999)

3 Kimura et al., 2001

4 Thermodynamic stability 650°C Extrapolation of short-term data Fe-0.2C-1.5Mn wt% Stability: stored energy

5 martensite

6

7

8 Long term stability requires precipitates which are close to equilibrium Laves, intermetallics, MX Metastable phases not appropriate Interfacial energy?

9 diffusion flux distance concentration c  r c r 1 2 r 1 r 2    Coarsening

10

11 1CrMoV 2.25CrMo 3.5NiCrMoV 9Cr1Mo 9CrMoWV 12CrMoVW 0.00 0.01 0.02 0.03 0.04 0.05 0.06 M23C6 M2XLaves Fraction 565 °C

12 0.25CrMoV 1CrMoV 2.25Cr1Mo Mod. 2.25Cr1Mo 3Cr1.5Mo 3.5NiCrMoV 9Cr1Mo Mod. 9Cr1Mo9Cr0.5MoWV 12CrMoV 12CrMoVW 12CrMoVNb 0.0 0.2 0.4 0.6 0.8 Cr Mo Mole fraction 565 °C

13 0.25CrMoV 1CrMoV 2.25Cr1Mo Mod. 2.25Cr1Mo 3Cr1.5Mo 3.5NiCrMoV 9Cr1Mo Mod. 9Cr1Mo 9Cr0.5MoWV 12CrMoV 12CrMoVW 12CrMoVNb 0.00 0.02 0.04 0.06 0.08 0.10 0.12 Mole fraction Cr Cr concentration in ferrite 565 °C

14 c  Concentration Distance c  c r  = c   2 c   V  1 - c  kT r c    c  Coarsening reduced if last term small

15 0.25CrMoV 1CrMoV 2.25Cr1Mo Mod. 2.25Cr1Mo 3Cr1.5Mo 3.5NiCrMoV 9Cr1Mo Mod. 9Cr1Mo 9Cr0.5MoWV 12CrMoV 12CrMoVW 12CrMoVNb 0.00 0.05 0.10 0.15 0.20 Stability parameter c   1 - c   c    c  Stability parameter =

16 Comparison 0.15C-0.25Si-0.50Mn-2.3Cr-1Mo- 0.10Ni 0.10C-0.60Si-0.40Mn-9.0Cr-1Mo- 0.00Ni 1056 °C for 12 h, 740 °C for 13 h

17 23456 0 50 100 150 200 log(time/ h) 9Cr1Mo 2.25Cr1Mo Creep rupture stress/ MPa

18 Equilibrium precipitates Small interfacial energy (?) Small volume fraction Which precipitates are effective? Short term --> Long term data?

19

20

21 non-linear functions

22

23

24

25

26 Brun, Robson, Narayan, MacKay & Bhadeshia, 1998

27 precipitates solid solution iron + microstructure 550 °C 600 °C Murugananth & Bhadeshia, 2001 10 5 h Creep Strength, 2.25Cr1Mo

28 Murugananth & Bhadeshia, 2001 elements in solution

29 Kimura et al., 2001

30 Muneki, Obuko, Abe (2005) Paper 42, this conference Fe-12Ni-9Co-10W-5Cr-B

31 Sourmail & Bhadeshia, 2004

32 Data from Abe, Masuyama, Sawaragi and Kimura, 2004

33

34

35

36 Difficult to achieve long-term stability using fine or metastable precipitates. Way forward is to avoid microstructure (Kimura, Abe) Extrapolation is optimal with neural networks

Download ppt "Microstructural Stability of Strong 9-12Cr Steels www.msm.cam.ac.uk/phase-trans 650°C."

Similar presentations

Acero 2000 PHYSICAL METALLURGY AND THERMAL PROCESSING OF STEEL

Acero 2000 PHYSICAL METALLURGY AND THERMAL PROCESSING OF STEEL
The Effects of Cr Additions on the Morphologies of  ’(L1 2 ) Precipitates David N. Seidman, Northwestern University, DMR 0804610 The effects of Cr additions.

The Effects of Cr Additions on the Morphologies of  ’(L1 2 ) Precipitates David N. Seidman, Northwestern University, DMR The effects of Cr additions.
Creep-Resistant Steels. Z-phase, inaccurate data.

Creep-Resistant Steels. Z-phase, inaccurate data.
Module 5. Metallic Materials

Module 5. Metallic Materials
Non-linear Effects in Diffusion on Nanoscale Department of Solid State Physics University of Debrecen D.L. Beke Z. Erdélyi, I.A. Szabó, Cs. Cserháti.

Non-linear Effects in Diffusion on Nanoscale Department of Solid State Physics University of Debrecen D.L. Beke Z. Erdélyi, I.A. Szabó, Cs. Cserháti.
Chemical composition and heat treatments

Chemical composition and heat treatments
Slides on CAST IRONS provided by Prof. Krishanu Biswas

Slides on CAST IRONS provided by Prof. Krishanu Biswas
Mechanical & Aerospace Engineering West Virginia University Strengthening by Phase Transformation.

Mechanical & Aerospace Engineering West Virginia University Strengthening by Phase Transformation.
University of Cambridge Department of Materials Science and Metallurgy

University of Cambridge Department of Materials Science and Metallurgy
Yudong Zhang 1,2, Xiang Zhao 1, Changshu He 1, Weiping Tong 1, Liang. Zuo 1, Jicheng He 1 and Claud. Esling 2 Effects of a High Magnetic Field on the Microstructure.

Yudong Zhang 1,2, Xiang Zhao 1, Changshu He 1, Weiping Tong 1, Liang. Zuo 1, Jicheng He 1 and Claud. Esling 2 Effects of a High Magnetic Field on the Microstructure.
Neural Networks www.msm.cam.ac.uk/phase-trans.

Neural Networks
Welding Procedures and Type IV Phenomena J. A. Francis, V. Mazur CSIRO Manufacturing and Infrastructure Technology, Adelaide, Australia H. K. D. H. Bhadeshia.

Welding Procedures and Type IV Phenomena J. A. Francis, V. Mazur CSIRO Manufacturing and Infrastructure Technology, Adelaide, Australia H. K. D. H. Bhadeshia.
Performance of Neural Networks. Brief explanation of neural networks Four classes of innovations based on neural networks Are papers on neural networks.

Performance of Neural Networks. Brief explanation of neural networks Four classes of innovations based on neural networks Are papers on neural networks.
H. Roelofs, S.Hasler, L. Chabbi, U. Urlau, Swiss Steel AG

H. Roelofs, S.Hasler, L. Chabbi, U. Urlau, Swiss Steel AG
University of Cambridge Stéphane Forsik 5 th June 2006 Neural network: A set of four case studies.

University of Cambridge Stéphane Forsik 5 th June 2006 Neural network: A set of four case studies.
Simultaneous Transformation Kinetics

Simultaneous Transformation Kinetics
Materials for fusion power plants Stéphane Forsik - Phase Transformations and Complex Properties Group www.msm.cam.ac.uk/phase-trans FUSION POWER PLANT.

Materials for fusion power plants Stéphane Forsik - Phase Transformations and Complex Properties Group FUSION POWER PLANT.
Strong & Tough Steel Welds M. Murugananth, H. K. D. H. Bhadeshia E. Keehan, H. O. Andr₫n L. Karlsson.

Strong & Tough Steel Welds M. Murugananth, H. K. D. H. Bhadeshia E. Keehan, H. O. Andr₫n L. Karlsson.
Predicting the Microstructure and Properties of Steel Welds.

Predicting the Microstructure and Properties of Steel Welds.
POSCO Lectures on Bainite Graduate Institute of Ferrous Technology Microstructure Mechanism Properties Superbainite.

POSCO Lectures on Bainite Graduate Institute of Ferrous Technology Microstructure Mechanism Properties Superbainite.

Similar presentations

Ads by Google