Presentation is loading. Please wait.

Presentation is loading. Please wait.

Compensation of residual stress in welds using phase transformation.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Compensation of residual stress in welds using phase transformation."— Presentation transcript:

1 Compensation of residual stress in welds using phase transformation

2

3 How to reduce residual stress Temperature Stress +ve -ve 0 Reduce transformation temperature

4 Why martensite? To achieve minimum transformation temperature. Martensite transformation causes deformation. Under stress plates are aligned in favoured direction.

5 Alloy Design

6

7 Neural net analysis

8 Residual stress measurements using neutron diffraction Real time phase transformations using synchrotron X-rays Scanning electron microscopy Electron backscattered diffraction Final chemistry

9 Synchrotron Study

10 Synchrotron study Effect of external stress on transformation temperature and kinetics. Variant selection during martensite transformation. Nature of stress in various phases.

11 Synchrotron results

12

13 Crystallography Model

14 (a) BAIN STRAIN (c) Body-centered tetragonal austenite (d) Body-centered cubic martensite a a a 1 2 3 b 3 b 1 b 2 (b)

15 [100] [001] o a a' b b' o b a,a' (a) (b) (F B F) (F J F) (F S F)=(F B F) (F J F)

16 Austenite (a) w x y z Twinned Martensite Twin Boundary Correct macroscopic shape, correct structure x w z y z Slipped Martensite LATTICE -INVARIANT DEFORMATION x w y Observed shape, wrong structure P (b) w x z y 1 (F P F) RB (c) x wz y P 2 Martensite (wrong shape) (F J F) (F S F)=(F P F)(F J F)

17 [u v w] = (  J  ) [1 0 0] 24 variants of martensite (  J  ) Coordinate transformation matrix

18 Single crystal of austenite, poles of martensite 100  010 

19 Poly crystal 11 22 Relationship between two grains: (  1 J  2 ) [u v w]= (  1 J  2 )[1 0 0]

20 Future work Construction of pole figure in polycrystalline material Effect of stress on the pole figures

21 Thank you …

Download ppt "Compensation of residual stress in welds using phase transformation."

Similar presentations

Acero 2000 PHYSICAL METALLURGY AND THERMAL PROCESSING OF STEEL

Acero 2000 PHYSICAL METALLURGY AND THERMAL PROCESSING OF STEEL
Cooling Rate and Hardenability of Steels

Cooling Rate and Hardenability of Steels
Materials Science and Engineering Crystalline and Non-Crystalline Systems X-Ray Diffraction: Determination of Crystal Structure.

Materials Science and Engineering Crystalline and Non-Crystalline Systems X-Ray Diffraction: Determination of Crystal Structure.
Do it with electrons ! II.

Do it with electrons ! II.
Physical Metallurgy 17 th Lecture MS&E 410 D.Ast 255 4140 DRAFT UNFINISHED !!!

Physical Metallurgy 17 th Lecture MS&E 410 D.Ast DRAFT UNFINISHED !!!
DIFFUSIONLESS TRANSFORMATIONS

DIFFUSIONLESS TRANSFORMATIONS
Deformation and Recrystallization of Mg Alloy AZ31 M.A.Sc: Shenglong Liang Supervisor: Hatem S. Zurob.

Deformation and Recrystallization of Mg Alloy AZ31 M.A.Sc: Shenglong Liang Supervisor: Hatem S. Zurob.
Introduction and point groups Stereographic projections Low symmetry systems Space groups Deformation and texture Interfaces, orientation relationships.

Introduction and point groups Stereographic projections Low symmetry systems Space groups Deformation and texture Interfaces, orientation relationships.
MODULE 4 - Introduction to EBSD

MODULE 4 - Introduction to EBSD
X-ray diffraction on nanocrystalline thin films David Rafaja Institute of Physical Metallurgy, TU Bergakademie Freiberg (D) Michal Šíma PIVOT a.s. (CZ),

X-ray diffraction on nanocrystalline thin films David Rafaja Institute of Physical Metallurgy, TU Bergakademie Freiberg (D) Michal Šíma PIVOT a.s. (CZ),
E 3 AEROSPACE ENGINEERING RESEARCH SHAPE MEMORY ALLOYS (SMA S ) ¡ E3 Teacher Summer Research Program Aerospace Engineering Texas A & M University By Moses.

E 3 AEROSPACE ENGINEERING RESEARCH SHAPE MEMORY ALLOYS (SMA S ) ¡ E3 Teacher Summer Research Program Aerospace Engineering Texas A & M University By Moses.
Chapter 11 Martensitic Strengthening. Systems that Show Martensitic Transformations.

Chapter 11 Martensitic Strengthening. Systems that Show Martensitic Transformations.
Retained Austenite in TRIP-Assisted Steels role of transformation plasticity China Steel.

Retained Austenite in TRIP-Assisted Steels role of transformation plasticity China Steel.
Dimitris C.Lagoudas Shape Memory Alloy Research Team Aerospace Engineering Department Texas A&M University Intelligent Systems Laboratory An Introduction.

Dimitris C.Lagoudas Shape Memory Alloy Research Team Aerospace Engineering Department Texas A&M University Intelligent Systems Laboratory An Introduction.
Introduction and point groups Stereographic projections Low symmetry systems Space groups Deformation and texture Interfaces, orientation relationships.

Introduction and point groups Stereographic projections Low symmetry systems Space groups Deformation and texture Interfaces, orientation relationships.
The Structure of Metals

The Structure of Metals
Aluminum 7075 Microstructure and Current Research through the use of In-situ X-ray Diffraction By: Jay Schuren.

Aluminum 7075 Microstructure and Current Research through the use of In-situ X-ray Diffraction By: Jay Schuren.
Dept. of Materials Science and Engineering

Dept. of Materials Science and Engineering
The four-circle single crystal diffractometer.

The four-circle single crystal diffractometer.
Introduction, Past Work and Future Perspectives: A Concise Summary

Introduction, Past Work and Future Perspectives: A Concise Summary

Similar presentations

Ads by Google