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Bijish Babu, Division of Material Mechanics Material Modelling and Physically Based Models Bijish Babu Division of Material Mechanics

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Page 1: Material Modelling and Physically Based Models Bijish Babu/bijish_babu.pdf · Bijish Babu, Division of Material Mechanics Material Modelling and Physically Based Models Bijish Babu

Bijish Babu, Division of Material Mechanics

Material Modelling and Physically Based Models

Bijish Babu Division of Material Mechanics

Page 2: Material Modelling and Physically Based Models Bijish Babu/bijish_babu.pdf · Bijish Babu, Division of Material Mechanics Material Modelling and Physically Based Models Bijish Babu

Bijish Babu, Division of Material Mechanics

Process: Forming

Process: Metal Deposition Process: Welding

Process: Heat Treatment

Manufacturing chain

Process: Milling

Page 3: Material Modelling and Physically Based Models Bijish Babu/bijish_babu.pdf · Bijish Babu, Division of Material Mechanics Material Modelling and Physically Based Models Bijish Babu

Bijish Babu, Division of Material Mechanics

Microstructural Mechanism Map

Typical isothermal forming

Arbitrary path

Page 4: Material Modelling and Physically Based Models Bijish Babu/bijish_babu.pdf · Bijish Babu, Division of Material Mechanics Material Modelling and Physically Based Models Bijish Babu

Bijish Babu, Division of Material Mechanics

Stress-strain behaviour of SS 304 stainless steel at 650ºC

LEDS Low Energy Dislocation Substructures

Dislocation density

Page 5: Material Modelling and Physically Based Models Bijish Babu/bijish_babu.pdf · Bijish Babu, Division of Material Mechanics Material Modelling and Physically Based Models Bijish Babu

Bijish Babu, Division of Material Mechanics

Material Model

Physically based Constitutive Model

Stress-Strain Data Phase, Texture, Morphology

Grains, Sub-cells, Precipitates

Dislocations, Vacancies

Page 6: Material Modelling and Physically Based Models Bijish Babu/bijish_babu.pdf · Bijish Babu, Division of Material Mechanics Material Modelling and Physically Based Models Bijish Babu

Bijish Babu, Division of Material Mechanics

Dislocation Dynamics

Annihilation

Creation

Recovery

Hardening

mobile Dislocation

Density Immobile

Dislocation Density

Courtesy: Ashby & Frost!

Page 7: Material Modelling and Physically Based Models Bijish Babu/bijish_babu.pdf · Bijish Babu, Division of Material Mechanics Material Modelling and Physically Based Models Bijish Babu

Bijish Babu, Division of Material Mechanics

Physics of Deformation

Strain hardening

Recovery & Recrystallization

Dislocations Vacancies Grains, Subcells

Strain Energy

Courtesy: Ashby & Frost!

Page 8: Material Modelling and Physically Based Models Bijish Babu/bijish_babu.pdf · Bijish Babu, Division of Material Mechanics Material Modelling and Physically Based Models Bijish Babu

Bijish Babu, Division of Material Mechanics

Flow Stress

!

" y = m#Gb $i +" th 1% kT&Fb3 ln

˙ ' ref˙ ' p

(

) *

+

, -

(

) * *

+

, - -

1q(

)

* *

+

,

- -

1p

Long Range Short Range

Page 9: Material Modelling and Physically Based Models Bijish Babu/bijish_babu.pdf · Bijish Babu, Division of Material Mechanics Material Modelling and Physically Based Models Bijish Babu

Bijish Babu, Division of Material Mechanics

Evolution Equations

( )223

2 eqieqv

vv

pi

pi kT

GbccDc

bm

!!"!"! # $$%$&

= !!!

Immobilisation Glide Climb

Vacancy Creation Jogs Self Diffusion Temperature

!

˙ c vex = "

m#Gb2

Qvf

$i + %c j

4b2

&

' (

)

* + ,0

b˙ - .Dvm

1/2

0

1 2

3

4 5 cv . cv

eq( ) + cveq Qvf

T 2

0

1 2

3

4 5 6T

Page 10: Material Modelling and Physically Based Models Bijish Babu/bijish_babu.pdf · Bijish Babu, Division of Material Mechanics Material Modelling and Physically Based Models Bijish Babu

Bijish Babu, Division of Material Mechanics

Parameter optimisation

Page 11: Material Modelling and Physically Based Models Bijish Babu/bijish_babu.pdf · Bijish Babu, Division of Material Mechanics Material Modelling and Physically Based Models Bijish Babu

Bijish Babu, Division of Material Mechanics

GMoP – In-house optimisation tool

Page 12: Material Modelling and Physically Based Models Bijish Babu/bijish_babu.pdf · Bijish Babu, Division of Material Mechanics Material Modelling and Physically Based Models Bijish Babu

Bijish Babu, Division of Material Mechanics

316L-Low Strain Rates

Page 13: Material Modelling and Physically Based Models Bijish Babu/bijish_babu.pdf · Bijish Babu, Division of Material Mechanics Material Modelling and Physically Based Models Bijish Babu

Bijish Babu, Division of Material Mechanics

316L-Low High Rates

Page 14: Material Modelling and Physically Based Models Bijish Babu/bijish_babu.pdf · Bijish Babu, Division of Material Mechanics Material Modelling and Physically Based Models Bijish Babu

Bijish Babu, Division of Material Mechanics

!-" Phase Transformation Ti-6Al-4V

Page 15: Material Modelling and Physically Based Models Bijish Babu/bijish_babu.pdf · Bijish Babu, Division of Material Mechanics Material Modelling and Physically Based Models Bijish Babu

Bijish Babu, Division of Material Mechanics

Diffusion in Ti-6Al-4V

Page 16: Material Modelling and Physically Based Models Bijish Babu/bijish_babu.pdf · Bijish Babu, Division of Material Mechanics Material Modelling and Physically Based Models Bijish Babu

Bijish Babu, Division of Material Mechanics

Parameters for Ti-6Al-4V

Page 17: Material Modelling and Physically Based Models Bijish Babu/bijish_babu.pdf · Bijish Babu, Division of Material Mechanics Material Modelling and Physically Based Models Bijish Babu

Bijish Babu, Division of Material Mechanics

Ti-6Al-4V (20-300°C)

Page 18: Material Modelling and Physically Based Models Bijish Babu/bijish_babu.pdf · Bijish Babu, Division of Material Mechanics Material Modelling and Physically Based Models Bijish Babu

Bijish Babu, Division of Material Mechanics

Ti-6Al-4V (400-700°C)

Page 19: Material Modelling and Physically Based Models Bijish Babu/bijish_babu.pdf · Bijish Babu, Division of Material Mechanics Material Modelling and Physically Based Models Bijish Babu

Bijish Babu, Division of Material Mechanics

Ti-6Al-4V (800-1100°C)

Page 20: Material Modelling and Physically Based Models Bijish Babu/bijish_babu.pdf · Bijish Babu, Division of Material Mechanics Material Modelling and Physically Based Models Bijish Babu

Bijish Babu, Division of Material Mechanics

Stress Relaxation in Ti-6Al-4V

Page 21: Material Modelling and Physically Based Models Bijish Babu/bijish_babu.pdf · Bijish Babu, Division of Material Mechanics Material Modelling and Physically Based Models Bijish Babu

Bijish Babu, Division of Material Mechanics

•  Connects Macro to Nano Scales •  Parameters are accessible from conventional mechanical

tests •  Easy to implement in a standard FE code •  Has already been used for forming, welding, MD and

heat treatment simulations

Summary


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