State-of-the-art 2.6 Mio DOF State-of-the-art State-of-the-art

Harbin Institute
of Technology
TBZ-PARIV GmbH
TBZ-PARIV GmbH
Harbin Institute
of Technology
State-of-the-art
MODELLING AND SIMULATION OF COATING-SUBSTRATE-SYSTEMS
STATE-OF-THE-ART AND FUTURE TRENDS
From the
mathematical point of view:
Big dimensional problem
Jürgen Leopold; Reiner Wohlgemuth
TBZ-PARIV / Chemnitz / Germany
Debin Shan
Harbin Institute of Technology / PR China
Jianguo Lin
Imperial College London / United Kingdom
Yi Qin
University of Strathclyde, Glasgow, United Kingdom
2.6 Mio DOF
Outline
¾State-of-the-art
¾Why do we need Multiscale Modeling?
¾Bridging the Gaps Between the Modelling Activities at Different Scales
(M3-2S Project)
¾Summery
Source: Oosterling; van den Berg; Renevier, Meisel; Leopold: ICMCTF 2002
9th THE „A“ Coatings International Conference ;
3 - 5 October 2011 Thessaloniki, Greece
TBZ-PARIV GmbH
Leopold – Wohlgemuth – Shan – Lin - Qin
1
Harbin Institute
of Technology
9th THE „A“ Coatings International Conference ;
3 - 5 October 2011 Thessaloniki, Greece
3
Leopold – Wohlgemuth – Shan – Lin - Qin
TBZ-PARIV GmbH
Harbin Institute
of Technology
State-of-the-art
State-of-the-art
2 µm
CMC
TiN
TiCN
ZrCN
Al2O3
42CrMo4 Steel Substrate
MoST
fixed
Source: Th. Bertram; PhD ThesisTU Freiberg 2001
9th THE „A“ Coatings International Conference ;
3 - 5 October 2011 Thessaloniki, Greece
Source: Oosterling; van den Berg; Renevier, Meisel; Leopold: ICMCTF 2002
Leopold – Wohlgemuth – Shan – Lin - Qin
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9th THE „A“ Coatings International Conference ;
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1
Harbin Institute
of Technology
TBZ-PARIV GmbH
1.2 µm
MoS2+Ti
E=130 GPa
ν=0.25
2.5 µm
ZrCN
E=420 GPa
ν=0.25
3.5 µm
Al2O3
E=390 GPa
ν=0.25
7.0 µm
TiCN
E=515 GPa
ν=0.25
1.5 µm
TiN
Cemented
metal
carbide
Domain Decomposition Method
Harbin Institute
of Technology
TBZ-PARIV GmbH
State-of-the-art
State-of-the-art
Failure modes
E=580 GPa
ν=0.25
E=600 GPa
ν=0.22
Line distance 75 nm
Total Cutting length:
11.700 m
130 days manufacturing
with one MoS2 – coated
cutting insert !!!
MoS 2+Ti
ZrCN
Al2O3
TiCN
TiN
Source: DFG Le 746/22-4
substrate
Source: Oosterling; van den Berg; Renevier, Meisel; Leopold:
ICMCTF 2002
9th THE „A“ Coatings International Conference ;
3 - 5 October 2011 Thessaloniki, Greece
TBZ-PARIV GmbH
2D – FE - model
Leopold – Wohlgemuth – Shan – Lin - Qin
5
Harbin Institute
of Technology
3D – FE - model
9th THE „A“ Coatings International Conference ;
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Harbin Institute
of Technology
TBZ-PARIV GmbH
State-of-the-art
7
Leopold – Wohlgemuth – Shan – Lin - Qin
Crack Initiation in Coating-Substrate-Systems
FE-Simulation
State-of-the-art
SEM - Experiment
Vickers06.avi
Minimum
element
size
250nm
square
Source: DFG Le 746/22-4
Source: DFG Le 746/22-4
9th THE „A“ Coatings International Conference ;
3 - 5 October 2011 Thessaloniki, Greece
Leopold – Wohlgemuth – Shan – Lin - Qin
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Source: EMPA
Leopold – Wohlgemuth – Shan – Lin - Qin
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2
TBZ-PARIV GmbH
Harbin Institute
of Technology
TBZ-PARIV GmbH
Harbin Institute
of Technology
State-of-the-art
State-of-the-art
Ball - cratering test imprint on the applied coating and the FEM simulation of its structure.
Coating
Interface
T1
W2
W1
Substrate
BN13
Central
W1
BN14
Outer
W2
T2
T3
Coating
BN12
BN11
Interface
Source: K.-D. Bouzakis , A. Asimakopoulos, M. Batsiolas: Surface & Coatings Technology 202 (2008) 5929–5935
9th THE „A“ Coatings International Conference ;
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Leopold – Wohlgemuth – Shan – Lin - Qin
Harbin Institute
of Technology
Macro-Level Damage Module
9th THE „A“ Coatings International Conference ;
3 - 5 October 2011 Thessaloniki, Greece
TBZ-PARIV GmbH
FE model for a single layer
coating system under
indentation
(a)
9th THE „A“ Coatings International Conference ;
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State-of-the-art
Crack occurs in the
coating surface when the
load reaches 11N
(c)
Yield initiated in the
substrate when the load
reaches 0.086N
SEM analysis of the circular cracks
observed after the 50N indentation on
samples coated with TiN
J. Feng; Y. Qin; R. R. Koodakal and J. Michler:
A NEW TECHNIQUE TO INVESTIGATE THE LOAD-BEARING CAPACITY OF A COATING
ON TOOL STEEL
Harbin Institute
of Technology
Load Bearing Capacity for Multi-layered Surface System
State-of-the-art
11
Leopold – Wohlgemuth – Shan – Lin - Qin
(b)
Leopold – Wohlgemuth – Shan – Lin - Qin
(d)
10
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Leopold – Wohlgemuth – Shan – Lin - Qin
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3
Harbin Institute
of Technology
TBZ-PARIV GmbH
TBZ-PARIV GmbH
Chip Formation Simulation to determine
the loads at the coatings
Harbin Institute
of Technology
Why do we need Multiscale Modeling?
State-of-the-art
Layer:
50nm !
> 18m
GG-25
Mises-Stress
Temperature
Arch of Galerius
Pressure
Few Millimeter
Source: http://commons.wikimedia.org/wiki/File:THES_Arch_of_Galerius_E_face.jpg
9th THE „A“ Coatings International Conference ;
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Leopold – Wohlgemuth – Shan – Lin - Qin
Harbin Institute
of Technology
TBZ-PARIV GmbH
9th THE „A“ Coatings International Conference ;
3 - 5 October 2011 Thessaloniki, Greece
TBZ-PARIV GmbH
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Leopold – Wohlgemuth – Shan – Lin - Qin
Harbin Institute
of Technology
Why do we need Multiscale Modeling?
State-of-the-art
Indenter
W1
T1
Cohesive
zone
W2
The bilinear cohesive layer model
T2
Interface
Substrate
T3
Gc =
TiN
1
Gc = Tmaxδ c
2
Coating
Hardene
d
Submode
l
Gc
CrN
Microstructure
Critical Energy-release rate
Tmax maximum traction
δ max
is the characteristic
cohesive-zone length
TiN/CrN ML
1
Tmaxδ c
2
(a) Mises stress; (b) Damage coefficient; (c) Traction-separation relationship for a cohesive element in the coating.
9th THE „A“ Coatings International Conference ;
3 - 5 October 2011 Thessaloniki, Greece
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4
Harbin Institute
of Technology
TBZ-PARIV GmbH
Harbin Institute
of Technology
TBZ-PARIV GmbH
Multiscale problem
P
Demonstrator : Indentation
layer
indentor
layer
P
layer
Normalized critical load: P/R2 in N/m2
TiN - Coating
indentor
1012
1011
1010
σ /E2 (σ + cσ )2
y lay y
f
109
108
plastic zone
Source: matcalc
Source: Wappler
Harbin Institute
of Technology
SPMR 120308 (hard metal without coating)
•
•
•
•
•
point force
layer
σ3/E2
y ind, sub
106
0.001
0.01
9th THE „A“ Coatings International Conference ;
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TBZ-PARIV GmbH
plastic zone
0.1
1
10
100
J. Michler, E. Blank
Thin Solid Films 381 (2001) 119-134
19
Leopold – Wohlgemuth – Shan – Lin - Qin
Harbin Institute
of Technology
Demonstrator : Cutting
Different structures
øe
•
P
elastic region
Normalized layer thickness h/R
17
Leopold – Wohlgemuth – Shan – Lin - Qin
Initial cutting inserts
layer
σ h* 2
y
plastic
deformation
of substrate
SiO2-Substrate
TBZ-PARIV GmbH
σ3/E2
f ind, lay
107
Indentor is a (invisible) hard ball
Higher panel: small penetrate depth
Lower panel: high penetrate depth
9th THE „A“ Coatings International Conference ;
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2
σ h*
f
coating
failure
Machining Process:
TURNING (internal)
Internal Diameter: Ø98 mm goes to
External Diameter: Ø103 mm
Advance Speed: 0.4 mm/rpm
ω: 76 rpm
Length: 60 mm
øi
Equiaxed structures
Length
Cutting Tool
Columnar structures
Electromagnetic Brake
CC-270
Source: Fundiciones del Estanda S.A.
Source: Fundiciones del Estanda S.A.
9th THE „A“ Coatings International Conference ;
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TBZ-PARIV GmbH
Harbin Institute
of Technology
Mechanical Material Properties
Crack patterns: 5mm ∅ WC sphere
CrN: 2400 N
TiN: 2400 N
Layer
Layer Material Thickne
Type
s
sses
(nm)
TiN/CrN: 2400 N
Mono
layer
Multil
ayer
2 µm
TBZ-PARIV GmbH
2 µm
Leopold – Wohlgemuth – Shan – Lin - Qin
2 µm
21
Harbin Institute
of Technology
Total
Coatin
g
Thickn
ess
(nm)
TiN
646
CrN
1069
NbN
9th THE „A“ Coatings International Conference ;
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TBZ-PARIV GmbH
780
TiN/Nb
N
16.66 /
16.28
659
TiN/Cr
N
18.03 /
17.52
697
NbN/Cr
N
19.61 /
18.65
765
9th THE „A“ Coatings International Conference ;
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TBZ-PARIV GmbH
Er
ν
(GPa)
-
22
15.
4.7
7
4
20
17.
5.1
7
5
29
32.
0.4
1
2
20
15.
8.0
05
5
19
15.
0.0
72
8
19
18.
7.6
9
6
0
.
1
8
H
Total
thickness
[nm]
Number
of
periods
Deposition
temperature
[⁰C]
500
TiN
1800
1
CrN
2000
1
450
TiN/CrN
2000
200
420
Leopold – Wohlgemuth – Shan – Lin - Qin
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Harbin Institute
of Technology
Three typically test methods
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TBZ-PARIV GmbH
Harbin Institute
of Technology
Harbin Institute
of Technology
TBZ-PARIV GmbH
AAFEM Module for Super Lattice Coatings
Bridging the Gaps Between the
Modelling Activities at Different Scales
30nm
New approach for
Multiscale Problems in
Coating-Substrate- Systems
30nm
Atomic Finite Element Method
100 several 50 nm layers
simulated starting with TiN
and finished with CrN at
the interface from coating
to substrate
200µm
250µm
1mm
20µm
Crystal Plasticity Finite Element Method
model with highest number
of elements (superlattice –
TiNCrN_170) with 889105
elements
20µm
Advanced
Adaptive
Finite
Element
Method
Macro submodelling to export
displacements to CPFE subdomain
1mm
1mm
9th THE „A“ Coatings International Conference ;
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TBZ-PARIV GmbH
Macroscopic and lower
Continuum FE refinement
Leopold – Wohlgemuth – Shan – Lin - Qin
Source: Heller; Wohlgemuth; Meyer; Leopold – CIRP CMMO 2011
25
Harbin Institute
of Technology
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Leopold – Wohlgemuth – Shan – Lin - Qin
Harbin Institute
of Technology
TBZ-PARIV GmbH
Micro-Mechanics Modelling based on Crystal Plasticity FE refinement
The Solver: PCGM
example: hierarchical basis
preconditioner
very cheap and quick
Y
200
Sources: Heller_Wohlgemuth_Meyer_Leopold: Journal of Multiscale Modeling 2011
9th THE „A“ Coatings International Conference ;
3 - 5 October 2011 Thessaloniki, Greece
Leopold – Wohlgemuth – Shan – Lin - Qin
Source: Journal of Multiscale Modelling´Vol. 1, No. 1 (2009) 107–124
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TBZ-PARIV GmbH
Harbin Institute
of Technology
Harbin Institute
of Technology
TBZ-PARIV GmbH
Simulation of the TiN film growth on TiN(001)
MD-Simulation
Interaction MEAM Potential
Ti-N
Ours
N-N
Lee's[9]
Potentials
Kim's[10]
Ti-Ti
Parameters of MD model
Model
Description term
Value
lx×ly×lz Nsub
[100]×[010]×[001] 1100
Substrate
Incident
atom
Virtual wall
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Leopold – Wohlgemuth – Shan – Lin - Qin
Harbin Institute
of Technology
9th THE „A“ Coatings International Conference ;
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3 ML
3 ML
1
2aT/100adatoms
300-700 K
normal to substrate
2-10 eV
20 Å, move up at riso
1 atom/ps
500
4.8 Å, move up at riso
Schematic of the MD model of
atomic deposition
Harbin Institute
of Technology
MD-Simulation
Validity of the potential
U tot ( x1 , x2 ,..., x N ) =
N
= ∑ U ( x j − xi )
Thermal linear expansion coefficient
Atom nucleus (FE Nodes)
i< j
30nm
31
Leopold – Wohlgemuth – Shan – Lin - Qin
TBZ-PARIV GmbH
Atomic FEM
Inter-atomic potential - Lennard-Jones potential
30nm
dres
dfree
riso
T
direction
Ek
H
Rdep
Ndep
h
Simulation
9.31×10-6 K-1
Experiment
9.35×10-6 K-1
Bonding force (FE Elements)
Atoms = FE nodes (several sets
depending on type in the MD model)
Automatic generation of CBUSH
elements (user selected max. length)
Limitations:
AFEM < 100,000 nodes
(Max. AFEM domain size: 0.03µmx0.03 µm)
Thermal linear expansion of TiN.
Min. element edge size in CPFEM: 1.. 100 Å
9th THE „A“ Coatings International Conference ;
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TBZ-PARIV GmbH
Harbin Institute
of Technology
PROJECT M3-2S (NMP3-SL-2008-213600)
Project Partner:
University of Birmingham (UK)
Asociacion De La Industria Navarra (ES)
DIAD (IT)
Fundiciones Del Estanda (ES)
Wilde FEA Ltd (UK)
TBZ-PARIV GmbH (DE)
Swiss Federal Laboratories for
Materials Testing & Research (CH)
Fraunhofer IWU (DE)
Harbin Institute of Technology (PRC)
Politecnico di Torino (IT)
University of Strathclyde (UK)
Imperial College of Science,
Technology and Medicine (UK)
9th THE „A“ Coatings International Conference ;
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Leopold – Wohlgemuth – Shan – Lin - Qin
Harbin Institute
of Technology
¾„Conventionally“ Finite Element Simulation can be applied for
deformation and stability analysis of coating-substrate-systems
That’s “state-of-the-art”
SUMMARY
¾“Virtual” Cutting Tool Design and “Virtual” Machining is an important
topic in manufacturing
¾New workpiece materials are responsible for new demands in
coating-substrate-structures
¾In addition to “homogeneous” coatings – more and more structured
coatings are developed
¾This new type of coatings are “non-homogeneous” and “non-isotropic”
¾Subdomain techniques : Continuum-mechanically methods + ab-initio methods
can be used in the near future
Thank you for your Attention!
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THE „A“ Coatings International Conference ;
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9