DAMASK_EICMD/documentation/ConstitutiveLaw/phenoPowerlaw/ConstitutivePhenoPowerLaw.lyx

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\begin_body

\begin_layout Title
Summary of constitutive_phenoPowerlaw
\end_layout

\begin_layout Author
YUN JO RO
\end_layout

\begin_layout Standard
This document contains information for constitutive_phenoPowerlaw.f90.
 This constitutive subroutine is modified from the current contitutive_phenomeno
logical.f90.
 We introduce slip and twin family as additional index (or input) for each
 crystal structure in lattice.f90 subroutine (e.g., for HCP crystal: slip and
 twin system has four faimilies, respectively).
 
\end_layout

\begin_layout Section
State Variables in constitutive_phenoPowelaw.f90
\end_layout

\begin_layout Standard
The current State variables in constitutive_phenoPowerlaw are 
\begin_inset Quotes eld
\end_inset

slip resistance 
\begin_inset Formula $\left(s^{\alpha}\right)$
\end_inset


\begin_inset Quotes erd
\end_inset

, 
\begin_inset Quotes erd
\end_inset

twin resistance 
\begin_inset Formula $\left(s^{\beta}\right)$
\end_inset


\begin_inset Quotes erd
\end_inset

, 
\begin_inset Quotes eld
\end_inset

cumulative shear strain 
\begin_inset Formula $\left(\gamma^{\alpha}\right)$
\end_inset


\begin_inset Quotes erd
\end_inset

, and 
\begin_inset Quotes eld
\end_inset

twin volume fraction 
\begin_inset Formula $\left(f^{\beta}\right)$
\end_inset


\begin_inset Quotes erd
\end_inset

.
 Superscript 
\begin_inset Formula $\alpha$
\end_inset

 and 
\begin_inset Formula $\beta$
\end_inset

 denote to slip and twin systems, respectively, in this entire document.
 
\end_layout

\begin_layout Section
Considered Deformation Mechanisms
\end_layout

\begin_layout Standard
Table 
\begin_inset CommandInset ref
LatexCommand ref
reference "Flo:DeformationSystemTable"

\end_inset

 lists slip/twin systems for the 
\begin_inset Quotes eld
\end_inset

hex (hcp)
\begin_inset Quotes erd
\end_inset

 case.
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Implemented deformation mechanims in 
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-Ti 
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LatexCommand label
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Slip/twin system for HCP are illustrated in Figures 
\begin_inset CommandInset ref
LatexCommand ref
reference "Fig:slipSystemHCP"

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 and 
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reference "Fig:twinSystemHCP"

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.
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Drawing for slip system for HCP.
 Burgers vectors were scaled.
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Drawing for twin system for HCP (
\begin_inset Formula $\alpha$
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- Ti).
 Twin directions are not scaled because the 
\begin_inset Quotes eld
\end_inset

twin Burgers vector
\begin_inset Quotes erd
\end_inset

 magnitude is too small to show in the current figures.
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The Table 
\begin_inset CommandInset ref
LatexCommand ref
reference "Tab:TwinBurgersVector"

\end_inset

 shows the twin Burgers vector and its maganitude.
 The magnitude of twin Burgers vector for each system is not shown in Figure
 
\begin_inset CommandInset ref
LatexCommand ref
reference "Fig:twinSystemHCP"

\end_inset

 since the scale of twin Burgers vector is too small to put in figures.
 
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\begin_inset Caption

\begin_layout Plain Layout
Twin Burgers vector, 
\begin_inset Formula $\frac{c}{a}=1.587$
\end_inset

 .
 Equations in Table are adopted from reference 
\begin_inset CommandInset citation
LatexCommand citet
key "Christian1995"

\end_inset

.
\end_layout

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\end_layout

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Kinetics
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Shear strain rate due to slip is described by following eqation 
\begin_inset CommandInset citation
LatexCommand citet
key "Salem2005,Wu2007"

\end_inset

:
\begin_inset Formula \begin{equation}
\dot{\gamma}^{\alpha}=\dot{\gamma_{o}}\left|\frac{\tau^{\alpha}}{s^{\alpha}}\right|^{n}sign\left(\tau^{\alpha}\right)\label{eq:slipStrainRate}\end{equation}

\end_inset


\end_layout

\begin_layout Standard
, where 
\begin_inset Formula $\dot{\gamma}^{\alpha}$
\end_inset

; shear strain rate, 
\begin_inset Formula $\dot{\gamma}_{o}$
\end_inset

; reference shear strain rate, 
\begin_inset Formula $\tau^{\alpha}$
\end_inset

; resolved shear stress on the slip system, 
\begin_inset Formula $n$
\end_inset

; stress exponent, and 
\begin_inset Formula $s^{\alpha}$
\end_inset

; slip resistance.
\end_layout

\begin_layout Standard
Twin volume fraction rate is described by following eqation 
\begin_inset CommandInset citation
LatexCommand citet
key "Salem2005,Wu2007"

\end_inset

:
\end_layout

\begin_layout Standard
\begin_inset Formula \begin{equation}
\dot{f}^{\beta}=\frac{\dot{\gamma_{o}}}{\gamma^{\beta}}\left|\frac{\tau^{\beta}}{s^{\beta}}\right|^{n}\mathbb{\mathcal{H}}\left(\tau^{\beta}\right)\label{eq:twinVolrate}\end{equation}

\end_inset


\end_layout

\begin_layout Standard
, where 
\begin_inset Formula $\dot{f}^{\beta}$
\end_inset

; twin volume fraction rate, 
\begin_inset Formula $\dot{\gamma}_{o}$
\end_inset

; reference shear strain rate, 
\begin_inset Formula $\gamma^{\beta}$
\end_inset

;shear strain due to mechanical twinning, 
\begin_inset Formula $\tau^{\beta}$
\end_inset

; resolved shear stress on the twin system, and 
\begin_inset Formula $s^{\beta}$
\end_inset

; twin resistance.
 
\begin_inset Formula $\mathcal{H}$
\end_inset

 is Heaviside function.
 
\end_layout

\begin_layout Section
Structure Evolution
\end_layout

\begin_layout Standard
In this present section, we attempt to show how we establish the relationship
 between the evolutoin of slip/twin resistance and the evolution of shear
 strain/twin volume fraction.
 
\end_layout

\begin_layout Subsection
Interaction matrix.
 
\end_layout

\begin_layout Standard
Conceptual relationship between the evolution of state and kinetic variables
 is shown in Equation 
\begin_inset CommandInset ref
LatexCommand ref
reference "eq:InteractionMatrix"

\end_inset

.
\end_layout

\begin_layout Standard
\begin_inset Formula \begin{equation}
\left[\begin{array}{c}
\dot{s}^{\alpha}\\
\dot{s}^{\beta}\end{array}\right]=\left[\begin{array}{cc}
M_{\mathrm{slip-slip}} & M_{\mathrm{slip-twin}}\\
M_{\mathrm{twin-slip}} & M_{\mathrm{twin-twin}}\end{array}\right]\left[\begin{array}{c}
\dot{\gamma}^{\alpha}\\
\gamma^{\beta}\cdot\dot{f}^{\beta}\end{array}\right]\label{eq:InteractionMatrix}\end{equation}

\end_inset


\end_layout

\begin_layout Standard
Four interaction martices are followings; i) slip-slip interaction matrix
 
\begin_inset Formula $\left(M_{\mathrm{{\scriptstyle slip-slip}}}\right)$
\end_inset

, ii) slip-twin interaction matrix 
\begin_inset Formula $\left(M_{\mathrm{slip-twin}}\right)$
\end_inset

, iii) twin-slip interaction matrix 
\begin_inset Formula $\left(M_{\mathrm{twin-slip}}\right)$
\end_inset

, and iv) twin-twin interaction matrix 
\begin_inset Formula $\left(M_{\mathrm{twin-twin}}\right)$
\end_inset

.
 
\end_layout

\begin_layout Standard
Detailed interaction type matrices in Equation 
\begin_inset CommandInset ref
LatexCommand ref
reference "eq:InteractionMatrix"

\end_inset

 will be further discussed in the following Section.
\end_layout

\begin_layout Subsection
Interaction type matrix
\end_layout

\begin_layout Standard
Following sections are sparated into four based on each interaction type
 matrix alluded.
 Numbers in Tables 
\begin_inset CommandInset ref
LatexCommand ref
reference "Flo:SlipSlipIntTypeTable"

\end_inset

, 
\begin_inset CommandInset ref
LatexCommand ref
reference "Flo:SlipTwinIntTypeTable"

\end_inset

, 
\begin_inset CommandInset ref
LatexCommand ref
reference "Flo:TwinSlipIntTypeTable"

\end_inset

, and 
\begin_inset CommandInset ref
LatexCommand ref
reference "Flo:TwinTwinIntTypeTable"

\end_inset

 denote the type of interaction between deformation systems (The first column
 vs.
 The first row).
\end_layout

\begin_layout Subsubsection
Slip-Slip interaction type matrix
\end_layout

\begin_layout Itemize
There are 20 types of slip-slip interaction as shown in Table 
\begin_inset CommandInset ref
LatexCommand ref
reference "Flo:SlipSlipIntTypeTable"

\end_inset

.
 
\end_layout

\begin_layout Itemize
In Table 
\begin_inset CommandInset ref
LatexCommand ref
reference "Flo:SlipSlipIntTypeTable"

\end_inset

, types of latent hardening among slip systems are listed.
 
\end_layout

\begin_layout Itemize
Actual slip-slip interaction type matrix, 
\begin_inset Formula $M_{\mathrm{slip-slip}}^{'}$
\end_inset

, is listed in Equation 
\begin_inset CommandInset ref
LatexCommand ref
reference "eq:SlipSlipIntMatrix"

\end_inset

.
\end_layout

\begin_layout Standard
\begin_inset Float table
placement H
wide false
sideways false
status open

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\align center
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<row>
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pyr <c+a>
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<cell alignment="center" valignment="top" topline="true" bottomline="true" leftline="true" usebox="none">
\begin_inset Text

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20
\end_layout

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\begin_inset Text

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<cell alignment="center" valignment="top" topline="true" bottomline="true" leftline="true" rightline="true" usebox="none">
\begin_inset Text

\begin_layout Plain Layout
4, 8
\end_layout

\end_inset
</cell>
</row>
</lyxtabular>

\end_inset


\end_layout

\begin_layout Plain Layout
\begin_inset Caption

\begin_layout Plain Layout
Slip-slip interaction type
\end_layout

\end_inset


\begin_inset CommandInset label
LatexCommand label
name "Flo:SlipSlipIntTypeTable"

\end_inset


\end_layout

\end_inset


\end_layout

\begin_layout Standard
\begin_inset Formula \begin{equation}
M_{\mathrm{slip-slip}}^{'}=\left[\begin{array}{ccc|ccc|cccccc|cccccccccccc}
1 & 5 & 5 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
 & 1 & 5 & \cdot & 9 & \cdot & \cdot & \cdot & 12 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & 14 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
 &  & 1 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
\hline \cdot & \cdot & \cdot & 2 & 6 & 6 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
\cdot & 15 & \cdot &  & 2 & 6 & \cdot & \cdot & 10 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & 13 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
\cdot & \cdot & \cdot &  &  & 2 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
\hline \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & 3 & 7 & 7 & 7 & 7 & 7 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
\cdot & \cdot & \cdot & \cdot & \cdot & \cdot &  & 3 & 7 & 7 & 7 & 7 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
\cdot & \cdot & \cdot & \cdot & \cdot & \cdot &  &  & 3 & 7 & 7 & 7 & \cdot & \cdot & \cdot & \cdot & \cdot & 11 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
\cdot & 18 & \cdot & \cdot & 16 & \cdot &  &  &  & 3 & 7 & 7 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
\cdot & \cdot & \cdot & \cdot & \cdot & \cdot &  &  &  &  & 3 & 7 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
\cdot & \cdot & \cdot & \cdot & \cdot & \cdot &  &  &  &  &  & 3 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
\hline \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & 4 & 8 & 8 & 8 & 8 & 8 & 8 & 8 & 8 & 8 & 8 & 8\\
\cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot &  & 4 & 8 & 8 & 8 & 8 & 8 & 8 & 8 & 8 & 8 & 8\\
\cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot &  &  & 4 & 8 & 8 & 8 & 8 & 8 & 8 & 8 & 8 & 8\\
\cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot &  &  &  & 4 & 8 & 8 & 8 & 8 & 8 & 8 & 8 & 8\\
\cdot & 20 & \cdot & \cdot & 19 & \cdot & \cdot & \cdot & 17 & \cdot & \cdot & \cdot &  &  &  &  & 4 & 8 & 8 & 8 & 8 & 8 & 8 & 8\\
\cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot &  &  &  &  &  & 4 & 8 & 8 & 8 & 8 & 8 & 8\\
\cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot &  &  &  &  &  &  & 4 & 8 & 8 & 8 & 8 & 8\\
\cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot &  &  &  &  &  &  &  & 4 & 8 & 8 & 8 & 8\\
\cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot &  &  &  &  &  &  &  &  & 4 & 8 & 8 & 8\\
\cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot &  &  &  &  &  &  &  &  &  & 4 & 8 & 8\\
\cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot &  &  &  &  &  &  &  &  &  &  & 4 & 8\\
\cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot &  &  &  &  &  &  &  &  &  &  &  & 4\end{array}\right]\label{eq:SlipSlipIntMatrix}\end{equation}

\end_inset


\end_layout

\begin_layout Standard
\begin_inset VSpace vfill
\end_inset


\begin_inset VSpace vfill
\end_inset


\end_layout

\begin_layout Subsubsection
Slip-Twin interaction type matrix
\end_layout

\begin_layout Itemize
There are 16 types of slip-twin interaction in Table 
\begin_inset CommandInset ref
LatexCommand ref
reference "Flo:SlipTwinIntTypeTable"

\end_inset

.
 
\end_layout

\begin_layout Itemize
Meaning of T1, C1, T2, C2 is listed in Table 
\begin_inset CommandInset ref
LatexCommand ref
reference "Flo:DeformationSystemTable"

\end_inset

.
\end_layout

\begin_layout Itemize
Actual slip-twin interaction type matrix, 
\begin_inset Formula $M_{\mathrm{slip-twin}}^{'}$
\end_inset

, is listed in Equation 
\begin_inset CommandInset ref
LatexCommand ref
reference "eq:SlipTwinIntMatrix"

\end_inset

.
\end_layout

\begin_layout Standard
\begin_inset Float table
placement H
wide false
sideways false
status open

\begin_layout Plain Layout
\align center
\begin_inset Tabular
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\end_layout

\begin_layout Plain Layout
\begin_inset Caption

\begin_layout Plain Layout
Slip-twin interaction type
\end_layout

\end_inset


\begin_inset CommandInset label
LatexCommand label
name "Flo:SlipTwinIntTypeTable"

\end_inset


\end_layout

\end_inset


\end_layout

\begin_layout Standard
\begin_inset Formula \begin{equation}
M_{\mathrm{slip-twin}}^{'}=\left[\begin{array}{c|c|c|c}
1 & 2 & 3 & 4\\
\hline 5 & 6 & 7 & 8\\
\hline 9 & 10 & 11 & 12\\
\hline 13 & 14 & 15 & 16\end{array}\right]\label{eq:SlipTwinIntMatrix}\end{equation}

\end_inset


\end_layout

\begin_layout Subsubsection
Twin-Slip interaction type matrix
\end_layout

\begin_layout Itemize
There 16 types of twin-slip interaction in Table 
\begin_inset CommandInset ref
LatexCommand ref
reference "Flo:TwinSlipIntTypeTable"

\end_inset

.
\end_layout

\begin_layout Itemize
Meaning of T1, C1, T2, C2 is listed in Table 
\begin_inset CommandInset ref
LatexCommand ref
reference "Flo:DeformationSystemTable"

\end_inset

.
\end_layout

\begin_layout Itemize
Actual twin-slip interaction type matrix, 
\begin_inset Formula $M_{\mathrm{twin-slip}}^{'}$
\end_inset

, is listed in Equation 
\begin_inset CommandInset ref
LatexCommand ref
reference "eq:TwinSlipIntMatrix"

\end_inset

.
\end_layout

\begin_layout Standard
\begin_inset Float table
placement H
wide false
sideways false
status open

\begin_layout Plain Layout
\align center
\begin_inset Tabular
<lyxtabular version="3" rows="5" columns="5">
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</lyxtabular>

\end_inset


\end_layout

\begin_layout Plain Layout
\begin_inset Caption

\begin_layout Plain Layout
Twin-slip interaction type
\end_layout

\end_inset


\begin_inset CommandInset label
LatexCommand label
name "Flo:TwinSlipIntTypeTable"

\end_inset


\end_layout

\end_inset


\end_layout

\begin_layout Standard
\begin_inset Formula \begin{equation}
M_{\mathrm{twin-slip}}^{'}=\left[\begin{array}{c|c|c|c}
1 & 5 & 9 & 13\\
\hline 2 & 6 & 10 & 14\\
\hline 3 & 7 & 11 & 15\\
\hline 4 & 8 & 12 & 16\end{array}\right]\label{eq:TwinSlipIntMatrix}\end{equation}

\end_inset


\end_layout

\begin_layout Subsubsection
Twin-twin interaction type matrix
\end_layout

\begin_layout Itemize
There are 20 types of twin-twin interaction as shown in Table 
\begin_inset CommandInset ref
LatexCommand ref
reference "Flo:TwinTwinIntTypeTable"

\end_inset

.
 
\end_layout

\begin_layout Itemize
In Table 
\begin_inset CommandInset ref
LatexCommand ref
reference "Flo:TwinTwinIntTypeTable"

\end_inset

, types of latent hardening among twin systems are listed.
 
\end_layout

\begin_layout Itemize
Actual twin-twin interaction type marix, 
\begin_inset Formula $M_{\mathrm{twin-twin}}^{'}$
\end_inset

, is listed in Equation 
\begin_inset CommandInset ref
LatexCommand ref
reference "eq:TwinTwinIntMatrix"

\end_inset

.
\end_layout

\begin_layout Standard
\begin_inset Float table
placement H
wide false
sideways false
status open

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\align center
\begin_inset Tabular
<lyxtabular version="3" rows="5" columns="5">
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\end_layout

\begin_layout Plain Layout
\begin_inset Caption

\begin_layout Plain Layout
Twin-twin interaction type
\end_layout

\end_inset


\begin_inset CommandInset label
LatexCommand label
name "Flo:TwinTwinIntTypeTable"

\end_inset


\end_layout

\end_inset


\end_layout

\begin_layout Standard
\begin_inset Formula \begin{equation}
M_{\mathrm{twin-twin}}^{'}=\left[\begin{array}{cccccc|cccccc|cccccc|cccccc}
1 & 5 & 5 & 5 & 5 & 5 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
 & 1 & 5 & 5 & 5 & 5 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
 &  & 1 & 5 & 5 & 5 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
 &  &  & 1 & 5 & 5 & \cdot & \cdot & \cdot & 9 & \cdot & \cdot & \cdot & \cdot & \cdot & 12 & \cdot & \cdot & \cdot & \cdot & \cdot & 14 & \cdot & \cdot\\
 &  &  &  & 1 & 5 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
 &  &  &  &  & 1 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
\hline \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & 2 & 6 & 6 & 6 & 6 & 6 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
\cdot & \cdot & \cdot & \cdot & \cdot & \cdot &  & 2 & 6 & 6 & 6 & 6 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
\cdot & \cdot & \cdot & \cdot & \cdot & \cdot &  &  & 2 & 6 & 6 & 6 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
\cdot & \cdot & \cdot & 15 & \cdot & \cdot &  &  &  & 2 & 6 & 6 & \cdot & \cdot & \cdot & 10 & \cdot & \cdot & \cdot & \cdot & \cdot & 13 & \cdot & \cdot\\
\cdot & \cdot & \cdot & \cdot & \cdot & \cdot &  &  &  &  & 2 & 6 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
\cdot & \cdot & \cdot & \cdot & \cdot & \cdot &  &  &  &  &  & 2 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
\hline \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & 3 & 7 & 7 & 7 & 7 & 7 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
\cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot &  & 3 & 7 & 7 & 7 & 7 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
\cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot &  &  & 3 & 7 & 7 & 7 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
\cdot & \cdot & \cdot & 18 & \cdot & \cdot & \cdot & \cdot & \cdot & 16 & \cdot & \cdot &  &  &  & 3 & 7 & 7 & \cdot & \cdot & \cdot & 11 & \cdot & \cdot\\
\cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot &  &  &  &  & 3 & 7 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
\cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot &  &  &  &  &  & 3 & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot\\
\hline \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & 4 & 8 & 8 & 8 & 8 & 8\\
\cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot &  & 4 & 8 & 8 & 8 & 8\\
\cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot &  &  & 4 & 8 & 8 & 8\\
\cdot & \cdot & \cdot & 20 & \cdot & \cdot & \cdot & \cdot & \cdot & 19 & \cdot & \cdot & \cdot & \cdot & \cdot & 17 & \cdot & \cdot &  &  &  & 4 & 8 & 8\\
\cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot &  &  &  &  & 4 & 8\\
\cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot & \cdot &  &  &  &  &  & 4\end{array}\right]\label{eq:TwinTwinIntMatrix}\end{equation}

\end_inset


\end_layout

\begin_layout Subsection
Prefactor (nonlinear factor)
\end_layout

\begin_layout Subsubsection
Prefactors for slip resistance 
\begin_inset Formula $\left(s^{\alpha}\right)$
\end_inset

; 
\begin_inset Formula $M_{\mathrm{slip-slip}}$
\end_inset

 and 
\begin_inset Formula $M_{\mathrm{slip-twin}}$
\end_inset


\begin_inset CommandInset citation
LatexCommand citet
key "Wu2007"

\end_inset


\end_layout

\begin_layout Standard
\begin_inset Formula $M_{\mathrm{slip-slip}}$
\end_inset

 and 
\begin_inset Formula $M_{\mathrm{slip-twin}}$
\end_inset

 use for slip resistance evolution 
\begin_inset Formula $\left(\dot{s}^{\alpha}\right)$
\end_inset

.
 Equation 
\begin_inset CommandInset ref
LatexCommand ref
reference "eq:SlipResisEvolutionEq"

\end_inset

 is for a slip resistance rate evolution.
 This currently shows the prefactor for 
\begin_inset Quotes eld
\end_inset

slip-slip interaction matrix, 
\begin_inset Formula $M_{\mathrm{slip-slip}}$
\end_inset


\begin_inset Quotes erd
\end_inset

.
\end_layout

\begin_layout Standard
\begin_inset VSpace medskip
\end_inset


\end_layout

\begin_layout Standard

\family roman
\series medium
\shape up
\size normal
\emph off
\bar no
\noun off
\color none
\begin_inset Formula \begin{equation}
M_{\mathrm{slip-slip}}=h_{\mathrm{slip}}\left(1+C\cdot F^{b}\right)\left(1-\frac{s^{\alpha}}{s_{so}^{\alpha}+s_{\mathrm{pr}}\cdot\sqrt{F}}\right)\cdot M_{\mathrm{slip-slip}}^{'}\label{eq:SlipResisEvolutionEq}\end{equation}

\end_inset


\end_layout

\begin_layout Standard
\begin_inset VSpace medskip
\end_inset


\end_layout

\begin_layout Standard
, where 
\begin_inset Formula $h_{\mathrm{slip}}$
\end_inset

represent a hardening rate, and 
\begin_inset Formula $S_{\mathrm{so}}^{\alpha}$
\end_inset

 saturation slip resistance for slip system without mechanical twinning
 
\begin_inset Formula $\left(\sum_{\beta}f^{\beta}=0\right)$
\end_inset

, respectively.
 And, 
\begin_inset Formula $F$
\end_inset

 is 
\begin_inset Formula $\sum_{\beta}f^{\beta}$
\end_inset

, and 
\begin_inset Formula $N^{S}$
\end_inset

is the total number of slip system.
\begin_inset Formula $C$
\end_inset

, 
\begin_inset Formula $s_{\mathrm{pr}}$
\end_inset

, and 
\begin_inset Formula $b$
\end_inset

 are coefficients to introduce the effect of interaction between slip and
 mechanical twin in Equation 
\begin_inset CommandInset ref
LatexCommand ref
reference "eq:SlipResisEvolutionEq"

\end_inset

.
\end_layout

\begin_layout Itemize
Slip-twin interaction matrix, 
\begin_inset Formula $M_{\mathrm{slip-twin}}$
\end_inset

, has not been implemented with any prefactor in the present version.
 
\end_layout

\begin_layout Subsubsection
Prefactors for twin resistance 
\begin_inset Formula $\left(s^{\beta}\right)$
\end_inset

; 
\begin_inset Formula $M_{\mathrm{twin-slip}}$
\end_inset

 and 
\begin_inset Formula $M_{\mathrm{twin-twin}}$
\end_inset


\begin_inset CommandInset citation
LatexCommand citet
key "Salem2005"

\end_inset


\end_layout

\begin_layout Standard
\begin_inset Formula $M_{\mathrm{twin-sli}p}$
\end_inset

 and 
\begin_inset Formula $M_{\mathrm{twin-twin}}$
\end_inset

 use for twin resistance evolution 
\begin_inset Formula $\left(\dot{s}^{\beta}\right)$
\end_inset

.
 Twin-twin and twin-slip interaction matrices are described in Equations
 
\begin_inset CommandInset ref
LatexCommand ref
reference "eq:TwinTwinContributionToTwinResis"

\end_inset

 and 
\begin_inset CommandInset ref
LatexCommand ref
reference "eq:TwinSlipContributionToTwinResis"

\end_inset

.
 
\begin_inset VSpace medskip
\end_inset


\end_layout

\begin_layout Standard
\begin_inset Formula \begin{equation}
M_{\mathrm{twin-twin}}=h_{\mathrm{tw}}\cdot F^{d}\cdot M_{\mathrm{twin-twin}}^{'}\label{eq:TwinTwinContributionToTwinResis}\end{equation}

\end_inset


\end_layout

\begin_layout Standard
,where 
\begin_inset Formula $h_{\mathrm{tw}}$
\end_inset

 and 
\begin_inset Formula $d$
\end_inset

 are coefficients for twin-twin contribution.
 
\begin_inset Formula $F$
\end_inset

 is 
\begin_inset Formula $\sum_{\beta}f^{\beta}$
\end_inset

.
\end_layout

\begin_layout Standard
\begin_inset VSpace medskip
\end_inset


\end_layout

\begin_layout Standard
\begin_inset Formula \begin{equation}
M_{\mathrm{twin-slip}}=h_{\mathrm{tw-sl}}\cdot\Gamma^{e}\cdot M_{\mathrm{twin-slip}}^{'}\label{eq:TwinSlipContributionToTwinResis}\end{equation}

\end_inset


\end_layout

\begin_layout Standard
,where 
\begin_inset Formula $h_{\mathrm{tw-sl}}$
\end_inset

 and 
\begin_inset Formula $e$
\end_inset

 are coefficients for twin-slip contribution
\family roman
\series medium
\shape up
\size normal
\emph off
\bar no
\noun off
\color none
, and 
\begin_inset Formula $\Gamma=\sum_{\alpha}\gamma^{\alpha}$
\end_inset

.
\end_layout

\begin_layout Standard
\begin_inset Newpage clearpage
\end_inset


\end_layout

\begin_layout Section
Material Parameters (Material Configuration file)
\end_layout

\begin_layout Standard
\begin_inset Float figure
placement tbph
wide false
sideways false
status open

\begin_layout Plain Layout
\align center
\begin_inset Graphics
	filename figures/ExpectedMaterialConfigFile.jpg
	lyxscale 30
	scale 80
	clip

\end_inset


\begin_inset Caption

\begin_layout Plain Layout
Expected of phenomenological modelling parameters.
\end_layout

\end_inset


\begin_inset CommandInset label
LatexCommand label
name "Fig:ModelParameters"

\end_inset


\end_layout

\begin_layout Plain Layout

\end_layout

\end_inset


\end_layout

\begin_layout Itemize
The sequence for hardening coefficients in Figure 
\begin_inset CommandInset ref
LatexCommand ref
reference "Fig:ModelParameters"

\end_inset

 is the sequence of numbering in Tables 
\begin_inset CommandInset ref
LatexCommand ref
reference "Flo:SlipSlipIntTypeTable"

\end_inset

, 
\begin_inset CommandInset ref
LatexCommand ref
reference "Flo:SlipTwinIntTypeTable"

\end_inset

, 
\begin_inset CommandInset ref
LatexCommand ref
reference "Flo:TwinSlipIntTypeTable"

\end_inset

, and 
\begin_inset CommandInset ref
LatexCommand ref
reference "Flo:TwinTwinIntTypeTable"

\end_inset

 above.
\end_layout

\begin_layout Standard
\begin_inset Newpage clearpage
\end_inset


\end_layout

\begin_layout Standard
\begin_inset CommandInset bibtex
LatexCommand bibtex
bibfiles "MPIEyjr"
options "bibtotoc,plain"

\end_inset


\end_layout

\end_body
\end_document