slight polishing of documentation for phenopowerlaw

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Philip Eisenlohr 2011-06-21 17:48:32 +00:00
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commit 0add06bdfe
8 changed files with 10122 additions and 475 deletions

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@ -1,52 +1,54 @@
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\begin{document}
\title{Summary of constitutive\_phenoPowerlaw}
\author{YUN JO RO}
\author{YunJo Ro \and Philip Eisenlohr}
\maketitle
\begin{abstract}
This document contains information for constitutive\_phenoPowerlaw.f90.
This constitutive subroutine is modified from the current contitutive\_phenomenological.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).
slip and twin system has four families, respectively).
\end{abstract}
\section{State Variables in constitutive\_phenoPowelaw.f90}
\section{State Variables in constitutive\_phenoPowerlaw.f90}
The current State variables in constitutive\_phenoPowerlaw are {}``slip
resistance $\left(s^{\alpha}\right)$'', ''twin resistance $\left(s^{\beta}\right)$'',
@ -64,65 +66,86 @@ the {}``hex (hcp)'' case.\medskip{}
%
\begin{table}[tbph]
\centering{}\begin{tabular}{|c|c|c|c|}
\hline
& & & No. of slip system\tabularnewline
\hline
slip system & basal & $\left\{ 0001\right\} \left\langle 1\bar{2}10\right\rangle $ & 3\tabularnewline
\cline{2-4}
& prism & $\left\{ 10\bar{1}0\right\} \left\langle 1\bar{2}10\right\rangle $ & 3\tabularnewline
\cline{2-4}
& pyr <a> & $\left\{ 10\bar{1}1\right\} \left\langle 1\bar{2}10\right\rangle $ & 6\tabularnewline
\cline{2-4}
& pyr <c+a> & $\left\{ 10\bar{1}1\right\} \left\langle 2\bar{1}\bar{1}3\right\rangle $ & 12\tabularnewline
\hline
twin system & tensile (T1) & $\left\{ 10\bar{1}2\right\} \left\langle \bar{1}011\right\rangle $ & 6\tabularnewline
\cline{2-4}
& compressive (C1) & $\left\{ 11\bar{2}2\right\} \left\langle 11\bar{2}\bar{3}\right\rangle $ & 6\tabularnewline
\cline{2-4}
& tensile (T2) & $\left\{ 11\bar{2}1\right\} \left\langle \bar{1}\bar{1}26\right\rangle $ & 6\tabularnewline
\cline{2-4}
& compressive (C1) & $\left\{ 10\bar{1}1\right\} \left\langle 10\bar{1}\bar{2}\right\rangle $ & 6\tabularnewline
\hline
\centering
\begin{tabular}{cccc}
\toprule
\textbf{type} & \textbf{system} & \textbf{plane / direction} & \textbf{multiplicity}\\
\midrule
slip & basal & $\left\{ 0001\right\} \left\langle 1\bar{2}10\right\rangle $ & 3\\
& prism & $\left\{ 10\bar{1}0\right\} \left\langle 1\bar{2}10\right\rangle $ & 3\\
& pyr \hkl<a> & $\left\{ 10\bar{1}1\right\} \left\langle 1\bar{2}10\right\rangle $ & 6\\
& pyr \hkl<c+a> & $\left\{ 10\bar{1}1\right\} \left\langle 2\bar{1}\bar{1}3\right\rangle $ & 12\\
\midrule
twin & T1 & $\left\{ 10\bar{1}2\right\} \left\langle \bar{1}011\right\rangle $ & 6\\
& C1 & $\left\{ 11\bar{2}2\right\} \left\langle 11\bar{2}\bar{3}\right\rangle $ & 6\\
& T2 & $\left\{ 11\bar{2}1\right\} \left\langle \bar{1}\bar{1}26\right\rangle $ & 6\\
& C2 & $\left\{ 10\bar{1}1\right\} \left\langle 10\bar{1}\bar{2}\right\rangle $ & 6\\
\bottomrule
\end{tabular}\caption{Implemented deformation mechanims in $\alpha$-Ti }
\label{Flo:DeformationSystemTable}
\end{table}
\begin{itemize}
\item Slip/twin system for HCP are illustrated in Figures \ref{Fig:slipSystemHCP}
and \ref{Fig:twinSystemHCP}.
\end{itemize}
%
Slip/twin system for HCP are illustrated in Figures \ref{fig: dislocation slip systems}
and \ref{fig: twinning systems}.
%..............FIG...............
% === SEM ===
\begin{figure}
\begin{centering}
\includegraphics[clip,scale=0.25]{figures/slipSystemForHCP}
\par\end{centering}
\caption{Drawing for slip system for HCP. Burgers vectors were scaled.}
\label{Fig:slipSystemHCP}
\centering
\subfloat[Basal \hkl<a> slip]{%
\label{fig: dislocation slip basal}%
\includegraphics{slipSystem_basal}}
\quad
\subfloat[Prismatic \hkl<a> slip]{%
\label{fig: dislocation slip prism}%
\includegraphics{slipSystem_prismA}}
\quad
\subfloat[Pyramidal \hkl<a> slip]{%
\label{fig: dislocation slip pyramidal a}%
\includegraphics{slipSystem_pyrA}}
\quad
\subfloat[Pyramidal \hkl<c+a> slip]{%
\label{fig: dislocation slip pyramidal ca}%
\includegraphics{slipSystem_pyrCA}}
\quad
\caption{
Dislocation slip systems considered for hexagonal lattice structure.}
\label{fig: dislocation slip systems}
\end{figure}
%
%...................................
%..............FIG...............
% === SEM ===
\begin{figure}
\begin{centering}
\includegraphics[clip,scale=0.25]{figures/twinSystemForHCP}
\par\end{centering}
\caption{Drawing for twin system for HCP ($\alpha$- Ti). Twin directions are
not scaled yet. }
\label{Fig:twinSystemHCP}
\centering
\subfloat[Extension (T1)]{%
\label{fig: twin T1}%
\includegraphics{twinSystem_T1}}
\quad
\subfloat[Contraction (C1)]{%
\label{fig: twin C1}%
\includegraphics{twinSystem_C1}}
\quad
\subfloat[Extension (T2)]{%
\label{fig: twin T2}%
\includegraphics{twinSystem_T2}}
\quad
\subfloat[Contraction (C2)]{%
\label{fig: twin C2}%
\includegraphics{twinSystem_C2}}
\quad
\caption{
Mechanical twinning systems considered for hexagonal lattice structure. Burgers vectors are not drawn to scale.}
\label{fig: twinning systems}
\end{figure}
%...................................
\clearpage{}
\section{Kinetics}
Shear strain rate due to slip is described by following eqation \citet{Salem2005,Wu2007}:\begin{equation}
Shear strain rate due to slip is described by following equation \citet{Salem2005,Wu2007}:\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}
@ -131,7 +154,7 @@ reference shear strain rate, $\tau^{\alpha}$; resolved shear stress
on the slip system, $n$; stress exponent, and $s^{\alpha}$; slip
resistance.
Twin volume fraction rate is described by following eqation \citet{Salem2005,Wu2007}:
Twin volume fraction rate is described by following equation \citet{Salem2005,Wu2007}:
\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}
@ -196,22 +219,19 @@ is listed in Equation \ref{eq:SlipSlipIntMatrix}.
%
\begin{table}[H]
\begin{centering}
\begin{tabular}{|>{\centering}m{0.8in}|>{\centering}m{0.7in}|>{\centering}m{0.6in}|>{\centering}m{0.6in}|>{\centering}m{0.7in}|}
\hline
& basal & prism & pyr <a> & pyr<c+a>\tabularnewline
\hline
basal & 1, 5 & 9 & 12 & 14\tabularnewline
\hline
prism & 15 & 2, 6 & 10 & 13\tabularnewline
\hline
pyr <a> & 18 & 16 & 3, 7 & 11\tabularnewline
\hline
pyr <c+a> & 20 & 19 & 17 & 4, 8\tabularnewline
\hline
\begin{tabular}{ccccc}
\toprule
& basal & prism & pyr \hkl<a> & pyr\hkl<c+a>\\
\midrule
basal & 1, 5 & 9 & 12 & 14\\
prism & 15 & 2, 6 & 10 & 13\\
pyr \hkl<a> & 18 & 16 & 3, 7 & 11\\
pyr \hkl<c+a> & 20 & 19 & 17 & 4, 8\\
\bottomrule
\end{tabular}
\par\end{centering}
\caption{Slip-slip interaction type}
\caption{Slip--slip interaction type}
\label{Flo:SlipSlipIntTypeTable}
\end{table}
@ -259,18 +279,15 @@ is listed in Equation \ref{eq:SlipTwinIntMatrix}.
%
\begin{table}[H]
\begin{centering}
\begin{tabular}{|>{\centering}m{0.8in}|>{\centering}m{0.7in}|>{\centering}m{0.6in}|>{\centering}m{0.6in}|>{\centering}m{0.7in}|}
\hline
& T1 & C1 & T2 & C1\tabularnewline
\hline
basal & 1 & 2 & 3 & 4\tabularnewline
\hline
prism & 5 & 6 & 7 & 8\tabularnewline
\hline
pyr <a> & 9 & 10 & 11 & 12\tabularnewline
\hline
pyr <c+a> & 13 & 14 & 15 & 16\tabularnewline
\hline
\begin{tabular}{ccccc}
\toprule
& T1 & C1 & T2 & C1\\
\midrule
basal & 1 & 2 & 3 & 4\\
prism & 5 & 6 & 7 & 8\\
pyr \hkl<a> & 9 & 10 & 11 & 12\\
pyr \hkl<c+a> & 13 & 14 & 15 & 16\\
\bottomrule
\end{tabular}
\par\end{centering}
@ -298,18 +315,15 @@ is listed in Equation \ref{eq:TwinSlipIntMatrix}.
%
\begin{table}[H]
\begin{centering}
\begin{tabular}{|>{\centering}m{0.8in}|>{\centering}m{0.7in}|>{\centering}m{0.6in}|>{\centering}m{0.6in}|>{\centering}m{0.7in}|}
\hline
& basal & prism & pyr <a> & pyr <c+a>\tabularnewline
\hline
T1 & 1 & 5 & 9 & 13\tabularnewline
\hline
C1 & 2 & 6 & 10 & 14\tabularnewline
\hline
T2 & 3 & 7 & 11 & 15\tabularnewline
\hline
C2 & 4 & 8 & 12 & 16\tabularnewline
\hline
\begin{tabular}{ccccc}
\toprule
& basal & prism & pyr \hkl<a> & pyr \hkl<c+a>\\
\midrule
T1 & 1 & 5 & 9 & 13\\
C1 & 2 & 6 & 10 & 14\\
T2 & 3 & 7 & 11 & 15\\
C2 & 4 & 8 & 12 & 16\\
\bottomrule
\end{tabular}
\par\end{centering}
@ -338,18 +352,15 @@ is listed in Equation \ref{eq:TwinTwinIntMatrix}.
%
\begin{table}[H]
\begin{centering}
\begin{tabular}{|>{\centering}m{0.8in}|>{\centering}m{0.7in}|>{\centering}m{0.6in}|>{\centering}m{0.6in}|>{\centering}m{0.7in}|}
\hline
& T1 & C1 & T2 & C2\tabularnewline
\hline
T1 & 1, 5 & 9 & 12 & 14\tabularnewline
\hline
C1 & 15 & 2, 6 & 10 & 13\tabularnewline
\hline
T2 & 18 & 16 & 3, 7 & 11\tabularnewline
\hline
C2 & 20 & 19 & 17 & 4, 8\tabularnewline
\hline
\begin{tabular}{ccccc}
\toprule
& T1 & C1 & T2 & C2\\
\midrule
T1 & 1, 5 & 9 & 12 & 14\\
C1 & 15 & 2, 6 & 10 & 13\\
T2 & 18 & 16 & 3, 7 & 11\\
C2 & 20 & 19 & 17 & 4, 8\\
\bottomrule
\end{tabular}
\par\end{centering}
@ -454,7 +465,7 @@ contribution, and $\Gamma=\sum_{\alpha}\gamma^{\alpha}$.
%
\begin{figure}[tbph]
\begin{centering}
\includegraphics[clip,scale=0.8]{figures/ExpectedMaterialConfigFile}\caption{Expected of phenomenological modelling parameters.}
\includegraphics[clip,scale=0.6]{figures/ExpectedMaterialConfigFile}\caption{Expected of phenomenological modelling parameters.}
\label{Fig:ModelParameters}
\par\end{centering}
@ -467,9 +478,9 @@ is the sequence of numbering in Tables \ref{Flo:SlipSlipIntTypeTable},
\ref{Flo:SlipTwinIntTypeTable}, \ref{Flo:TwinSlipIntTypeTable},
and \ref{Flo:TwinTwinIntTypeTable} above.
\end{itemize}
\clearpage{}
\bibliographystyle{plain}
\addcontentsline{toc}{section}{\refname}\bibliography{MPIEyjr}
\clearpage{}
\bibliographystyle{plainnat}
\bibliography{MPIEyjr}
\end{document}

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