\chapter{Method}
\label{chap:Methode}

methosjfsdhfkjsahfdkjsa

\section{Modelation of Corrosion Mechanism}
\label{sec:Anlagenbeschreibung}

\section{Material Characterization of Substrate}

\subsection{Potentiostatic  Measurements}

\subsection{Potentiodynamic  Measurements}

\section{Experimental Setup of Endurance Run}


\subsection{Testbench}

\subsection{Characterization of Cells}

Polkurves 60,80,90
vorher nachher
vrgl. versch temp.

\subsection{pH Measurement}

\begin{table}[h]
	\centering
	\begin{tabular}{ccccccc} 
		\hline
		T$_{coolant,in}$ & T$_{gas,A}$ & T$_{dp,A}$ &p$_{out,A}$ &T$_{gas,C}$ & T$_{dp,C}$& p$_{out,C}$\\
		\hline
	60&	75 & 37& 2&75 &46& 2\\
	75& 90 & 49& 2&90 & 59& 2\\
	90& 105 & 62& 2&105& 73& 2\\

	\end{tabular}
	\caption{Temperatures of the cell}
	\label{tab:3_pH_T}
\end{table}
%dividing this into Temperature and pressure?





\subsection{Development of Endurance Run}

\subsection{Characterization of the Endurance Run}

Polkurves 60,80
vorher nachher
vrgl. versch temp.

\begin{table}[h]
	\centering
	\begin{tabular}{ccccccc} 
		\hline
		T$_{coolant,in}$ & T$_{gas,A}$ & T$_{dp,A}$ &p$_{out,A}$ &T$_{gas,C}$ & T$_{dp,C}$& p$_{out,C}$\\
		\hline
		65&	85 & 45& 2,3&85 &53& 1,4\\
	\end{tabular}
	\caption{Temperatures of the cell}
	\label{tab:3_ER}
\end{table}

pt  agglomeration 		6	

\section{Ex-Situ analysis}

\subsection{Laser Induced Breakdown Spectroscopy(LIBS)}

\subsection{Energy Dispersive X-Ray Spectroscopy (EDX)}

\subsection{Scanning Electrone Microscope (SEM)}

\subsection{Inductively Coupled Plasma  Spectroscopy (ICP)}