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% .tit file is as follows
\tocline {Manuscript Pr} { S.N. Atluri\thanks {UCLA, LA, CA, USA.},\ K.J. Bathe\thanks {MIT, Boston, MA, USA.}\ and \ K. Bathe\affiliate {2} } {1}
\cmesvol {1} \ignore {1}
\cmesno {1} \ignore {1}
\cmesyear {2016} \ignore {1}
\cmesabs { This document summarizes the instructions to authors for typesetting This short document can be viewed as a sample paper; and will assist the authors in manuscript-preparation. } {1}
\cmeskey {Manuscript, preparation, typeset, format, CMES.} {1}
\prevpage  {6}

% latex Text is as follows           
\documentclass[11pt,fleqn]{cmes}
            \cmes{1}{1}{2016}{0}

            \graphicspath{{./image/}}
            \runningtitle{Manuscript Preparation for CMES} 

            \title{Perfoe }
            \author{
            Prah \thanks{Department of },\
             Dai \affiliate{1}\
             Tom \affiliate{1}\
            and \
            Tomoy \affiliate{1}
            }
            \begin{document}
            \maketitle
            \abstract{
            This work presents
            }
            \keyword{Micro-electric effect}
            \section{Introduction}
            Piezoele
            \section{Formulation of }
            \subsection{Governin}
            The a;\\
            Electro
            whconstant.\\
            The strain respectively are given by
            d n ctively.
            \subsection{Finite eley}
            The stan
            \subsection{Timations}
            Various irequ step-by-step solution. 
            % subsection 3.1
            \subsubsection{Newc analysis}\label{newmark}
            IEq.(\ref{piezo_moton_eq_1}) \& Eq.(\ref{piezo_moton_eq_2}) wmark's time integration to Eq.(\ref{piezo_motion_eq_newmark_1}), we obtainWhere $\mathbf M$, $\mathbf C$, ${\mathbf{\hat K}}_{\mathrm {uu}}$ and  $ {^\mathrm{{t+\Delta t}}\hat {\mathbf F}}$  are the consistent mass matrix, daeleraated usingwhmed to 
            \subsubsection{Central difference integration method for linear dynamic piezoelectric analysis}\label{cd}
analysis.
            \subsection{F co actuators}\label{dyna_algorithms}
            ve c
            \subsubsection{MonolithN)}\label{MN}
            The mw of the M.
            \subsubsection{Block ration (BJN)}\label{BJN}
            \section{Analysis ctuators}
            In this secto
            \tikzstyle{rect} = [rectangle, thick,draw,  text width=13em,align=center]
            \tikzstyle{rect_big} = [rectangle, thick,draw,  text width=16em,align=center]
            \tikzstyle{rect_med} = [rectangle, thick,draw,  text width=8em,align=center]
            \tikzstyle{line} = [very thick,red,draw, -latex']
            \tikzstyle{blank} = [node distance=1.6cm] %node dis=length of a line
            \begin{figure}[H]
            \centering
            {
            \begin{tikzpicture}
            \node [rect] (top) {Piezoelectric bimorph actuators};
            \draw[thick,-] (0.0,-0.25) -- (0,-0.60);
            \draw[thick,-] (-3.0,-0.60) -- (3.0,-0.6);
            \draw[thick,->] (-3.0,-0.60) -- (-3.0,-1);
            \draw[thick,->] (3.0,-0.60) -- (3.0,-1);
            \node [blank, below of=top ] (blank1) {};
            \node [blank, below of=blank1, node distance=1.2cm ] (blank1) {};
            \node [rect_big, below =of top, yshift=0.3cm,xshift=-3.3cm] (left) {Bimroph actuators without metal shim \\ (or)\\Bimorph actuator};
            \node [rect_big, below  = of top,yshift=0.3cm,xshift=3.3cm] (right) {Bimroph actuators with metal shim \\ (or)\\Triple layer actuator};
            \draw[thick,-] (-3.50,-2.40) -- (-3.50,-2.80);
            \draw[thick,-] (-4.50,-2.80) -- (-2.50,-2.80);
            \draw[thick,->] (-4.50,-2.80) -- (-4.50,-3.10);
            \draw[thick,->] (-2.50,-2.80) -- (-2.50,-3.10);
            \node [rect_med, below = of left,yshift=0.3cm,xshift=-1.8cm ] (left-left) {Series connection};
            \node [rect_med, below = of left, yshift=0.3cm,xshift=1.6cm] (left-right) {Parallel connection};
            \draw[thick,-] (3.50,-2.40) -- (3.50,-2.80);
            \draw[thick,-] (4.50,-2.80) -- (2.50,-2.80);
            \draw[thick,->] (4.50,-2.80) -- (4.50,-3.10);
            \draw[thick,->] (2.50,-2.80) -- (2.50,-3.10);
            \node [rect_med, below = of right,yshift=0.3cm,xshift=-1.5cm ] (right-left) {Series connection};
            \node [rect_med, below = of right, yshift=0.3cm,xshift=1.9cm] (right-right) {Parallel connection};
            \end{tikzpicture}
            }
            \caption{Classifuators }\label{bimorph classification}
            \end{figure}
            \noindent The exist Fig.\ref{Bimorph with metal shim in parallel connection}. 
            \begin{figure}[H]
            \centering
            \subfloat[Bimorph in series connection]{
              \includegraphics[height=1.0in,width=2.20 in]{bimorph_series_no_metal.png} \label{Bimorph in series connection}
            } \qquad
            \subfloat[Bimorph in parallel connection]{
              \includegraphics[height=1.0in,width=2.20 in]{bimorph_parallel_no_metal.png} \label{Bimorph in parallel connection}
            }\\
            \subfloat[Triple layer  actuator  in series connection]{
              \includegraphics[height=1.0in,width=2.2 in]{bimorph_series_with_metal.png}\label{Bimorph with metal shim in series connection}
            }\qquad
            \subfloat[Triple layer actuator  in parallel connection]{
              \includegraphics[height=1.0in,width=2.20 in]{bimorph_parallel_with_metal.png}\label{Bimorph with metal shim in parallel connection}
            }
            \caption{Differenever piezoelectric bimorph actuators}{\begin{tikzpicture} \filldraw[fill=white,thin] (0,0)rectangle (0.5,0.1); \end{tikzpicture} is piezoelectric ceramic layer},  {\begin{tikzpicture} \filldraw[fill=black,thin] (0,0)rectangle (0.5,0.1); \end{tikzpicture} is metal layer}, $\uparrow$ is polarization direction. \label{bimorph_config}
            \end{figure}
            Due to the u
            %\vspace{-1.10 in}
            \subsection{Bending dry}
            Only
            \begin{align*}
             \omega_{r}^{(1)}=103.30\ \mathrm{rad/sec}                      
            \end{align*}
            \subsection{Results and discussion}
            f piezoelectric s.
            \subsubsection{Staticrs}
            Tsts of 134 and  240 s,  
            \begin{figure}[H]
            \centering
            \includegraphics[height=2.5in,width=3.0 in]{static_itr_vs_error_BJ_BGS.eps}
             \caption{converg analysis}  \label{itr_convergence_static}
            \end{figure}
            s. Figure \ref{itr_convergence_static} shows the convergence results of partitioned iterative coupling algorithms (BJ and BGS) r.
            \begin{figure}[H]
            \centering
            \includegraphics[height=2.5in,width=3.0 in]{BS_series_no_metal_Th_MN_Part_BJ_BGS.eps}
             \caption{Numeric deflection} \label{bimorph_bending_numerical}
            \end{figure}
            Figure olutioscribed in Figure \ref{bimorph_config}. 
            It follows frotioned coupling.
            \subsubsection{Dynamiltage}
            The  deflection to thon.
            \begin{figure}[H]
            \centering
            \includegraphics[height=2.5in,width=3.0 in]{step_input_bimorph_series_no_metal_MN_BJN_BGSN.eps}
             \caption{The step response of bimorph actuator subjected to step bias V=1V with $\beta$=0.3025, $\gamma$=0.6 and $\rho_p$ =0} \label{step_resp}
            \end{figure}
            Figure s are obtained very efficiently by the coupled algorithms.
            \subsubsection{Dynamic analyoltage\\}
            The nung present( darix $\mathbf C$=100).
            \begin{figure}[H]
            \centering
            \subfloat[$\Delta$t  for transient dynamic analysis at resonance frequency]{
              \includegraphics[height=2.0 in, width=2.2 in]{delta_t_study_107_MN_series_no_metal.eps} \label{delta_t_MN_107}
            } 
            \subfloat[$\Delta$t  for dynamic aarger than $\omega_r^{(1)}$]{
              \includegraphics[height=2.0 in,width=2.2 in]{delta_t_study_120_MN_series_no_metal.eps} \label{delta_t_MN_120}
            }
            \caption{$\Delta$t  for transient dynamic analysis to detect resonance frequency with the MN algorithm for AC voltage $V$=1V } \label{delta_t_MN}
            \end{figure}
             When thMN algorithm for dynamic analysis of bimorph actuators without metal shim (Figure \ref{Bimorph in series connection} ion.
            \begin{figure}[H]
            \centering
            \subfloat[Input frequency $\omega$=30 rad/sec]{
              \includegraphics[height=1.250 in, width=2.0 in]{w_30_mn.eps} \label{w=30}
            } \quad
            \subfloat[Input frequency $\omega$=95 rad/sec]{
              \includegraphics[height=1.250 in,width=2.0 in]{w_95_mn.eps} \label{w=95}
            } \\
            \subfloat[Input frequency $\omega$=106 rad/sec]{
              \includegraphics[height=1.250 in, width=2.0 in]{w_106_mn.eps} \label{w=106}
            } \quad
            \subfloat[Input frequency $\omega$=107 rad/sec]{
              \includegraphics[height=1.250 in,width=2.0in]{w_107_mn.eps} \label{w=107}
            }\\
            \subfloat[Input frequency $\omega$=108 rad/sec]{
              \includegraphics[height=1.250 in, width=2.0 in]{w_108_mn.eps} \label{w=108}
            } \quad
            \subfloat[Input frequency $\omega$=185 rad/sec]{
              \includegraphics[height=1.250 in,width=2.0 in]{w_185_mn.eps} \label{w=185}
            }
            \caption{Ardifferent frequencies with MN algorithm.}\label{mn_ac_resp}
            \end{figure}
            % It run successfully.
        %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
        Please Copy and Paste From section {Introduction} to subsubsection {Dynamiltage}
            Run again- Result is, it compile correctly without any error %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
            .Again Copy and paste From section {Introduction} to subsubsection {Dynamiltage}
            Result- It fails, because it exceeds 24 pages.
            \acknowledge{
            Add anent when appropriate.
            }
            \bibliographystyle{cmes}
            \bibliography{sample}
            \appendix
            \section{Example of appendix}
            Some text here.
    \lastpage
            \end{document}

I am unable to write a journal paper beyond 24 pages by using CMES journal template.someone help me. In the Latex Text file I excluded tikz files. You can find the Latex template here. http://www.techscience.com/cmes/auth_instru.html

%sample.tit file

\tocline {Manuscript Preparation Instructions for Publishing in Computer Modeling in Engineering and Sciences (CMES)} { S.N. Atluri\thanks {UCLA, LA, CA, USA.},\ K.J. Bathe\thanks {MIT, Boston, MA, USA.}\ and \ K. Bathe\affiliate {2} } {1}
\cmesvol {1} \ignore {1}
\cmesno {1} \ignore {1}
\cmesyear {2016} \ignore {1}
\cmesabs { This document summarizes the instructions to authors for typesetting their papers for publishing in Computer Modeling in Engineering and Sciences (CMES). All authors are requested to adhere to these instructions, in order to avoid delays in the typesetting phase, once the paper is accepted for publication. This short document can be viewed as a sample paper; and will assist the authors in manuscript-preparation. } {1}
\cmeskey {Manuscript, preparation, typeset, format, CMES.} {1}
\prevpage  {6}

closed as off-topic by Stefan Kottwitz Feb 6 '17 at 0:01

  • This question does not fall within the scope of TeX, LaTeX or related typesetting systems as defined in the help center.
If this question can be reworded to fit the rules in the help center, please edit the question.

  • 2
    Out-of-topic: what is to find in the template: "Manuscripts must be submitted in a medium, which is accessible under Microsoft Windows, such as 3.5" floppy diskettes in PC format"... – ebosi Feb 4 '17 at 9:28
  • It seems actually not restricted: Adding \usepackage{lipsum} in the preamble, and \lipsum[1-210] just before \lastpage at the end of the document generate a 36 pages-long document... – ebosi Feb 4 '17 at 9:33
  • Unable means - I am not able to write beyond 24 pages. It seems Journal template restricted to 24 pages. It is written in cmes.cls file as foloows %1. ensure the paper ends in even page number. % 2. save the page number in .tit for as the starting point for the % next paper. (.tit will be included at the begin of the next paper) % \usepackage{ifthen} \def\lastpage{% \label{lastpg}% \ifthenelse{\isodd{\value{page}}}{\clearpage\thispagestyle{empty}\ }{}% \titleauthor{\string\prevpage}{}% } \def\prevpage#1{\setcounter{page}{#1}} – Prakash Feb 4 '17 at 9:39
  • @DavidCarlisle : Unable means - I am not able to write beyond 24 pages. It seems Journal template restricted to 24 pages. I get error message as "Underfull \vbox (badness 10000) has occurred while \output is active ! No room for a new \dimen . \ch@ck ...\else \errmessage {No room for a new #3}" – Prakash Feb 4 '17 at 9:49
  • 3
    that error is highly unlikley to be related to the number of pages. You will have an error in your source that happens to be somewhere around page 24, but if you do not show any input no one will be able to tell you what is wrong. – David Carlisle Feb 4 '17 at 9:51