gdutthesis

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% gdutthesis: 广东工业大学论文模板
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\documentclass[
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]{gdutthesis}

% 宏包在这里加载
\usepackage{siunitx}[=v2]
\usepackage{zhlipsum,lipsum}

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  info = {
    title           = {模板射流电解加工微沟槽关键技术研究},
    title*          = {Investigation on masked jet electrochemical machining of micro grooves},
    date            = {2020/5/25},
    author          = {张三},
    author*         = {Zhang San},
    supervisor      = {李四\qquad 教授},
    supervisor*     = {Prof. Li Si},
    supervisor-two  = {王五\qquad 教授},
    supervisor-two* = {Prof. Wang Wu},
    department      = {自动化学院},
    department*     = {Automation},
    major           = {电子信息},
    student-id      = {2112101234},
    chairman        = {赵六\qquad 教授},
    degree          = {工程硕士},
    degree*         = {Master of Engineering},
    keywords        = {电解加工, 微沟槽, 模板, 射流},
    keywords*       = {electrochemical machining, micro grooves, mask, jet},
    secret-level    = {none},
  }
}


\begin{document}

\begin{abstract}
  \zhlipsum[1-4]
\end{abstract}

\begin{abstract*}
  \lipsum[1-4]
\end{abstract*}

\begin{notation}
  \toprule
  符号  & 含义 \\
  \midrule
  $E$   & 能量 \\
  $F$   & 推力 \\
  \bottomrule
\end{notation}

\gduttableofcontents

\mainmatter

\gdutchapter{绪论}{Introduction}

\gdutsection{本课题研究背景及研究意义}{Background and significance of research}
随着科学技术的进步，产品逐渐向精密化和高性能化发展，具有毫米及微米尺度
微沟槽结构的金属零部件在国防军事、航空航天、新能源、新材料、生物医学、半导
体器件等领域的高技术产品中扮演的角色愈加重要。

\gdutsection{微沟槽电解加工国内外相关研究现状}{Analysis of the research status at home and abroad}
\gdutsubsection{成型电极电解加工}{Shaped cathode electrochemical machining}
采用与微沟槽结构形状对应的成型阴极，例如薄板阴极，片状阴极等，进行微沟
槽电解加工，其特点是方便一次成型微沟槽形状。南京航空航天大学吕焱明等进行了
大长宽比深窄槽电解加工阴极设计以及工艺试验研究\cite{chendengyuan2000guoshi}，如\autoref{fig:example} 所示，具体参考\autoref{sub-fig-1} 和\autoref{sub-fig-2}，再参考\autoref{eq:example}，再再参考\autoref{tab:example}。
\begin{equation}\label{eq:example}
  E = mc^2
\end{equation}

\begin{figure}[htbp]
  \subfloat[贴有模板的金属喷嘴示意图]{\label{sub-fig-1}
    \includegraphics[width=0.4\textwidth]{example-image.pdf}
  }
  \qquad
  \subfloat[由点到线扫描加工原理图]{\label{sub-fig-2}
    \includegraphics[width=0.4\textwidth]{example-image.pdf}
  }
  \bicaption{模板射流电解加工微沟槽原理图}{Principle of masked jet electrochemical machining of micro grooves}
  \label{fig:example}
\end{figure}

\begin{table}
  \bicaption{DMC5400A 运动控制卡主要技术指标}{DMC5400A main specifications}
  \label{tab:example}
  \begin{tabular}{cc}
    \toprule
    控制卡技术指标              & 具体参数                      \\
    \midrule
    控制电机的脉冲信号频率范围  & $\SI{1}{Hz}\sim\SI{2}{MHz}$ \\
    控制电机的脉冲信号频率精度  & \SI{0.0625}{Hz}              \\
    脉冲信号输出最大电流        & \SI{20}{mA}                  \\
    脉冲信号长度                & 28 位有符号                   \\
    直线插补精度                & $\pm \SI{0.8}{pulse}$        \\
    圆弧插补精度                & $\pm \SI{1.5}{pulse}$        \\
    支持的插补坐标系个数        & 2                             \\
    \bottomrule
  \end{tabular}
\end{table}


\subsubsection{微沟槽电解加工国内外相关研究现状}
测试 test。
\paragraph{测试 test。}
测试 test。
\subparagraph{测试 test。}
测试 test\cite{woerdelun2012jingji}。

\gdutbackmatter
\gdutchapter{结论与展望}{Conclusion and prospect}
\gdutbacksection{研究结论}
\zhlipsum[1]

\gdutbacksection{未来研究展望}
\zhlipsum[1]

\nocite{*}% 列出全部参考文献
\printbibliography

\gdutchapter{攻读学位期间取得与学位论文相关的成果}{Publication and patents during study}

\gdutbacksection{发表和投稿与学位论文相关学术论文}

\begin{results}
  \item \textbf{张三}, 李四, 等. Jet electrochemical machining of micro dimples with conductive mask.
  Journal of Materials Processing Technology. 2018, 257:101-111. (SCI Impact Factor 3.647,
  WOS:000431161400010)
  \item 李四, \textbf{张三}, 王五, 等. Electrochemical direct-writing machining of micro- channel array.
  Journal of Materials Processing Technology. 2019, 265:138-149. (SCI Impact Factor 3.647,
  WOS:000451935100014)
\end{results}

\gdutbacksection{申请发明专利}

\begin{results}
  \item 李四, \textbf{张三}, 王五. 一种微流道电解加工装置. 发明专利申请号: 201810467763.5.
\end{results}

\gdutstatement

\gdutchapter{致谢}{Acknowlegements}
\zhlipsum[1]

\gdutappendix

\gdutchapter{附录标题}{The appendix title}
对需要收录于学位论文中且又不适合书写于正文中的附加数据、资料、详细
公式推导、计算机程序等有特色的内容，可做为附录排写。
\end{document}