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  <front>
    <journal-meta>
      <journal-id journal-id-type="publisher-id">28</journal-id>
      <journal-title-group>
        <journal-title>《现代化工技术》原《现代化工》</journal-title>
        <abbrev-journal-title>Modern Chemical Engineering Technology</abbrev-journal-title>
      </journal-title-group>
      <issn>ISSN：3104-770X(P)/3104-7718(O)；原ISSN：2661-3670(P)/2661-3689(O)</issn>
      <publisher>
        <publisher-name>华文国际出版社</publisher-name>
      </publisher>
    </journal-meta>
    <article-meta>
      <article-id pub-id-type="publisher-id">9677</article-id>
      <title-group>
        <article-title>Metallic phase change TIMs</article-title>
      </title-group>
      <contrib-group>
        <contrib contrib-type="author">
          <string-name>Mina Yaghmazadeh1</string-name>
        </contrib>
        <contrib contrib-type="author">
          <string-name>Youngjin Kim1</string-name>
        </contrib>
        <contrib contrib-type="author">
          <string-name>Yunliang Dong 1 （1.Ningbo SJ Electronics Ltd.</string-name>
        </contrib>
        <contrib contrib-type="author">
          <string-name>Ningbo</string-name>
        </contrib>
        <contrib contrib-type="author">
          <string-name>Zhejiang</string-name>
        </contrib>
        <contrib contrib-type="author">
          <string-name>China）</string-name>
        </contrib>
      </contrib-group>
      <pub-date pub-type="epub">
        <year>2024</year>
        <month>12</month>
      </pub-date>
      <issue>12</issue>
      <abstract>
        <p>This study introduces a new class of thermal interface materials （TIMs）known as metallic phase change TIMs，
which exhibit a solid-to-liquid phase transformation below 100°C.These materials remain solid at room temperature，
making them advantageous for the manufacturing and assembly of electronic chips.As operating temperatures of electronic
devices are typically maintained below 100°C，the metallic phase change TIMs transition to a paste-like state，effectively
filling micro-gaps induced by surface roughness and coefficient of thermal expansion mismatches between
components.This transition enhances thermal contact and promotes efficient heat dissipation during device operation.The
paper details the thermal properties，phase behavior，and effective thermal conductivity of this class of TIMs，demonstrating
their superior performance compared to conventional polymer-based TIMs</p>
      </abstract>
    </article-meta>
  </front>
</article>
