Effect of Ni-coated carbon nanotubes on interfacial intermetallic layer growth

机译：镀镍碳纳米管对界面金属间层生长的影响

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In the present study, Ni-coated carbon nanotubes (Ni-CNTs) were incorporated into the Sn-Ag-Cu matrix, to form a composite solder. The interfacial intermetallic compound layer thickness formed on electroless nickel immersion gold (ENIG) metallized Cu substrate was determined under the as-soldered condition. It was observed that the addition of 0.01 wt.% Ni-CNTs into the Sn-Ag-Cu solder matrix, affected the formation of intermetallic compounds during the soldering reaction. For the reaction between the composite solder and the ENIG/Cu substrate, (Cu_1-xNi_x)₆Sn₅ and (Cu_1-yNi_y)₃Sn₄ were formed. The test results revealed that the thickness of interfacial IMC decreased from 2.30 ÃÂ¿m to 1.84 ÃÂ¿m with the addition of Ni-CNTs. Shear tests were also conducted on the as-soldered solder joints. The shear test results revealed that the composite solder joint exhibited a ~15% increase in yield strength and a ~17% increase in ultimate shear strength, as compared to its monolithic counterpart.

机译：在本研究中，将镀镍的碳纳米管（Ni-CNT）掺入Sn-Ag-Cu基体中，以形成复合焊料。在焊接条件下确定在化学镀镍沉金（ENIG）金属化Cu衬底上形成的界面金属间化合物层的厚度。观察到在Sn-Ag-Cu焊料基体中添加0.01重量％的Ni-CNT会影响焊接反应期间金属间化合物的形成。对于复合焊料与ENIG / Cu基板之间的反应，（Cu _{1-x Ni _{x ）_{6 Sn _{5 <形成了/ sub>和（Cu _{1-y Ni _{y ）_{3 Sn _{4 。测试结果显示，添加Ni-CNTs后，界面IMC的厚度从2.30微米减少到1.84微米。还对焊接后的焊点进行了剪切测试。剪切测试结果表明，与整体式焊接相比，复合焊点的屈服强度提高了约15％，极限剪切强度提高了约17％。}}}}}}}}

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《Electronics Packaging Technology Conference, 2009. EPTC '09》|2009年|p.292-295|共4页
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Han Y.D.; Jing H.Y.; Nai S.M.L.; Xu L.Y.; Tan C.M.; Wei J.;
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4. Effect of Ni-coated carbon nanotubes on interfacial intermetallic layer growth [C] . Han Y.D., Jing H.Y., Nai S.M.L., Electronics Packaging Technology Conference, 2009. EPTC '09 . 2009

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5. Growth of carbon nanotubes on metallic substrates and study of their interfacial transport properties. [D] . Pal, Sunil K. 2007

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Effect of Ni-coated carbon nanotubes on interfacial intermetallic layer growth

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