Lead free Sn-Ag-Cu solders reinforced by Ni-coated graphene nanosheets prepared by mechanical alloying: Microstructural evolution and mechanical durability
As one of the key technologies for high performance electronic devices, composite solders have been developed to improve the thermal and mechanical properties of soldered joints. In this research, mechanical alloying was employed to fabricate the lead-free tin-based nanocomposite solders. The nanoco...
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| Veröffentlicht in: | Materials science & engineering. A, Structural materials : properties, microstructure and processing Structural materials : properties, microstructure and processing, 2017-08, Vol.702, p.371-385 |
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| creator | Khodabakhshi, F. Sayyadi, R. Javid, N. Shahamat |
| description | As one of the key technologies for high performance electronic devices, composite solders have been developed to improve the thermal and mechanical properties of soldered joints. In this research, mechanical alloying was employed to fabricate the lead-free tin-based nanocomposite solders. The nanocomposite composed of a Sn-Ag-Cu ternary eutectic alloy reinforced by graphene nano-sheets (GNSs). Since the tin alloy melt do not wet the surfaces of GNSs, interface bonding between the metal matrix and these inclusions was promoted with decorating of the nano-sheets by a thin layer of chemically-deposited nickel. It was shown that nickel coating significantly improves the distribution of GNSs throughout the SAC matrix prepared by the severe plastic deformation route. Additionally, brittle and elongated intermetallic compounds were significantly refined to distribute the particles with an average diameter of a few hundred nanometers. Microstructural studies also revealed a recrystallized fine-grained and eutectic morphology for the SAC alloy matrix before and after soldering, respectively. The role of Ni-coated GNSs on retarding the growth of intermetallic phases upon soldering process is presented. We have employed a solid-state post ageing process to enhance the mechanical properties of the developed soldered joints by precipitation hardening mechanism assisted by nano-sheets, as well. Enhanced strength and ductility of the copper soldered joints prepared by the nanocomposite solder is shown. A maximum enhancement of ~ 65% in the tensile-shear strength is reported, while the ductility preserved up to ~ 63%, as well. |
| doi_str_mv | 10.1016/j.msea.2017.07.024 |
| format | Article |
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Shahamat</creator><creatorcontrib>Khodabakhshi, F. ; Sayyadi, R. ; Javid, N. Shahamat</creatorcontrib><description>As one of the key technologies for high performance electronic devices, composite solders have been developed to improve the thermal and mechanical properties of soldered joints. In this research, mechanical alloying was employed to fabricate the lead-free tin-based nanocomposite solders. The nanocomposite composed of a Sn-Ag-Cu ternary eutectic alloy reinforced by graphene nano-sheets (GNSs). Since the tin alloy melt do not wet the surfaces of GNSs, interface bonding between the metal matrix and these inclusions was promoted with decorating of the nano-sheets by a thin layer of chemically-deposited nickel. It was shown that nickel coating significantly improves the distribution of GNSs throughout the SAC matrix prepared by the severe plastic deformation route. Additionally, brittle and elongated intermetallic compounds were significantly refined to distribute the particles with an average diameter of a few hundred nanometers. Microstructural studies also revealed a recrystallized fine-grained and eutectic morphology for the SAC alloy matrix before and after soldering, respectively. The role of Ni-coated GNSs on retarding the growth of intermetallic phases upon soldering process is presented. We have employed a solid-state post ageing process to enhance the mechanical properties of the developed soldered joints by precipitation hardening mechanism assisted by nano-sheets, as well. Enhanced strength and ductility of the copper soldered joints prepared by the nanocomposite solder is shown. A maximum enhancement of ~ 65% in the tensile-shear strength is reported, while the ductility preserved up to ~ 63%, as well.</description><identifier>ISSN: 0921-5093</identifier><identifier>EISSN: 1873-4936</identifier><identifier>DOI: 10.1016/j.msea.2017.07.024</identifier><language>eng</language><publisher>Lausanne: Elsevier B.V</publisher><subject>Alloys ; Chemical bonds ; Copper base alloys ; Deformation mechanisms ; Ductility ; Electronic devices ; Elongation ; Eutectic Sn-Ag-Cu alloy ; Global navigation satellite system ; Graphene ; Graphene nano-sheets ; Intermetallic compounds ; Intermetallic phases ; Lead free ; Lead-free solder ; Mechanical alloying ; Mechanical properties ; Nanocomposite ; Nanosheets ; Ni-coating ; Nickel coatings ; Plastic deformation ; Precipitation hardening ; Recrystallization ; Shear strength ; Sheets ; Silver base alloys ; Soldered joints ; Soldering ; Solders ; Tin base alloys</subject><ispartof>Materials science & engineering. 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Shahamat</creatorcontrib><title>Lead free Sn-Ag-Cu solders reinforced by Ni-coated graphene nanosheets prepared by mechanical alloying: Microstructural evolution and mechanical durability</title><title>Materials science & engineering. A, Structural materials : properties, microstructure and processing</title><description>As one of the key technologies for high performance electronic devices, composite solders have been developed to improve the thermal and mechanical properties of soldered joints. In this research, mechanical alloying was employed to fabricate the lead-free tin-based nanocomposite solders. The nanocomposite composed of a Sn-Ag-Cu ternary eutectic alloy reinforced by graphene nano-sheets (GNSs). Since the tin alloy melt do not wet the surfaces of GNSs, interface bonding between the metal matrix and these inclusions was promoted with decorating of the nano-sheets by a thin layer of chemically-deposited nickel. It was shown that nickel coating significantly improves the distribution of GNSs throughout the SAC matrix prepared by the severe plastic deformation route. Additionally, brittle and elongated intermetallic compounds were significantly refined to distribute the particles with an average diameter of a few hundred nanometers. Microstructural studies also revealed a recrystallized fine-grained and eutectic morphology for the SAC alloy matrix before and after soldering, respectively. The role of Ni-coated GNSs on retarding the growth of intermetallic phases upon soldering process is presented. We have employed a solid-state post ageing process to enhance the mechanical properties of the developed soldered joints by precipitation hardening mechanism assisted by nano-sheets, as well. Enhanced strength and ductility of the copper soldered joints prepared by the nanocomposite solder is shown. A maximum enhancement of ~ 65% in the tensile-shear strength is reported, while the ductility preserved up to ~ 63%, as well.</description><subject>Alloys</subject><subject>Chemical bonds</subject><subject>Copper base alloys</subject><subject>Deformation mechanisms</subject><subject>Ductility</subject><subject>Electronic devices</subject><subject>Elongation</subject><subject>Eutectic Sn-Ag-Cu alloy</subject><subject>Global navigation satellite system</subject><subject>Graphene</subject><subject>Graphene nano-sheets</subject><subject>Intermetallic compounds</subject><subject>Intermetallic phases</subject><subject>Lead free</subject><subject>Lead-free solder</subject><subject>Mechanical alloying</subject><subject>Mechanical properties</subject><subject>Nanocomposite</subject><subject>Nanosheets</subject><subject>Ni-coating</subject><subject>Nickel coatings</subject><subject>Plastic deformation</subject><subject>Precipitation hardening</subject><subject>Recrystallization</subject><subject>Shear strength</subject><subject>Sheets</subject><subject>Silver base alloys</subject><subject>Soldered joints</subject><subject>Soldering</subject><subject>Solders</subject><subject>Tin base alloys</subject><issn>0921-5093</issn><issn>1873-4936</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2017</creationdate><recordtype>article</recordtype><recordid>eNp9UU1rGzEQFaWBukn_QE-CnteRVlrtquQSTJMU3OaQ5ixkaWTLrKWNpA34t_TPRsY59FQYGIb33nw9hL5SsqSEiuv98pBBL1tC-yWp0fIPaEGHnjVcMvERLYhsadMRyT6hzznvCSGUk26B_q5BW-wSAH4Kze22Wc04x9FCyjiBDy4mAxZvjvi3b0zUpRbbpKcdBMBBh5h3ACXjKcGk05l5ALPTwRs9Yj2O8ejD9jv-5U2KuaTZlDlVBF7jOBcfA9bB_iuxFd740ZfjFbpweszw5T1foue7H39WD8368f7n6nbdGCZ5aWAQjhkKfVfv653t2kFyKqUTQnNHqAOuN05w2Rvam05IbTtHjehEawcmGLtE3859pxRfZshF7eOcQh2pqBREDqxnXWW1Z9bpjpzAqSn5g05HRYk6maD26mSCOpmgSI2WV9HNWQR1_1cPSWXjIdSX-gSmKBv9_-Rvf4aTCQ</recordid><startdate>20170815</startdate><enddate>20170815</enddate><creator>Khodabakhshi, F.</creator><creator>Sayyadi, R.</creator><creator>Javid, N. 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A, Structural materials : properties, microstructure and processing</jtitle><date>2017-08-15</date><risdate>2017</risdate><volume>702</volume><spage>371</spage><epage>385</epage><pages>371-385</pages><issn>0921-5093</issn><eissn>1873-4936</eissn><abstract>As one of the key technologies for high performance electronic devices, composite solders have been developed to improve the thermal and mechanical properties of soldered joints. In this research, mechanical alloying was employed to fabricate the lead-free tin-based nanocomposite solders. The nanocomposite composed of a Sn-Ag-Cu ternary eutectic alloy reinforced by graphene nano-sheets (GNSs). Since the tin alloy melt do not wet the surfaces of GNSs, interface bonding between the metal matrix and these inclusions was promoted with decorating of the nano-sheets by a thin layer of chemically-deposited nickel. It was shown that nickel coating significantly improves the distribution of GNSs throughout the SAC matrix prepared by the severe plastic deformation route. Additionally, brittle and elongated intermetallic compounds were significantly refined to distribute the particles with an average diameter of a few hundred nanometers. Microstructural studies also revealed a recrystallized fine-grained and eutectic morphology for the SAC alloy matrix before and after soldering, respectively. The role of Ni-coated GNSs on retarding the growth of intermetallic phases upon soldering process is presented. We have employed a solid-state post ageing process to enhance the mechanical properties of the developed soldered joints by precipitation hardening mechanism assisted by nano-sheets, as well. Enhanced strength and ductility of the copper soldered joints prepared by the nanocomposite solder is shown. A maximum enhancement of ~ 65% in the tensile-shear strength is reported, while the ductility preserved up to ~ 63%, as well.</abstract><cop>Lausanne</cop><pub>Elsevier B.V</pub><doi>10.1016/j.msea.2017.07.024</doi><tpages>15</tpages></addata></record> |
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| subjects | Alloys Chemical bonds Copper base alloys Deformation mechanisms Ductility Electronic devices Elongation Eutectic Sn-Ag-Cu alloy Global navigation satellite system Graphene Graphene nano-sheets Intermetallic compounds Intermetallic phases Lead free Lead-free solder Mechanical alloying Mechanical properties Nanocomposite Nanosheets Ni-coating Nickel coatings Plastic deformation Precipitation hardening Recrystallization Shear strength Sheets Silver base alloys Soldered joints Soldering Solders Tin base alloys |
| title | Lead free Sn-Ag-Cu solders reinforced by Ni-coated graphene nanosheets prepared by mechanical alloying: Microstructural evolution and mechanical durability |
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