Surface modified and gradation-mixed Al2O3 as an effective filler for the polyphenylene oxide (PPO) insulative layer in copper clad laminates
Although filling ceramic powders into the insulative polymer layer has long been realized as an effective strategy to elevate the heat dissipation capability and service life of copper clad laminates (CCLs), the weak interfacial bonding between inorganic filler and organic matrix and the discontinuo...
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| Published in: | Journal of materials science. Materials in electronics Vol. 31; no. 23; pp. 21602 - 21616 |
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| Main Authors: | , , , , |
| Format: | Journal Article |
| Language: | English |
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01-12-2020
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| Abstract | Although filling ceramic powders into the insulative polymer layer has long been realized as an effective strategy to elevate the heat dissipation capability and service life of copper clad laminates (CCLs), the weak interfacial bonding between inorganic filler and organic matrix and the discontinuous thermal conductive network have hindered such beneficial effects. Herein, the silane coupling agent (KH-560) modified and gradation mixed Al
2
O
3
served as an effective filler for CCLs. After optimization of the filling scheme through tremendous efforts, the maximum thermal conductivity of corresponding CCLs with surface modified and gradation-filled Al
2
O
3
achieved to 0.646 W/m·K, apparently higher than that of pure resin CCLs (0.291 W/m·K) and single-size Al
2
O
3
filled CCLs (Al
2
O
3
-20 μm-50%, 0.573 W/m·K). Simultaneously, the peel strength and bending strength of the CCLs with the surface modified and graded-mixed Al
2
O
3
kept at a satisfactory level (0.903 N/mm and 306 MPa, respectively), surpassing those of CCLs with pristine Al
2
O
3
fillers. In addition, the dielectric loss reduced to 4.67 × 10
–3
and the water absorption was as low as 0.364%. Such a comprehensive performance could be ascribed to the improved interfacial bonding brought by KH-560 and a more contiguous heat conduction network formed by the gradation-filled Al
2
O
3
. This study offers a new strategy promising for high speed and high frequency applications of CCLs with so many alternative ceramic fillers. |
|---|---|
| AbstractList | Although filling ceramic powders into the insulative polymer layer has long been realized as an effective strategy to elevate the heat dissipation capability and service life of copper clad laminates (CCLs), the weak interfacial bonding between inorganic filler and organic matrix and the discontinuous thermal conductive network have hindered such beneficial effects. Herein, the silane coupling agent (KH-560) modified and gradation mixed Al
2
O
3
served as an effective filler for CCLs. After optimization of the filling scheme through tremendous efforts, the maximum thermal conductivity of corresponding CCLs with surface modified and gradation-filled Al
2
O
3
achieved to 0.646 W/m·K, apparently higher than that of pure resin CCLs (0.291 W/m·K) and single-size Al
2
O
3
filled CCLs (Al
2
O
3
-20 μm-50%, 0.573 W/m·K). Simultaneously, the peel strength and bending strength of the CCLs with the surface modified and graded-mixed Al
2
O
3
kept at a satisfactory level (0.903 N/mm and 306 MPa, respectively), surpassing those of CCLs with pristine Al
2
O
3
fillers. In addition, the dielectric loss reduced to 4.67 × 10
–3
and the water absorption was as low as 0.364%. Such a comprehensive performance could be ascribed to the improved interfacial bonding brought by KH-560 and a more contiguous heat conduction network formed by the gradation-filled Al
2
O
3
. This study offers a new strategy promising for high speed and high frequency applications of CCLs with so many alternative ceramic fillers. Although filling ceramic powders into the insulative polymer layer has long been realized as an effective strategy to elevate the heat dissipation capability and service life of copper clad laminates (CCLs), the weak interfacial bonding between inorganic filler and organic matrix and the discontinuous thermal conductive network have hindered such beneficial effects. Herein, the silane coupling agent (KH-560) modified and gradation mixed Al2O3 served as an effective filler for CCLs. After optimization of the filling scheme through tremendous efforts, the maximum thermal conductivity of corresponding CCLs with surface modified and gradation-filled Al2O3 achieved to 0.646 W/m·K, apparently higher than that of pure resin CCLs (0.291 W/m·K) and single-size Al2O3 filled CCLs (Al2O3-20 μm-50%, 0.573 W/m·K). Simultaneously, the peel strength and bending strength of the CCLs with the surface modified and graded-mixed Al2O3 kept at a satisfactory level (0.903 N/mm and 306 MPa, respectively), surpassing those of CCLs with pristine Al2O3 fillers. In addition, the dielectric loss reduced to 4.67 × 10–3 and the water absorption was as low as 0.364%. Such a comprehensive performance could be ascribed to the improved interfacial bonding brought by KH-560 and a more contiguous heat conduction network formed by the gradation-filled Al2O3. This study offers a new strategy promising for high speed and high frequency applications of CCLs with so many alternative ceramic fillers. |
| Author | Lu, Chen Bu, Fan Zhang, Weiwei Zhang, Jianfeng Ge, Mengni |
| Author_xml | – sequence: 1 givenname: Weiwei surname: Zhang fullname: Zhang, Weiwei organization: Collage of Mechanics and Materials, Hohai University – sequence: 2 givenname: Chen surname: Lu fullname: Lu, Chen organization: Collage of Mechanics and Materials, Hohai University – sequence: 3 givenname: Mengni surname: Ge fullname: Ge, Mengni organization: Collage of Mechanics and Materials, Hohai University – sequence: 4 givenname: Fan surname: Bu fullname: Bu, Fan organization: Collage of Mechanics and Materials, Hohai University – sequence: 5 givenname: Jianfeng orcidid: 0000-0003-1686-9010 surname: Zhang fullname: Zhang, Jianfeng email: jfzhang@hhu.edu.cn, jfzhang_sic@163.com organization: Collage of Mechanics and Materials, Hohai University |
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| CitedBy_id | crossref_primary_10_3390_pr10081466 crossref_primary_10_1177_09540083231164342 crossref_primary_10_15541_jim20200639 crossref_primary_10_1016_j_jclepro_2023_139184 crossref_primary_10_1021_acsanm_3c05711 crossref_primary_10_1039_D2TA02900F crossref_primary_10_1002_app_52858 crossref_primary_10_1007_s10854_022_08243_4 crossref_primary_10_1016_j_mtcomm_2024_109116 crossref_primary_10_1007_s00289_023_04939_7 crossref_primary_10_1016_j_ceramint_2024_03_081 crossref_primary_10_1016_j_jnoncrysol_2021_121272 crossref_primary_10_1088_1361_6463_acb068 crossref_primary_10_1016_j_apsusc_2022_154335 crossref_primary_10_3390_ma17051086 |
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| Snippet | Although filling ceramic powders into the insulative polymer layer has long been realized as an effective strategy to elevate the heat dissipation capability... |
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| SubjectTerms | Aluminum oxide Bend strength Bonding strength Ceramic powders Characterization and Evaluation of Materials Chemistry and Materials Science Conduction heating Conductive heat transfer Copper Coupling agents Dielectric loss Fillers Interfacial bonding Laminates Materials Science Optical and Electronic Materials Optimization Peel strength Polyphenylene oxides Service life Thermal conductivity Water absorption |
| Title | Surface modified and gradation-mixed Al2O3 as an effective filler for the polyphenylene oxide (PPO) insulative layer in copper clad laminates |
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