Studies on electro-chemical corrosion of carbon fiber reinforced aluminium alloy AA7075

Carbon fiber reinforced AA7075 is known for good thermal properties and thus used as heat dissipating material. However, few such applications involve corrosive environments too, and hence there is a need to study the behavior of these composite materials under corrosive environment. In the present...

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Veröffentlicht in:	Sadhana (Bangalore) 2019-11, Vol.44 (11), p.1-10, Article 229
Hauptverfasser:	Deshpande, Madhuri, Vagge, S T, Narayan Murty, S V S, Kale, Harishwar, Gondil, Ramesh
Format:	Artikel
Sprache:	eng
Schlagworte:	Aluminum base alloys Carbon fiber reinforcement Carbon fibers Composite materials Corrosion currents Corrosion environments Corrosion rate Corrosion resistance Corrosion resistant alloys Corrosion tests Electrolytic cells Engineering Fiber composites Hot pressing Organic chemistry Photomicrographs Thermodynamic properties
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creator	Deshpande, Madhuri Vagge, S T Narayan Murty, S V S Kale, Harishwar Gondil, Ramesh
description	Carbon fiber reinforced AA7075 is known for good thermal properties and thus used as heat dissipating material. However, few such applications involve corrosive environments too, and hence there is a need to study the behavior of these composite materials under corrosive environment. In the present work, milled carbon fiber reinforced AA7075 composites were produced by vacuum hot pressing with varying amounts of milled carbon fibers. The relative densities of the composites were measured. SEM-EDS, TEM and XRD techniques were also employed for characterization. The composites were then characterized for electro-chemical behavior in 3.5 wt.% aqueous NaCl solution by electrochemical polarization technique. Results showed that the corrosion potentials E corr have shifted to more negative direction and thus showed increase in corrosion current density, leading to increase in corrosion rate with increasing vol.% of carbon fibers. These results were complemented by SEM micrographs of the composites after corrosion test, which revealed that corrosion occurred at the interface of carbon fiber and matrix due to formation of galvanic coupling between carbon fiber and matrix. Thus, reduced corrosion resistance in composites as amount of fibers increases, is attributed to increase in number of galvanic cells that form at the interface.
doi_str_mv	10.1007/s12046-019-1213-y
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However, few such applications involve corrosive environments too, and hence there is a need to study the behavior of these composite materials under corrosive environment. In the present work, milled carbon fiber reinforced AA7075 composites were produced by vacuum hot pressing with varying amounts of milled carbon fibers. The relative densities of the composites were measured. SEM-EDS, TEM and XRD techniques were also employed for characterization. The composites were then characterized for electro-chemical behavior in 3.5 wt.% aqueous NaCl solution by electrochemical polarization technique. Results showed that the corrosion potentials E corr have shifted to more negative direction and thus showed increase in corrosion current density, leading to increase in corrosion rate with increasing vol.% of carbon fibers. These results were complemented by SEM micrographs of the composites after corrosion test, which revealed that corrosion occurred at the interface of carbon fiber and matrix due to formation of galvanic coupling between carbon fiber and matrix. 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These results were complemented by SEM micrographs of the composites after corrosion test, which revealed that corrosion occurred at the interface of carbon fiber and matrix due to formation of galvanic coupling between carbon fiber and matrix. 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However, few such applications involve corrosive environments too, and hence there is a need to study the behavior of these composite materials under corrosive environment. In the present work, milled carbon fiber reinforced AA7075 composites were produced by vacuum hot pressing with varying amounts of milled carbon fibers. The relative densities of the composites were measured. SEM-EDS, TEM and XRD techniques were also employed for characterization. The composites were then characterized for electro-chemical behavior in 3.5 wt.% aqueous NaCl solution by electrochemical polarization technique. Results showed that the corrosion potentials E corr have shifted to more negative direction and thus showed increase in corrosion current density, leading to increase in corrosion rate with increasing vol.% of carbon fibers. These results were complemented by SEM micrographs of the composites after corrosion test, which revealed that corrosion occurred at the interface of carbon fiber and matrix due to formation of galvanic coupling between carbon fiber and matrix. Thus, reduced corrosion resistance in composites as amount of fibers increases, is attributed to increase in number of galvanic cells that form at the interface.</abstract><cop>New Delhi</cop><pub>Springer India</pub><doi>10.1007/s12046-019-1213-y</doi><tpages>10</tpages><oa>free_for_read</oa></addata></record>
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subjects	Aluminum base alloys Carbon fiber reinforcement Carbon fibers Composite materials Corrosion currents Corrosion environments Corrosion rate Corrosion resistance Corrosion resistant alloys Corrosion tests Electrolytic cells Engineering Fiber composites Hot pressing Organic chemistry Photomicrographs Thermodynamic properties
title	Studies on electro-chemical corrosion of carbon fiber reinforced aluminium alloy AA7075
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