Influence of antimony ions and PbSO sub 4 content in the corrosion layer on the properties of the grid/active mass interface in positive lead-acid battery plates
Antimony in lead/antimony alloys is known to have a beneficial influence on the capacity and cycle life of lead-acid battery positive plates. The present work shows that Sb sub 3 O sub 9 exp 3- ions formed on oxidation of PbSb alloys improve the capacity of the Pb/PbO sub 2 electrode, while SbOSO su...
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| Veröffentlicht in: | Journal of applied electrochemistry 1997-06, Vol.27 (6), p.720-730 |
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| container_title | Journal of applied electrochemistry |
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| creator | Pavlov, D Dakhouche, A Rogachev, T |
| description | Antimony in lead/antimony alloys is known to have a beneficial influence on the capacity and cycle life of lead-acid battery positive plates. The present work shows that Sb sub 3 O sub 9 exp 3- ions formed on oxidation of PbSb alloys improve the capacity of the Pb/PbO sub 2 electrode, while SbOSO sub 4 exp - ions have an adverse effect and passivate this electrode. A mechanism of the influence of these ions is proposed based on the gel-crystal concept for the structure of PbO sub 2 . The paper also discusses the effect of PbSO sub 4 formed at the grid/PAM interface on the capacity. It has been established that the major part of the PbSO sub 4 crystals are oxidized to PbO sub 2 within a few cycles. There still remain a certain number of PbSO sub 4 crystals which border narrow pores and are oxidized at a very slow rate, thus preserving their influence even after ten discharge-charge cycles. It has also been found that the higher the density of PAM the stronger the adverse effect of PbSO sub 4 in the grid/PAM interface on the capacity. All these phenomena are related to the PCL effect and methods to suppress them are proposed. |
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The present work shows that Sb sub 3 O sub 9 exp 3- ions formed on oxidation of PbSb alloys improve the capacity of the Pb/PbO sub 2 electrode, while SbOSO sub 4 exp - ions have an adverse effect and passivate this electrode. A mechanism of the influence of these ions is proposed based on the gel-crystal concept for the structure of PbO sub 2 . The paper also discusses the effect of PbSO sub 4 formed at the grid/PAM interface on the capacity. It has been established that the major part of the PbSO sub 4 crystals are oxidized to PbO sub 2 within a few cycles. There still remain a certain number of PbSO sub 4 crystals which border narrow pores and are oxidized at a very slow rate, thus preserving their influence even after ten discharge-charge cycles. It has also been found that the higher the density of PAM the stronger the adverse effect of PbSO sub 4 in the grid/PAM interface on the capacity. All these phenomena are related to the PCL effect and methods to suppress them are proposed.</description><identifier>ISSN: 0021-891X</identifier><language>eng</language><ispartof>Journal of applied electrochemistry, 1997-06, Vol.27 (6), p.720-730</ispartof><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784</link.rule.ids></links><search><creatorcontrib>Pavlov, D</creatorcontrib><creatorcontrib>Dakhouche, A</creatorcontrib><creatorcontrib>Rogachev, T</creatorcontrib><title>Influence of antimony ions and PbSO sub 4 content in the corrosion layer on the properties of the grid/active mass interface in positive lead-acid battery plates</title><title>Journal of applied electrochemistry</title><description>Antimony in lead/antimony alloys is known to have a beneficial influence on the capacity and cycle life of lead-acid battery positive plates. The present work shows that Sb sub 3 O sub 9 exp 3- ions formed on oxidation of PbSb alloys improve the capacity of the Pb/PbO sub 2 electrode, while SbOSO sub 4 exp - ions have an adverse effect and passivate this electrode. A mechanism of the influence of these ions is proposed based on the gel-crystal concept for the structure of PbO sub 2 . The paper also discusses the effect of PbSO sub 4 formed at the grid/PAM interface on the capacity. It has been established that the major part of the PbSO sub 4 crystals are oxidized to PbO sub 2 within a few cycles. There still remain a certain number of PbSO sub 4 crystals which border narrow pores and are oxidized at a very slow rate, thus preserving their influence even after ten discharge-charge cycles. It has also been found that the higher the density of PAM the stronger the adverse effect of PbSO sub 4 in the grid/PAM interface on the capacity. 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The present work shows that Sb sub 3 O sub 9 exp 3- ions formed on oxidation of PbSb alloys improve the capacity of the Pb/PbO sub 2 electrode, while SbOSO sub 4 exp - ions have an adverse effect and passivate this electrode. A mechanism of the influence of these ions is proposed based on the gel-crystal concept for the structure of PbO sub 2 . The paper also discusses the effect of PbSO sub 4 formed at the grid/PAM interface on the capacity. It has been established that the major part of the PbSO sub 4 crystals are oxidized to PbO sub 2 within a few cycles. There still remain a certain number of PbSO sub 4 crystals which border narrow pores and are oxidized at a very slow rate, thus preserving their influence even after ten discharge-charge cycles. It has also been found that the higher the density of PAM the stronger the adverse effect of PbSO sub 4 in the grid/PAM interface on the capacity. All these phenomena are related to the PCL effect and methods to suppress them are proposed.</abstract></addata></record> |
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| ispartof | Journal of applied electrochemistry, 1997-06, Vol.27 (6), p.720-730 |
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| title | Influence of antimony ions and PbSO sub 4 content in the corrosion layer on the properties of the grid/active mass interface in positive lead-acid battery plates |
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