Low voltage anodizing process and apparatus
First Claim
1. A low voltage anodizing process for anodic oxidation of metals in which are used:
- (i) an anodizing bath containing an electrolyte, an anode and a cathode; and
(ii) an AC fed DC power supply for supplying pulsating DC power to the anodizing bath;
said anodizing process comprising supplying pulsating D.C. power to the anodizing bath and cyclicly discharging inherent capacitance in the anodizing bath;
said cyclic discharge of said inherent capacitance being accomplished by providing successive power cycles wherein each such power cycle consists of a rise portion followed by a fall portion followed by an off-time portion; and
providing a shunt discharge path in an electical circuit across the anode and cathode and being external to the anodizing bath for discharging said inherent capacitance during the last part of such fall portion and all during such off-time portion of each power cycle, a significant fraction of the total anodizing current being shunted across said discharge path;
said fraction being large enough to completely discharge said inherent capacitance and to empty it of accumulated charges thereon prior to the rise portion of the next subsequent power cycle, there being no capacitor in said electrical circuit across the anode and cathode and external to the anodizing bath.
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Abstract
A low voltage anodizing process for anodic oxidation of metals in which are used: (i) an anodizing bath containing an electrolyte, an anode and a cathode; and (ii) and AC fed DC power supply for supplying pulsating DC power to the anodizing bath; the anodizing process comprising cyclicly discharging the inherent capacitance in the anodizing bath; such cyclic discharge of such inherent capacitance being accomplished by providing successive power cycles wherein each such power cycle consists of a rise portion followed by a fall portion followed by an off-time portion; and providing a shunt discharge path in electrical circuit across the anode and cathode and being external to the anodizing bath for discharging such inherent capacitance during the last part of such fall portion and all during such off-time portion of each power cycle, a significant fraction of the total anodizing current being shunted across such discharge path which is large enough to completely discharge such inherent capacitance and to empty it of accumulated charges thereon prior to the rise portion of the next subsequent power cycle, there being no capacitor in electrical circuit across the anode and cathode and external to the anodizing bath.
11 Citations
2 Claims
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1. A low voltage anodizing process for anodic oxidation of metals in which are used:
- (i) an anodizing bath containing an electrolyte, an anode and a cathode; and
(ii) an AC fed DC power supply for supplying pulsating DC power to the anodizing bath;
said anodizing process comprising supplying pulsating D.C. power to the anodizing bath and cyclicly discharging inherent capacitance in the anodizing bath;
said cyclic discharge of said inherent capacitance being accomplished by providing successive power cycles wherein each such power cycle consists of a rise portion followed by a fall portion followed by an off-time portion; and
providing a shunt discharge path in an electical circuit across the anode and cathode and being external to the anodizing bath for discharging said inherent capacitance during the last part of such fall portion and all during such off-time portion of each power cycle, a significant fraction of the total anodizing current being shunted across said discharge path;
said fraction being large enough to completely discharge said inherent capacitance and to empty it of accumulated charges thereon prior to the rise portion of the next subsequent power cycle, there being no capacitor in said electrical circuit across the anode and cathode and external to the anodizing bath.
- (i) an anodizing bath containing an electrolyte, an anode and a cathode; and
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2. Anodizing apparatus for low voltage anodic oxidation of metals in which are used:
- (i) an anodizing bath containing an electrolyte, an anode and a cathode; and
(ii) an AC fed DC power supply for supplying pulsating DC power to the anodizing bath;
said anodizing apparatus comprising means for cyclicly discharging inherent capacitance in the anodizing bath;
said DC power supply constructed to provide successive power cycles wherein each such power cycle consists of a rise portion followed by a fall portion followed by an off-time portion; and
said means for cyclicly discharging inherent capacitance being an electrical circuit across the anode and cathode and being external to the anodizing bath said means forming a discharge path for discharging said inherent capacitance during the last part of said fall portion and all during said off-time portion of each power cycle, a significant fraction of the total anodizing current being shunted across said discharge path;
said fraction being large enough to completely discharge said inherent capacitance and to empty it of accumulated charges thereon prior to the rise portion of the next subsequent power cycle, there being no capacitor in said electrical circuit across the anode and cathode and external to the anodizing bath.
- (i) an anodizing bath containing an electrolyte, an anode and a cathode; and
Specification
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- Resources
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Current AssigneeCharles Fenoglio, Fred C. Schaedel, Jeffrey Pernick, Peter Kljucaricek
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Original AssigneeCharles Fenoglio, Fred C. Schaedel, Jeffrey Pernick, Peter Kljucaricek
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InventorsKljucaricek, Peter, Fenoglio, Charles, Pernick, Jeffrey, Schaedel, Fred C.
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Primary Examiner(s)Niebling, John F.
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Assistant Examiner(s)GORGOS, KATHRYN L
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Application NumberUS06/943,510Time in Patent Office1,054 DaysField of Search204/56, 204/58, 204/228US Class Current205/108CPC Class CodesC25D 11/005 Apparatus specially adapted...C25D 11/024 Anodisation under pulsed or...C25D 11/04 of aluminium or alloys base...
