US2003200833A1PendingUtilityA1

Metal powder for electrolytic condenser, electrolytic condenser anode body using the metal powder, and an electrolytic condenser

Priority: Apr 21, 1999Filed: May 7, 2003Published: Oct 30, 2003
Est. expiryApr 21, 2019(expired)· nominal 20-yr term from priority
B22F 1/05H01G 9/0032H01G 9/0525
42
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Claims

Abstract

The present invention allows the obtaining of a condenser having high electrostatic capacitance by optimizing the anodic oxidation treatment voltage and particle size of the metal powder for the condenser during production of an electrolytic condenser anode body, and forming an anodic oxide film of a thickness that is suitable for the particle size of the metal powder. In the present invention, an electrolytic condenser anode body is produced by using the metal powder containing 50 wt % or more of particles, in which the primary particle diameter as determined by image analysis is within the range of 2.7×Vf to 10×Vf (units: nm), when the anodic oxidation treatment voltage during formation of an anodic oxide film on an anode sintered body composed of the metal powder is Vf (units: V).

Claims

exact text as granted — not AI-modified
What is claimed is:  
     
         1 . An metal powder used to produce an electrolytic condenser anode body 
 wherein, when an anodic oxidation treatment voltage when forming an anodic oxide film on an anode sintered body composed of said metal powder is Vf (units: V), particles in which a primary particle diameter as determined by image analysis is within the range of 2.7×Vf to 10×Vf (units: nm) are contained at 50 wt % or more.    
     
     
         2 . An electrolytic condenser anode body comprising: 
 pressure molding said metal powder according to  claim 1  with a lead member followed by sintering and forming an anodic oxide film on the resulting anode sintered body    
     
     
         3 . An electrolytic condenser equipped with the anode body according to  claim 2  as an anode.  
     
     
         4 . A production method of an electrolytic condenser anode body comprising steps of: 
 presetting an anodic oxidation treatment voltage to Vf (units: V), and pressure molding a metal powder for a electrolytic condenser containing 50 wt % or more of particles, in which a primary particle diameter as determined by image analysis is within the range of 2.7×Vf to 10×Vf (units: nm), with a lead member,    obtaining a anode sintered body by sintering a body obtained by the pressure molding,    and performing anodic oxidation treatment using the anodic oxidation treatment voltage Vf on said anode sintered body to form an anodic oxide film.    
     
     
         5 . A production method of an electrolytic condenser anode body according to  claim 4  wherein said anodic oxidation treatment voltage Vf is set within the range of 5 to 250 V.

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