Magnetic float polishing of magnetic materials
First Claim
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1. A method for conducting the final finishing stage of magnetic float polishing on a magnetic workpiece in a magnetic float polishing apparatus of the type having a chamber to hold a magnetic fluid suspension, a non-magnetic float set in the suspension within the chamber above a chamber floor, the top surface of the float defining a polishing area, a polishing shaft, and magnet means located beneath the chamber for applying a magnetic field to the suspension, comprising:
- immersing the magnetic workpiece in the magnetic fluid suspension in the polishing area above the top surface of the float;
applying a magnetic field to the magnetic fluid suspension from beneath the chamber to create an upward magnetic buoyancy levitational force acting on the bottom of the float;
regulating the upward magnetic buoyancy levitational force so that the levitational force equals or exceeds the sum of the gravity force acting upon the magnetic workpiece, polishing forces acting upon the magnetic workpiece and any downward magnetic force arising from magnetic induction upon the magnetic workpiece and is sufficient to establish a gap of at least 0.5 mm between the chamber floor and the bottom of the float; and
contacting the magnetic workpiece with the polishing shaft, wherein the shaft is formed of an advanced ceramic material, and polishing the magnetic workpiece under the action of the magnetic buoyancy levitational force.
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Abstract
A methodology for conducting magnetic float polishing of magnetic materials. This is accomplished by isolating the magnetic workpiece from any appreciable magnetic induction and subsequently polishing the magnetic workpiece utilizing the action of a magnetic buoyancy levitational force with conventional magnetic float polishing apparatus.
35 Citations
6 Claims
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1. A method for conducting the final finishing stage of magnetic float polishing on a magnetic workpiece in a magnetic float polishing apparatus of the type having a chamber to hold a magnetic fluid suspension, a non-magnetic float set in the suspension within the chamber above a chamber floor, the top surface of the float defining a polishing area, a polishing shaft, and magnet means located beneath the chamber for applying a magnetic field to the suspension, comprising:
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immersing the magnetic workpiece in the magnetic fluid suspension in the polishing area above the top surface of the float; applying a magnetic field to the magnetic fluid suspension from beneath the chamber to create an upward magnetic buoyancy levitational force acting on the bottom of the float; regulating the upward magnetic buoyancy levitational force so that the levitational force equals or exceeds the sum of the gravity force acting upon the magnetic workpiece, polishing forces acting upon the magnetic workpiece and any downward magnetic force arising from magnetic induction upon the magnetic workpiece and is sufficient to establish a gap of at least 0.5 mm between the chamber floor and the bottom of the float; and contacting the magnetic workpiece with the polishing shaft, wherein the shaft is formed of an advanced ceramic material, and polishing the magnetic workpiece under the action of the magnetic buoyancy levitational force. - View Dependent Claims (2, 3, 5)
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4. A method for conducting magnetic float polishing on a magnetic workpiece in a magnetic float polishing apparatus of the type having a chamber to hold a magnetic fluid suspension, a non-magnetic float set in the suspension within the chamber above a chamber floor, the top surface of the float defining a polishing area, a polishing shaft, and magnet means located beneath the chamber for applying a magnetic field to the suspension, comprising:
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immersing the magnetic workpiece in the magnetic fluid suspension in the polishing area above the top surface of the float, the magnetic fluid suspension comprising a colloidal dispersion of magnetic particles in a carrier fluid and a quantity of non-magnetic abrasive grains; applying a magnetic field to the magnetic fluid suspension from beneath the chamber floor to cause the magnetic particles to be attracted downward to an area of higher magnetic field intensity and to thereby create an upward magnetic buoyancy levitational force acting on the bottom of the float; regulating the upward magnetic buoyancy levitational force so that the levitational force equals or exceeds the sum of the gravity force acting upon the magnetic workpiece, polishing forces acting upon the magnetic workpiece and any downward magnetic force arising from magnetic induction upon the magnetic workpiece and is sufficient to establish a gap of at least 0.5 mm between the chamber floor and the bottom of the float; and polishing the magnetic workpiece utilizing the abrasive grains under the action of the magnetic buoyancy levitational force. - View Dependent Claims (6)
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Specification
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Current AssigneeBoard of Regents of Oklahoma State University
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Original AssigneeBoard of Regents of Oklahoma State University
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InventorsJiang, Ming, Komanduri, Ranga
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Primary Examiner(s)Scherbel, David A.
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Assistant Examiner(s)HOFFMANN, PHILLIP J
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Application NumberUS09/000,915Time in Patent Office637 DaysField of Search451/36, 451/164, 451/165, 451/162, 451/113, 451/163, 451/28, 451/11US Class Current451/36CPC Class CodesB24B 1/005 using a magnetic polishing ...B24B 11/02 for grinding ballsB24B 31/112 using magnetically consolid...B24B 37/02 designed for working surfac...F16C 33/32 Balls
