Conformal (or freeform) and steep concave optics are important classes of optics that are difficult to finish using conventional techniques due to mechanical interferences and steep local slopes. One suitable way to polish these classes of optics is by using a jet of abrasive/fluid mixture. The energy required for polishing may be supplied by the radial spread of a liquid jet, which impinges a surface to be polished. Such fluid flow may generate sufficient surface shear stress to provide material removal in the regime of chemical mechanical polishing. Once translated into a polishing technique, this unique tool may resolve a challenging problem of finishing steep concave surfaces and cavities. A fundamental property of a fluid jet is that it begins to lose its coherence as the jet exits a nozzle. This is due to a combination of abruptly imposed longitudinal and lateral pressure gradients, surface tension forces, and aerodynamic disturbance. This results in instability of the flow over the impact zone and consequently polishing spot instability. To be utilized in deterministic high precision finishing of remote objects, a stable, relatively high-speed, low viscosity fluid jet, which remains collimated and coherent before it impinges the surface to be polished, is required. A method of jet stabilization has been proposed, developed, and demonstrated whereby the round jet of magnetorheological fluid is magnetized by an axial magnetic field when it flows out of the nozzle. It has been experimentally shown that a magnetically stabilized round jet of magnetorheological (MR) polishing fluid generates a reproducible material removal function (polishing spot) at a distance of several tens of centimeters from the nozzle. The interferometrically derived distribution of material removal for an axisymmetric MR Jet™ , which impinges normal to a plane glass surface, coincides well with the radial distribution of rate of work calculated using computational fluid dynamics (CFD) modeling. Polishing results support the assertion that the MR Jet finishing process may produce high precision surfaces on glass and single crystals. The technology is most attractive for the finishing of complex shapes like freeform optics, steep concaves, and cavities.
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January 2006
Special Section On The Fluid Mechanics And Rheology Of Nonlinear Materials At The Macro, Micro And Nano Scale
Magnetorheological Jet (MR ) Finishing Technology
Aric B. Shorey,
Aric B. Shorey
QED Technologies®, Inc.
, 1040 University Avenue, Rochester, NY 14607
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Marc Tricard
Marc Tricard
QED Technologies®, Inc.
, 1040 University Avenue, Rochester, NY 14607
Search for other works by this author on:
William I. Kordonski
Aric B. Shorey
QED Technologies®, Inc.
, 1040 University Avenue, Rochester, NY 14607
Marc Tricard
QED Technologies®, Inc.
, 1040 University Avenue, Rochester, NY 14607J. Fluids Eng. Jan 2006, 128(1): 20-26 (7 pages)
Published Online: April 17, 2005
Article history
Received:
May 5, 2004
Revised:
April 17, 2005
Citation
Kordonski, W. I., Shorey, A. B., and Tricard, M. (April 17, 2005). "Magnetorheological Jet (MR ) Finishing Technology." ASME. J. Fluids Eng. January 2006; 128(1): 20–26. https://doi.org/10.1115/1.2140802
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