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Aric B Shorey

from Pittsford, NY
Age ~52
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Also known as:
Aric Bruce Shorey, Eric R Shorey
Related to:
Stephen S Butler, 54Neal Shorey, 54Patrick ButlerChristopher Shorey, 30Nora B Krause, 63
Connected to:
Darrik T Shorey, 30Katrina Shorey, 38Lexi L Shorey, 28Olivia T Shorey, 42Patricia A Shorey, 89Shannon Shorey, 48Sunday K Shorey, 42Tara J Shorey, 49Raj K Shori, 56James J Shorie, 45

Aric Shorey Phones & Addresses

  • Pittsford, NY
  • Rochester, NY
  • Sodus, NY
  • Webster, NY
  • Painted Post, NY
  • Walworth, NY
  • Macedon, NY
  • Penfield, NY
  • Wayne, NY
  • 1061 Floribunda Way APT E, Webster, NY 14580 (315) 244-5239

Resumes

Resumes

Aric Shorey Photo 1

Vice President New Business Development

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Location:
196 west Bloomfield Rd, Pittsford, NY 14534
Industry:
Electrical/Electronic Manufacturing
Work:
Mobileaccess Networks Dec 2008 - Jul 2018
Commercial Technology Manager
Mosaic Microsystems Dec 2008 - Jul 2018
Vice President New Business Development
Qed Technologies Apr 2002 - Dec 2008
Senior Research Engineer and Program Manager
Optical Coating Laboratory 2000 - 2002
Research Engineer
Education:
University of Rochester 1995 - 2000
Doctorates, Doctor of Philosophy, Materials Science
Aric Shorey Photo 2

Aric Shorey

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Aric Shorey Photo 3

Aric Shorey

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Publications

Us Patents

Methods Of Fabricating A Honeycomb Extrusion Die From A Die Body

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US Patent:
20110290078, Dec 1, 2011
Filed:
May 28, 2010
Appl. No.:
12/789896
Inventors:
Raymond Charles Cady - Horseheads NY, US
Mihir Mahendra Shah - Elmira NY, US
Aric Bruce Shorey - Painted Post NY, US
Kevin Lee Wasson - Elmira NY, US
International Classification:
B21K 5/20
US Classification:
761071
Abstract:
A method for screening abrasive wheels for fabricating a honeycomb extrusion die from a die body, and methods for fabricating a honeycomb extrusion die using an abrasive wheel assembly. One method for fabricating a honeycomb extrusion die includes measuring at least one of runout and thickness of each of a plurality of abrasive blades while rotating the blades, selecting a subset of the plurality of blades that have a measured runout or a measured thickness within a predetermined range, and mounting the subset of blades spaced from one another and concentrically aligned along a rotation axis of the abrasive wheel assembly.

Method Of Preparing An Edge-Strengthened Article

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US Patent:
20110318994, Dec 29, 2011
Filed:
May 20, 2011
Appl. No.:
13/112498
Inventors:
Charles Michael Darcangelo - Corning NY, US
Steven Edward DeMartino - Painted Post NY, US
Joseph Fabian Ellison - Penfield NY, US
Richard A. Nasca - Rochester NY, US
Aric Bruce Shorey - Painted Post NY, US
David Alan Tammaro - Painted Post NY, US
John Christopher Thomas - Elmira NY, US
International Classification:
B24B 1/00
C09K 13/02
C09K 13/00
US Classification:
451 41, 252 791, 252 795
Abstract:
A method of preparing an edge-strengthened article comprises polishing of an edge of an article having a first edge strength using magnetorheological finishing, wherein after the polishing the article has a second edge strength and the second edge strength is greater than the first edge strength.

Edge Finishing Apparatus

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US Patent:
20120009854, Jan 12, 2012
Filed:
Jun 27, 2011
Appl. No.:
13/169499
Inventors:
Charles Michael Darcangelo - Corning NY, US
Steven Edward DeMartino - Painted Post NY, US
Aric Bruce Shorey - Painted Post NY, US
Daniel Duane Strong - Valois NY, US
David Alan Tammaro - Painted Post NY, US
Butchi Reddy Vaddi - Painted Post NY, US
International Classification:
B24B 41/06
US Classification:
451364
Abstract:
An edge finishing apparatus includes a surface, a fluid delivery device configured to deliver at least one magnetorheological polishing fluid (MPF) ribbon to the at least one well, at least one magnet placed adjacent to the surface to selectively apply a magnetic field in a vicinity of the surface, and at least one holder placed in opposing relation to the surface, the at least one holder being configured to support at least one article such that an edge of the at least one article can be selectively immersed in the MPF ribbon delivered to the at least one well.

Methods Of Finishing An Edge Of A Glass Sheet

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US Patent:
20120302139, Nov 29, 2012
Filed:
May 26, 2011
Appl. No.:
13/116738
Inventors:
Charles M. Darcangelo - Corning NY, US
Aric B. Shorey - Painted Post NY, US
Daniel D. Strong - Hector NY, US
David A. Tammaro - Painted Post NY, US
International Classification:
B24B 1/00
B24B 9/10
US Classification:
451 36, 451 44
Abstract:
Methods of finishing an edge of a glass sheet comprise the step of machining the edge of the glass sheet into a predetermined cross-sectional profile along a plane taken transverse to the edge of the glass sheet with an initial average edge strength ES. The methods also include the step of finishing the edge with at least one finishing member, such as an endless belt, without substantially changing a shape of the predetermined cross-sectional profile. In one example, a wet slurry including an abrasive can be applied to at least one of a finishing member and the edge of the glass sheet. After finishing the edge, example finished average edge strengths EScan be at least about 250 MPa. In addition or alternatively, in another example, the ratio ES/EScan be within a range of from about 1.6 to about 5.6.

Methods Of Improving Strength Of Glass Articles

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US Patent:
20130133366, May 30, 2013
Filed:
Oct 30, 2012
Appl. No.:
13/663716
Inventors:
Gregory Scott Glaesemann - Corning NY, US
Aric Bruce Shorey - Painted Post NY, US
Daniel Duane Strong - Hector NY, US
David Alan Tammaro - Painted Post NY, US
International Classification:
C03C 23/00
C03B 27/012
C03C 21/00
US Classification:
65 2918, 65 3014, 65 61
Abstract:
A method of improving strength of a chemically-strengthened glass article comprises exposing a target surface of the glass article to an ion-exchange strengthening process, the ion-exchange strengthening process generating a chemically-induced compressive layer in the glass article. Thereafter, dynamic interfacing of the target surface of the glass article with a sheared magnetorheological fluid is performed to remove at least a portion of the chemically-induced compressive layer from the glass article, wherein the parameters of the dynamic interfacing of the glass article with the sheared magnetorheological fluid are such that a thickness of the removed portion of the chemically-induced compressive layer is less than approximately 20% of the chemically-induced compressive layer.

Methods Of Finishing A Sheet Of Material With Magnetorheological Finishing

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US Patent:
20130225049, Aug 29, 2013
Filed:
Dec 20, 2012
Appl. No.:
13/721557
Inventors:
Aric Bruce Shorey - Painted Post NY, US
Daniel Duane Strong - Hector NY, US
International Classification:
B24B 31/00
US Classification:
451 36
Abstract:
Methods of finishing a sheet of material, such as a glass sheet, include finishing an edge portion of the sheet of material with magnetorheological finishing. In one example, the average thickness of the sheet of material between a first face and a second face is from 50 μm to about 500 μm. In another example, the method consists essentially of a single step of finishing the edge portion of the glass sheet with magnetorheological finishing such that the entire edge portion is shaped between the first face and the second face during the a single magnetorheological finishing step.

Glass Based Electronics Packages And Methods Of Forming Thereof

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US Patent:
20190341320, Nov 7, 2019
Filed:
Aug 1, 2017
Appl. No.:
16/319725
Inventors:
- Corning NY, US
Aric Bruce SHOREY - Pittsford NY, US
Assignee:
Corning Incorporated - Corning NY
International Classification:
H01L 23/15
H01L 21/48
H01L 21/56
H01L 21/683
H01L 23/00
Abstract:
Electronics packages that incorporate components such as glass-based interposer assemblies are disclosed, as well as methods of forming thereof. A method includes bonding a glass-based substrate to a carrier, applying a metallization layer and/or a dielectric layer over the glass-based substrate to obtain a layered structure bonded to the carrier, removing sections of the layered structure such that portions of the layered structure remain on the carrier with a space between each thereof, attaching one or more dies to the portions, dispensing an underfill material between the glass-based substrate and the dies to obtain assemblies bonded to the carrier, encapsulating the assemblies with a polymeric material to obtain encapsulated assemblies, removing the carrier from the encapsulated assemblies to expose a back side of the encapsulated assemblies, and applying second metallization layers and second dielectric layers over the back side of the encapsulated assemblies to form the glass-based structures.

Inorganic Wafer Having Through-Holes Attached To Semiconductor Wafer

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US Patent:
20190074240, Mar 7, 2019
Filed:
Nov 2, 2018
Appl. No.:
16/179048
Inventors:
- CORNING NY, US
Garrett Andrew Piech - Corning NY, US
Aric Bruce Shorey - Pittsford NY, US
International Classification:
H01L 23/48
H01L 21/48
H01L 21/311
B81B 7/00
B81C 1/00
H01L 21/268
H01L 21/306
H01L 21/683
H01L 21/762
H01L 21/768
H01L 23/498
Abstract:
A process comprises bonding a semiconductor wafer to an inorganic wafer. The semiconductor wafer is opaque to a wavelength of light to which the inorganic wafer is transparent. After the bonding, a damage track is formed in the inorganic wafer using a laser that emits the wavelength of light. The damage track in the inorganic wafer is enlarged to form a hole through the inorganic wafer by etching. The hole terminates at an interface between the semiconductor wafer and the inorganic wafer. An article is also provided, comprising a semiconductor wafer bonded to an inorganic wafer. The semiconductor wafer is opaque to a wavelength of light to which the inorganic wafer is transparent. The inorganic wafer has a hole formed through the inorganic wafer. The hole terminates at an interface between the semiconductor wafer and the inorganic wafer.
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Aric B Shorey from Pittsford, NY, age ~52 Get Report