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Donald W Capone, 671165 Maree Dr, Waxahachie, TX 75165

Known as:
Donald William Capone Don W Capone Donald W Catone Donald W Cappone
Related to:
Crystal A Clements 53

Donald Capone Phones & Addresses

1165 Maree Dr, Waxahachie, TX 75165    972-9359088    972-9377306    972-9383940   

Northbridge, MA   

Bolingbrook, IL   

1165 Maree Dr, Waxahachie, TX 75165    972-9377306   

Work

Position: Food Preparation and Serving Related Occupations

Education

Degree: Associate degree or higher

Emails

d***[email protected]
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Donald Capone resumes & CV records

Resumes

Donald Capone Photo 23

Department Chair - Petroleum Technology

Location:
Dallas, TX
Industry:
Higher Education
Work:
Navarro College
Department Chair - Petroleum Technology Shalenet Penn College of Technology Sep 2015 - May 2016
Curriculum Developer Magnablend, Inc. Mar 2015 - Sep 2015
Business Optimization Magnablend, Inc. Jan 2014 - Mar 2015
Director of Quality Navarro College Apr 2012 - Jan 2013
Assistant Dean - Business and Technology Navarro College Dec 2007 - Apr 2012
Department Chair - Oil and Gas Technology Navarro College Dec 2007 - Apr 2012
Adjunct Professor Cf Chefs, Inc. 2000 - 2007
Vice President Technology Bpf Ltd 1997 - 1999
General Manager Superconducting Supercollider Dec 1989 - 1995
Head of Superconducting Technology Argonne National Laboratory May 1984 - 1988
Staff Scientist
Education:
Tufts University 1979 - 1984
Doctorates, Doctor of Philosophy, Physics Boston College 1975 - 1979
Bachelors, Bachelor of Science, Physics Wilmington High School
Skills:
Higher Education, Research, Public Speaking, Distance Learning, Teaching, Staff Development, Student Affairs, Leadership, Leadership Development, Strategic Planning, Microsoft Office, Adult Education, Curriculum Development, Grant Writing, Community Outreach, Customer Service, Instructional Design, E Learning, Program Development, Coaching, Supervisory Skills, Microsoft Excel, Educational Technology, Curriculum Design, Educational Leadership, Access, Event Planning, Student Development, Academic Advising, Program Management, Fundraising, Editing, Microsoft Word, Public Relations, Faculty Development, Powerpoint, Classroom, Project Management, Instructional Technology, Grants, Organizational Development, Recruiting, Stem, Higher Education Administration, Marketing Strategy, Outlook, Windows, Academic Administration, Career Counseling, Non Profits
Donald Capone Photo 24

Donald Capone

Donald Capone Photo 25

Department Chair At Navarro College

Location:
Dallas/Fort Worth Area
Industry:
Education Management

Publications & IP owners

Us Patents

Preferential Orientation Of Metal Oxide Superconducting Materials By Mechanical Means

US Patent:
4973575, Nov 27, 1990
Filed:
Sep 28, 1987
Appl. No.:
7/101818
Inventors:
Donald W. Capone - Bolingbrook IL
Assignee:
Arch Development Corporation - Argonne IL
International Classification:
H01L 3912
B29C 3914
B29C 4700
C04B 3500
US Classification:
505 1
Abstract:
A superconductor comprised of a polycrystalline metal oxide such as YBa. sub. 2 Cu. sub. 3 O. sub. 7-X (where 0

Metal Oxide Superconducting Powder Comprised Of Flake-Like Single Crystal Particles

US Patent:
5356869, Oct 18, 1994
Filed:
Dec 17, 1990
Appl. No.:
7/629089
Inventors:
Donald W. Capone - Bolingbrook IL
Joseph Dusek - Downers Grove IL
Assignee:
Arch Development Corporation - Chicago IL
International Classification:
C01G 302
H01L 3924
US Classification:
505430
Abstract:
Powder of a ceramic superconducting material is synthesized such that each particle of the powder is a single crystal having a flake-like, nonsymmetric morphology such that the c-axis is aligned parallel to the short dimension of the flake. Nonflake powder is synthesized by the normal methods and is pressed into pellets or other shapes and fired for excessive times to produce a coarse grained structure. The fired products are then crushed and ground producing the flake-like powder particles which exhibit superconducting characteristics when aligned with the crystal lattice.

Magnetic Preferential Orientation Of Metal Oxide Superconducting Materials

US Patent:
4942151, Jul 17, 1990
Filed:
Sep 28, 1987
Appl. No.:
7/101820
Inventors:
Donald W. Capone - Bolingbrook IL
Bobby D. Dunlap - Bolingbrook IL
Boyd W. Veal - Downers Grove IL
Assignee:
Arch Development Corporation - Argonne IL
International Classification:
C04B 3328
B28B 126
US Classification:
505 1
Abstract:
A superconductor comprised of a polycrystalline metal oxide such as YBa. sub. 2 Cu. sub. 3 O. sub. 7-X (where 0

Preferential Orientation Of Metal Oxide Superconducting Materials

US Patent:
5053385, Oct 1, 1991
Filed:
Aug 7, 1989
Appl. No.:
7/390930
Inventors:
Donald W. Capone - Bolingbrook IL
Roger B. Poeppel - Glen Ellyn IL
Assignee:
Arch Development Corporation - Argonne IL
International Classification:
B29C 4700
C04B 3500
H01L 3912
US Classification:
505 1
Abstract:
A polycrystalline metal oxide such as YBa. sub. 2 Cu. sub. 3 O. sub. 7-X (where 0

Preparation Of Bi-Sr-Ca-Cu-O Superconductors From Oxide-Glass Precursors

US Patent:
5126321, Jun 30, 1992
Filed:
Apr 10, 1990
Appl. No.:
7/508549
Inventors:
David G. Hinks - Lemont IL
Donald W. Capone - Northbridge MA
Assignee:
The United States of America as represented by the Department of Energy - Washington DC
International Classification:
C03C 1002
C03C 312
H01B 108
US Classification:
505 1
Abstract:
A superconductor and precursor therefor from oxide mixtures of Ca, Sr, Bi and Cu. Glass precursors quenched to elevated temperatures result in glass free of crystalline precipitates having enhanced mechanical properties. Superconductors are formed from the glass precursors by heating in the presence of oxygen to a temperature below the melting point of the glass.

Superconductor And Process Of Manufacture

US Patent:
5160794, Nov 3, 1992
Filed:
Jun 19, 1990
Appl. No.:
7/540193
Inventors:
James Wong - Wayland MA
Mark K. Rudziak - Westminister MA
Donald W. Capone - Northbridge MA
Assignee:
Composite Materials Technology, Inc. - Shrewsbury MA
International Classification:
C22C 118
H01L 3912
H01L 3924
H01B 1202
US Classification:
428661
Abstract:
In a preferred form of the invention, a superconductor is produced by the steps of combining a plurality of layers of metal sheets to form a composite structure. The sheets are pure transition metals--niobium, titanium, zirconium, or vanadium, alternate sheets being formed of different transition metals. The resulting composite structure is mechanically reduced sufficiently so that each transition metal sheet is less than 1000. ANG. thick. In the course of reduction, the composite is subjected to sufficient temperatures for sufficient times such that the transition metal layers are partially reacted to form a ductile superconducting material between the transition metal layers. Approximately one half by volume of the transition metal layers remain unreacted. These unreacted layers afford efficient flux pinning within the composite when the layers are reduced to the

Superconductor And Process Of Manufacture

US Patent:
5158620, Oct 27, 1992
Filed:
Feb 15, 1990
Appl. No.:
7/480236
Inventors:
James Wong - Wayland MA
Mark K. Rudziak - Westminister MA
Donald W. Capone - Northbridge MA
Assignee:
Composite Materials Technology, Inc. - Shrewsbury MA
International Classification:
C22C 118
H01L 3912
H01L 3924
H01B 1202
US Classification:
148 96
Abstract:
In the present invention, a superconductor is produced by the steps of wrapping a plurality of layers of metal sheets around a support to form a composite structure. The sheets are pure transition metals-13 niobium, titanium, zirconium, or vanadium, for example--alternate sheets being formed of different transition metals. The support may be composed of any ductile metal. The resulting composite structure is mechanically reduced sufficiently so that each transition metal sheet is less than 1000. ANG. thick. In the course of reduction, the composite is subjected to sufficient temperatures for sufficient times such that the transition metal layers are partially reacted to form a ductile superconducting material between the transition metal layers. Approximately one half by volume of the transition metal layers remain unreacted. These unreacted layers afford efficient flux pinning within the composite when the layers are reduced to the

Possible Relatives

Cynthia O Capone  David J Capone  Dean E Capone  Deborah A Capone  Daniel P Capone  Diana M Capone  Diane J Capone  Donald R Johnson  Donald Stamps  Donald L Stanchfield 

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