Robert Speyer resumes & CV records
Resumes
Robert Speyer
Location:
United States
Robert F Speyer, 6675 14Th St NE UNIT 3910, Atlanta, GA 30309
Robert Speyer Phones & Addresses
75 14Th St NE UNIT 3910, Atlanta, GA 30309 404-8754982
75 14Th St NE, Atlanta, GA 30309
3916 Chaucer Wood, Atlanta, GA 30319 770-4520302
711 Adams Lake Blvd SE, Atlanta, GA 30339
Mineral Bluff, GA
Felton, GA
Alfred, NY
3916 Chaucer Wood NE, Atlanta, GA 30319
Work
Position:
Executive, Administrative, and Managerial Occupations
Education
Degree:
Graduate or professional degree
Mentions for Robert F Speyer
Publications & IP owners
Us Patents
Processes And Methods Of Making Boron Carbide
US Patent:
7517491, Apr 14, 2009
Filed:
May 4, 2005
Appl. No.:
11/041415
Inventors:
Robert F. Speyer - Atlanta GA, US
Hyukjae Lee - Miamisburg OH, US
Zhihao Bao - Atlanta GA, US
Hyukjae Lee - Miamisburg OH, US
Zhihao Bao - Atlanta GA, US
Assignee:
Georgia Tech Research Corporation - Atlanta GA
International Classification:
B28B 3/00
US Classification:
264676, 264604, 264603
Abstract:
High-density components and products as well as processes for making high-density components and products are disclosed. One exemplary component, among others, includes a boron carbide component comprised of a homogeneous boron carbide powder. The component has at least a 93% relative density (RD) and a Vickers hardness of at least 2000 kg/mm.
Boron Carbide And Boron Carbide Components
US Patent:
7592279, Sep 22, 2009
Filed:
Jun 14, 2004
Appl. No.:
10/867442
Inventors:
Robert F. Speyer - Atlanta GA, US
Hyukjae Lee - Miamisburg OH, US
Zhihao Bao - Atlanta GA, US
Hyukjae Lee - Miamisburg OH, US
Zhihao Bao - Atlanta GA, US
Assignee:
Georgia Tech Research Corporation - Atlanta GA
International Classification:
C04B 35/563
US Classification:
501 87, 89 3602
Abstract:
High-density components and products as well as processes for making high-density components and products are disclosed. One exemplary component, among others, includes a boron carbide component comprised of a homogeneous boron carbide powder. The component has at least a 93% relative density (RD) and a Vickers hardness of at least 2000 kg/mm.
Boron Carbide Component And Methods For The Manufacture Thereof
US Patent:
7854190, Dec 21, 2010
Filed:
Apr 11, 2006
Appl. No.:
11/402040
Inventors:
Robert F. Speyer - Atlanta GA, US
Assignee:
Georgia Tech Research Corporation - Atlanta GA
International Classification:
F41H 5/04
US Classification:
89 3602, 423291
Abstract:
A boron carbide body having a graphite content in which the central portion of the body includes more graphite that the region surrounding the central portion and adjacent the exterior surface thereof, and a method for fabricating the boron carbide body.
Density And Hardness Pressureless Sintered And Post-Hiped Bc
US Patent:
8377369, Feb 19, 2013
Filed:
Dec 19, 2005
Appl. No.:
11/311026
Inventors:
Robert F. Speyer - Atlanta GA, US
Zhihao Bao - Atlanta GA, US
Namtae Cho - Smyrna GA, US
Zhihao Bao - Atlanta GA, US
Namtae Cho - Smyrna GA, US
Assignee:
Georgia Tech Research Corporation - Atlanta GA
International Classification:
B28B 3/00
US Classification:
264604, 264676
Abstract:
A method for pressureless sintering of BC without sintering agents which reduces sintering time without sacrificing relative density, and avoids decomposition of BC and loss of relative density.
Multi-Hit Unitary Seamless, And Continuous Ceramic Ballistic Body For Armor Including Body Armor, Vehicle Armor, And Aircraft Armor
US Patent:
8598057, Dec 3, 2013
Filed:
May 4, 2010
Appl. No.:
12/773425
Inventors:
Robert F. Speyer - Atlanta GA, US
Assignee:
Verco Materials, LLC - Atlanta GA
International Classification:
C04B 35/56
C04B 35/577
F41H 5/04
C04B 35/577
F41H 5/04
US Classification:
501 87, 501 89, 501 90, 501 91, 501 92, 428701, 428702, 89 3602
Abstract:
A monolithic, unitary, seamless and physically continuous ceramic armor plate having first regions of one mechanical property and one chemical composition and one microstructural composition isolated from one another by a network of second regions of another mechanical property different from the one mechanical property and another chemical composition different from the one chemical composition and another microstructural composition different from the one microstructural composition, the one mechanical property and the another mechanical property being the propensity to crack.
Processes And Methods Of Making Boron Carbide And Boron Carbide Components
US Patent:
2010003, Feb 11, 2010
Filed:
Aug 13, 2009
Appl. No.:
12/541011
Inventors:
Robert F. Speyer - Atlanta GA, US
Hyukjae Lee - Miamisburg OH, US
Zhihao Bao - Atlanta GA, US
Hyukjae Lee - Miamisburg OH, US
Zhihao Bao - Atlanta GA, US
International Classification:
C04B 35/64
US Classification:
264604
Abstract:
High-density components and products as well as processes for making high-density components and products are disclosed. One exemplary component, among others, includes a boron carbide component comprised of a homogeneous boron carbide powder. The component has at least a 93% relative density (RD) and a Vickers hardness of at least 2000 kg/mm.
Sic Bodies And Process For The Fabrication Of Sic Bodies
US Patent:
2011002, Feb 3, 2011
Filed:
Dec 2, 2009
Appl. No.:
12/629641
Inventors:
Lionel VARGAS-GONZALEZ - Atlanta GA, US
Robert SPEYER - Atlanta GA, US
Robert SPEYER - Atlanta GA, US
International Classification:
C04B 35/565
C04B 35/52
C04B 35/64
C04B 35/52
C04B 35/64
US Classification:
501 90, 264604
Abstract:
Disclosed is a method for the synthesis of silicon carbide (SiC) bodies having a relative density of 99% or higher and a SiC body synthesized according to the method.
Boron Carbide Based Materials And Process For The Fabrication Thereof
US Patent:
2013033, Dec 19, 2013
Filed:
Dec 28, 2011
Appl. No.:
13/976724
Inventors:
Charles Schenck Wiley - Charlotte NC, US
Robert F. Speyer - Atlanta GA, US
Robert F. Speyer - Atlanta GA, US
International Classification:
C04B 35/563
C04B 33/32
C04B 33/32
US Classification:
264 43, 4272133
Abstract:
Disclosed is a method for fabricating a solid article from a boron carbide powder comprising boron carbide particles that are coated with a titanium compound. Further disclosed herein are the unique advantages of the combined use of titanium and graphite additives in the form of water soluble species to improve intimacy of mixing in the green state. The carbon facilitates sintering, whose concentration is then attenuated in the process of forming very hard, finely dispersed Ti B2 phases. The further recognition of the merits of a narrow particle size distribution B4C powder and the use of sintering soak temperatures at the threshold of close porosity which achieve post-HlP ed microstructures with average grain sizes approaching the original median particle size. The combination of interdependent factors has led to B4C-based articles of higher hardness than previously reported.
Isbn (Books And Publications)
Thermal Analysis Of Materials
Author:
Robert F. Speyer
ISBN #:
0824789636
Public records
Vehicle Records
Robert Speyer
Address:
75 14 St NE UNIT 3910, Atlanta, GA 30309
Phone:
404-8754982
VIN:
WBSNB93597CX07966
Make:
BMW
Model:
M5
Year:
2007
Robert Speyer
Address:
75 14 St NE UNIT 3910, Atlanta, GA 30309
Phone:
404-8754982
VIN:
WBAVB73517PA87389
Make:
BMW
Model:
3 SERIES
Year:
2007
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