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Lisa Jo Clapp

from Cincinnati, OH
Age ~55

Lisa Clapp Phones & Addresses

  • 8407 Patrilla Ln, Cincinnati, OH 45249 (513) 469-8407
  • 5042 Lexington Ct, Mason, OH 45040 (513) 573-9602
  • Pittsboro, NC
  • Marion, IN
  • Sutton, MA
  • Chapel Hill, NC
  • Warren, OH
  • Upland, IN
  • PO Box 5576, Cincinnati, OH 45201 (513) 469-8407

Work

Company: Sun chemical Apr 2013 Position: Manager

Education

School / High School: University of North Carolina at Chapel Hill 1992 to 1995 Specialities: Chemistry

Industries

Chemicals

Resumes

Resumes

Lisa Clapp Photo 1

Manager At Sun Chemical

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Position:
Manager at Sun Chemical
Location:
Cincinnati Area
Industry:
Chemicals
Work:
Sun Chemical since Apr 2013
Manager

DIC/Sun Chemical 2011 - Mar 2013
Consultant

Sun Chemical Jun 2008 - Apr 2011
Manager of Specialty Dispersions
Education:
University of North Carolina at Chapel Hill 1992 - 1995
Ball State University 1988 - 1992
B. S., Chemistry

Publications

Us Patents

Low Viscosity, Highly Pigmented Oil Based Dispersions Exhibiting A Low Relative Interfacial Tension Drop

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US Patent:
20070000408, Jan 4, 2007
Filed:
Jul 1, 2005
Appl. No.:
11/173933
Inventors:
Gregory Huber - Indian Springs OH, US
Tatiana Romanova - Loveland OH, US
Russell Schwartz - Cincinnati OH, US
Lisa Clapp - Mason OH, US
Terence Chamberlain - Montogomery OH, US
Don Henderson - Loveland OH, US
International Classification:
C09D 11/00
C09C 1/44
C08K 5/00
US Classification:
106031600, 106031900, 106493000, 106472000, 106496000, 106497000, 106498000, 106410000, 106411000, 106413000, 106499000
Abstract:
Pigment dispersions that when used in printing ink having a relative interfacial tension drop of less than 1.5, and offering an ink viscosity of less than 150 Pas, and containing at least 45 wt. % pigment.

Process For Efficient Milling Of Particles To A Predetermined Particle Size And/Or Particle Size Distribution

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US Patent:
20110290918, Dec 1, 2011
Filed:
May 26, 2011
Appl. No.:
13/117081
Inventors:
Michael MELICK - Lebanon OH, US
Lisa CLAPP - Cincinnati OH, US
Paul MERCHAK - Loveland OH, US
Russell SCHWARTZ - Cincinnati OH, US
Assignee:
Sun Chemical Corporation - Parsippany NJ
International Classification:
B02C 23/18
US Classification:
241 15
Abstract:
The present invention is a process for efficiently milling particles to a predetermined particle size and/or particle size distribution. The process includes feeding a fluid dispersion containing particles to be milled into a chamber. The process also includes contacting a fiber milling assembly in said chamber with said particles. Further, the process includes milling said particles for less than or equal to 40 minutes.

Fiber Based Milling Device And Method

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US Patent:
20110290922, Dec 1, 2011
Filed:
May 26, 2011
Appl. No.:
13/117074
Inventors:
Michael MELICK - Lebanon OH, US
Lisa CLAPP - Cincinnati OH, US
Paul MERCHAK - Loveland OH, US
Russell SCHWARTZ - Cincinnati OH, US
Assignee:
Sun Chemical Corporation - Parsippany NJ
International Classification:
B02C 19/00
US Classification:
241 30, 241220, 2411012
Abstract:
The present invention describes a fiber based milling device for milling particles. The fiber based milling device includes a milling chamber with an inlet and an outlet, and also at least one fiber assembly. The fiber assembly contacts a particle to be milled in the milling chamber. Also disclosed is a method for milling particles by contacting the particles to be milled with a fiber assembly.

Colored Fluids For Electrowetting, Electrofluidic, And Electrophoretic Technologies

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US Patent:
20120092753, Apr 19, 2012
Filed:
Mar 15, 2010
Appl. No.:
13/202457
Inventors:
Jason C. Heikenfeld - Cincinnati OH, US
Russell J. Schwartz - Cincinnati OH, US
Lisa Clapp - Cincinnati OH, US
April Milarcik - Cincinnati OH, US
Stanislav G. Vilner - Cincinnati OH, US
Assignee:
SUN CHEMICAL CORPORATION - Parsippany NJ
International Classification:
G02F 1/167
C08K 5/04
C09D 5/14
G02B 26/00
C09D 7/12
C08K 5/05
B82Y 30/00
US Classification:
359296, 10628726, 10628724, 524280, 524386, 106 1505, 10628725, 1062872, 359290, 977773
Abstract:
Colored fluids for electrowetting, electro fluidic, or electrophoretic devices, and the devices themselves, are disclosed. The colored fluid can include a nonaqueous polar solvent having (a) a dynamic viscosity of 0.1 cP to 50 cP at 250 C, (b) a surface tension of 25 dynes/cm to 55 dynes/cm at 250 C, and (c) an electrowetting relative response of 40% to 80%. Such colored fluids further include a colorant selected from a pigment and/or a dye. In another embodiment, the colored fluid can include a non-polar solvent and an organic colorant selected from a pigment and/or a dye. Such colored fluids can be black in color and have a conductivity from 0 pS/cm to 5 pS/cm and a dielectric constant less than 3. The use of the colored fluids offers improvements in reliability, higher levels of chroma in the dispersed state, and the ability to achieve higher contrast ratios in display technologies.

Colored Conductive Fluids For Electrowetting And Electrofluidic Technologies

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US Patent:
20120154896, Jun 21, 2012
Filed:
Aug 4, 2010
Appl. No.:
13/388581
Inventors:
Lisa Clapp - Cincinnati OH, US
Jason Heikenfeld - Cincinnati OH, US
April Milarcik - Cincinnati OH, US
Russell J. Schwartz - Cincinnati OH, US
Stanislav G. Vilner - South Lebanon OH, US
Manjeet Dhindsa - Eindhoven, NL
Stephanie Chevalliot - Cincinnati OH, US
Assignee:
SUN CHEMICAL CORPORATION - Parsippany NJ
International Classification:
G02B 26/00
H01B 1/12
H01B 1/00
B82Y 30/00
US Classification:
359290, 252500, 2525192, 977773
Abstract:
Colored conductive fluids for electrowetting or electrofluidic devices, and the devices themselves, are disclosed. The colored conductive fluid includes a polar solvent and a colorant selected from a pigment and/or a dye. The polar solvent has (a) a dynamic viscosity of 0.1 cP to 1000 cP at 25 C., (b) a surface tension of 25 dynes/cm to 90 dynes/cm at 25 C., and (c) an electrowetting relative response of 20% to 80%. The colored conductive fluid itself can have an electrical conductivity from 0.1 μS/cm to 3,000 μS/cm and can have no greater than 500 total ppm of monatomic ions with ionic radii smaller than 2.0 Å and polyatomic ions with ionic radii smaller than 1.45 Å. The colored conductive fluid should not cause electrical breakdown of a dielectric in the device in which it is employed. An agent for controlling electrical conductivity can optionally be added to the colored conductive fluid.

Reversible Piezochromic System, Methods Of Making A Reversible Piezochromic System, And Methods Of Using A Reversible Piezochromic System

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US Patent:
20130017948, Jan 17, 2013
Filed:
Mar 30, 2011
Appl. No.:
13/637707
Inventors:
Deborah Charlson - Maineville OH, US
Lisa Clapp - Cincinnati OH, US
David J. Kozak - Fairfield OH, US
Paul Merchak - Loveland OH, US
Mark Ortalano - Cincinnati OH, US
Russell J. Schwartz - Cincinnati OH, US
International Classification:
B41M 5/124
B32B 37/00
US Classification:
503201, 503200, 156145
Abstract:
The present invention provides a reversible piezochromic system that changes appearance upon application of a mechanical force. The reversible piezochromic system includes a cavity defined by a first substrate and a second substrate. The cavity includes at least a first fluid. The first fluid spreads when a mechanical force is applied to the system. The relaxation time of the first fluid depends upon the internal forces of the system. These internal forces at least include the surface energy differences between the substrates and the fluid or fluids, and the rheological properties of the fluid or fluids.

Color-Mixing Bi-Primary Color Systems For Displays

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US Patent:
20130278993, Oct 24, 2013
Filed:
Sep 1, 2011
Appl. No.:
13/820411
Inventors:
Jason Heikenfeld - New Richmond OH, US
Lisa Clapp - Cincinnati OH, US
Stanislav G. Vilner - South Lebanon OH, US
April Milarcik - Cincinnati OH, US
Paul A. Merchak - Neuchatel, CH
Russell J. Schwartz - Cincinnati OH, US
International Classification:
G02F 1/167
US Classification:
359296
Abstract:
A display pixel (). The pixel () includes first and second substrates () arranged to define a channel (). A fluid () is located within the channel () and includes a first colorant () and a second colorant (). The first colorant () has a first charge and color. The second colorant () has a second charge that is opposite in polarity to the first change and a color that is complementary to the color of the first colorant (). A first electrode (), with a voltage source (), is operably coupled to the fluid () and configured to moving one or both of the first and second colorants () within the fluid () and alter at least one spectral property of the pixel ().

Colorants For Metalorganic Compounds And Their Application In Electronic Display Technology

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US Patent:
20130313491, Nov 28, 2013
Filed:
Dec 16, 2011
Appl. No.:
13/992075
Inventors:
Stanislav G. Vilner - South Lebanon OH, US
Lisa Clapp - Cincinnati OH, US
Russell Schwartz - Cincinnati OH, US
International Classification:
C09B 67/44
G02B 26/00
US Classification:
25251921, 359290, 252500, 2525192
Abstract:
Colored metalorganic fluids for electrowetting, electrofluidic, and electrophoretic devices are disclosed. The colored fluid can include a polar or nonpolar solvent including silicon and/or germanium and a modified, oligomeric, or polymeric dye. The dye includes a chromophore attached to a low molecular weight group with molecular weight 10 to 800 or an oligomeric or polymeric chain, which includes silicon and/or germanium. The dye has a molecular weight from 100 to 100,000, solubility in the solvent of at least 5% wt at 25 C., and a dynamic viscosity from 0.5 cPs to 2,000 cPs at 25 C. If the solvent is polar, the fluid has a conductivity from about 0.01 pS/cm to 3000 pS/cm, a surface tension of 15 dynes/cm to 90 dynes/cm at 25 C., and a total content of monatomic ions with radii smaller than 2.0 A and polyatomic ions with radii smaller than 1.45 A less than 500 ppm.
Lisa Jo Clapp from Cincinnati, OH, age ~55 Get Report