Xiangmin Han, 524720 Black Walnut Ln, Ravenna, OH 44266

7026365, Apr 11, 2006

May 20, 2004

10/849599

L. James Lee - Columbus OH, US
Kurt W. Koelling - Columbus OH, US
David L. Tomasko - Columbus OH, US
Xiangmin Han - Columbus OH, US
Changchun Zeng - Columbus OH, US

The Ohio State University Research Foundation - Columbus OH

C08J 9/35

521 83, 521 91, 521 92, 521 93, 521100, 521110

Nano-sized particles such as nano-clays can be mixed with polymers through either melt compounding or in-situ polymerization. By modifying the particle surface with various surfactants and controlling processing conditions, we are able to achieve either intercalated (partial dispersion) or exfoliated (full dispersion) nano-clay distribution in polymers with the clay content up to 35% by weight. When a blowing agent is injected into the nanocomposite in an extruder (a continuous mixer) or a batch mixer, polymeric foam can be produced. Supercritical carbon dioxide, an environmentally friendly, low-cost, non-flammable, chemically benign gas is used as the blowing agent. This process forms a microcellular foam with very high cell density (>10cells/cc) and small cell size (

7605188, Oct 20, 2009

Dec 31, 2004

11/026011

Roland R. Loh - Stow OH, US
Mark E. Polasky - Mogadore OH, US
Joseph P. Rynd - Cuyahoga Falls OH, US
James Lee - Columbus OH, US
Xiangmin Han - Columbus OH, US
Kurt W. Koelling - Powell OH, US
Yadollah Delaviz - Lewis Center OH, US

Owens Corning Intellectual Capital, LLC - DE

C08J 9/12

521 83, 521 97, 521142, 521146

This invention relates to foam insulating products, particularly extruded polystyrene foam, containing multi-layered nano-graphite as a process additive for improving the physical properties of foam products.

2003020, Nov 6, 2003

May 2, 2002

10/137037

L. Lee - Columbus OH, US
Kurt Koelling - Columbus OH, US
David Tomasko - Columbus OH, US
Xiangmin Han - Columbus OH, US
Changchun Zeng - Columbus OH, US

The Ohio State University Research Foundation

C08J009/00

264/053000, 521/050000

Nano-sized particles such as nano-clays can be mixed with polymers through either melt compounding or in-situ polymerization. By modifying the particle surface with various surfactants and controlling processing conditions, we are able to achieve either intercalated (partial dispersion) or exfoliated (full dispersion) nano-clay distribution in polymers with the clay content up to 35% by weight. When a blowing agent is injected into the nanocomposite in an extruder (a continuous mixer) or a batch mixer, polymeric foam can be produced. Supercritical carbon dioxide, an environmentally friendly, low-cost, non-flammable, chemically benign gas is used as the blowing agent. This process forms a microcellular foam with very high cell density ( 10cells/cc) and small cell size (

2007011, May 24, 2007

May 15, 2006

11/383366

L. Lee - Columbus OH, US
Jiong Shen - Columbus OH, US
Changchun Zeng - Salt Lake City UT, US
Xiangmin Han - Columbus OH, US

THE OHIO STATE UNIVERSITY RESEARCH FOUNDATION - Columbus OH

C08J 9/00

521083000

With extraordinary mechanical properties, carbon nanofibers (CNF) serve as reinforcements for both lightweight and ultra strong composite materials. CNF was used as the reinforcing nanoelements to synthesize polystyrene (PS)/CNF nanocomposites by the in-situ polymerization process. The obtained composites were further foamed using supercritical COas the foaming agent. A homogeneous dispersion of CNF was observed and the final PS/CNF nanocomposite foam showed microcellular foam morphology.

2010030, Dec 2, 2010

May 23, 2008

12/601073

Pere Ruiz Donaire - Barcelona, ES
Roser Amposta Estruch - Barcelona, ES
Joo H. Song - Chicago IL, US
Liu Jingping - Indian Head Park IL, US
Xia Xiaohu - Evanston IL, US
Xiangmin Han - Stow OH, US

A23G 4/08
C08F 236/10

426 6, 526340

A chewing gum contains a water-insoluble gum base portion containing a solution-polymerized styrene-butadiene random copolymer elastomer which is cud-forming and chewable at mouth temperature; a water-soluble bulk portion; and at least one flavor component.

2013004, Feb 14, 2013

Jun 25, 2012

13/531643

Nikoi Annan - Newark OH, US
Yadollah Delaviz - Lewis Center OH, US
Xiangmin Han - Stow OH, US
Roland Loh - Stow OH, US

OWENS CORNING INTELLECTUAL CAPITAL LLC - Toeldo OH

C08L 25/06
C08L 3/00
B32B 5/18
C08L 67/03
C08L 95/00
C08K 5/053
C08L 1/02

428220, 521146, 521138

Organic infrared attenuation agents have been developed to improve the thermal insulation properties of polymeric foams such as polystyrene low density foams. The organic infrared attenuation agents can include polyols such as sorbitol, maltitol, and poly(ethylene glycol), polysaccharides such as starch or cellulose, and infrared attenuation polyesters such as polybutylene terephthalate. The organic attenuation agents include aromatic compounds or carbon oxygen bonds that are effective in absorbing infrared radiation at the desired wavelengths.

2022017, Jun 9, 2022

Feb 22, 2022

17/677052

- Toledo OH, US
Yadollah Delaviz - Lewis Center OH, US
Xiangmin Han - Ravenna OH, US
S. Thomas Brammer - Kent OH, US
Barbara Ann Fabian - Medina OH, US
Mitchell Zane Weekley - Tallmadge OH, US
Jeffrey Thomas - Mogadore OH, US

C08J 9/14

Disclosed is a blowing agent composition comprising a hydrofluoroolefins (HFO) and a branched hydrocarbon, and a foamable polymer composition comprising the blowing agent composition. Also disclosed is a method of making a polymer foam utilizing a blowing agent composition comprising an HFO and a branched hydrocarbon.

2023007, Mar 9, 2023

Aug 16, 2022

17/888672

- Toledo OH, US
Yadollah Delaviz - Lewis Center OH, US
Xiangmin Han - Ravenna OH, US
S. Thomas Brammer - Kent OH, US
Barbara Ann Fabian - Medina OH, US
Mitchell Zane Weekley - Tallmadge OH, US
Jeffrey Thomas - Mogadore OH, US

C08J 9/14

Disclosed is a blowing agent composition comprising a hydrofluoroolefins (HFO) and a branched hydrocarbon, and a foamable polymer composition comprising the blowing agent composition. Also disclosed is a method of making a polymer foam utilizing a blowing agent composition comprising an HFO and a branched hydrocarbon.