Bin S Lee, 68211 Windsor Dr, Moon Twp, PA 15108

6773756, Aug 10, 2004

Mar 20, 2002

10/101779

Sven Meyer-Ahrens - Leverkusen, DE
Thomas J. Matwiczyk - Bloomfield Hills MI
Bin Lee - Coraopolis PA
Michael A. Blaszkiewicz - Gibsonia PA
Walter Guarnieri - Leverkusen, DE

Bayer Polymers LLC - Pittsburgh PA
Bayer Aktiengesellschaft - Leverkusen

B05D 302

4273855, 427244, 427356, 427370, 427373, 427421, 264309, 264319, 2643281, 26432814, 26432816, 264330, 26433111, 264334, 264340

The present invention is directed to a process for the manufacture of three-dimensional acoustically sound automotive insulation parts. In particular, the process includes mixing a two component polyurethane resin, applying the resin to a substrate, molding the substrate and then trimming and demolding the resin applied substrate.

7285316, Oct 23, 2007

May 14, 2004

10/845990

Sven Meyer-Ahrens - Leverkusen, DE
Thomas J. Matwiczyk - Bloomfield Hills MI, US
Bin Lee - Coraopolis PA, US
Michael A. Blaszkiewicz - Gibsonia PA, US
Walter Guarnieri - Leverkusen, DE

Bayer MaterialScience LLC - Pittsburgh PA
Bayer Aktiengesellschaft - Leverkusen

B32B 3/12
B32B 3/06
B32B 27/00

428160, 428158, 4282974, 4283066, 4283084, 42831111, 4284231, 428116

The present invention is directed to a process for the manufacture of three-dimensional acoustically sound automotive insulation parts. In particular, the process includes mixing a two component polyurethane resin, applying the resin to a substrate, molding the substrate and then trimming and demolding the resin applied substrate.

2008022, Sep 18, 2008

Mar 15, 2007

11/724439

Bin Lee - Coraopolis PA, US
Richard W. Mitesser - Pittsburgh PA, US

C08G 18/00

521128

Water-blown polyurethane foams are made by reacting a polyisocyanate with a polyol component which includes at least one polyether polyol in the presence of water and a modified, non-fugitive amine catalyst.

5538786, Jul 23, 1996

Aug 31, 1995

8/521672

Michael F. Hurley - Oakdale PA
Clifford J. Lau - Sewickley PA
Bin Lee - Coraopolis PA

Bayer Corporation - Pittsburgh PA

B32B 520

4283133

This invention relates to a reaction injection molding process for preparing a molded product by reaction of a mixture of (a) an organic polyisocyanate; (b) one or more compounds containing at least two isocyanate-reactive groups; (c) about 2 to about 20% by weight, based on the weight of the molded product, of rigid fibers having a diameter of from about 5 to about 10 micrometers and a length ranging from the diameter of the fiber up to about 2 millimeters, preferably in admixture with component (b); and, optionally, (d) an inert gas dissolved in at least one of components (a) or (b) in an amount sufficient to produce a molded product having a density of at least 0. 80 g/cm. sup. 3 ; and (e) up to 15% by weight, based upon the weight of the molded product, of a filler other than rigid fibers (c).

5731367, Mar 24, 1998

Feb 4, 1997

8/794715

Bin Lee - Coraopolis PA

Bayer Corporation - Pittsburgh PA

C08J 932

523219

This invention relates to a reaction injection molding process for preparing a molded product comprising reacting, at an isocyanate index of about 70 to about 130, (a) an organic polyisocyanate; (b) one or more isocyanate-reactive compounds containing at least two isocyanate-reactive groups; (c) about 0. 5 to about 40% by weight, based on the weight of the molded product, of rigid microspheres, wherein at least 95% of said microspheres have a particle size range of about 10. mu. m to about 400. mu. m and a median diameter of at least 120. mu. m, (d) optionally, an inert gas dissolved in at least one of components (a) or (b) in an amount sufficient to produce a molded product having a density that is at least 1% less than the density of a molded product prepared in the same manner without using an inert gas but which is at least 0. 2 g/cm. sup. 3 ; (e) 0 to 45% by weight, based upon the weight of the molded product, of a reinforcing filler other than rigid microspheres; and (f) optionally, a blowing agent.

5919976, Jul 6, 1999

Dec 8, 1997

8/986702

Bin Lee - Coraopolis PA
Harold Pielartzik - Krefeld, DE
Gundolf Jacobs - Rosrath, DE

Bayer Corporation - Pittsburgh PA

C07C 6100

562120

A process for incorporating sulfonic acid groups in the structure of an aliphatic, non-polar, water insoluble compound is disclosed. In the process the compound is first dissolved in an appropriate solvent and is then reacted in the presence of a catalyst and oxygen with an aqueous sulfite solution. The sulfonation renders the compound polar and water absorbent and, therefore, suitable in a variety of applications.

5468432, Nov 21, 1995

Apr 4, 1995

8/416103

Michael F. Hurley - Oakdale PA
Clifford J. Lau - Sewickley PA
Bin Lee - Coraopolis PA

Bayer Corporation - Pittsburgh PA

B29C 4500

264 453

This invention relates to a reaction injection molding process for preparing a molded product by reaction of a mixture of (a) an organic polyisocyanate; (b) one or more compounds containing at least two isocyanate-reactive groups; (c) about 2 to about 20% by weight, based on the weight of the molded product, of rigid fibers having a diameter of from about 5 to about 10 micrometers and a length ranging from the diameter of the fiber up to about 2 millimeters, preferably in admixture with component (b); and, optionally, (d) an inert gas dissolved in at least one of components (a) or (b) in an amount sufficient to produce a molded product having a density of at least 0. 80 g/cm. sup. 3 ; and (e) up to 15% by weight, based upon the weight of the molded product, of a filler other than rigid fibers (c).

5278197, Jan 11, 1994

Jul 6, 1993

8/087954

Gundolf Jacobs - Pittsburgh PA
Bin Lee - Coraopolis PA

Miles Inc. - Pittsburgh PA

C08J 912
C08J 914

521121

A soft, flexible foam characterized in having (i) a hardness, IFD 25% value, of at most 29 lbs/50 in. sup. 2, as determined in accordance with Test B. sub. 1 of ASTM D 3574 and (ii) a density of about 0. 9 to 3. pounds per cubic foot is disclosed. Accordingly, the foam is prepared by reacting an organic polyisocyanate with a polyol in the presence of a catalyst and water and a compound conforming to ##STR1## where A is selected from among H, COOH, NH. sub. 2, and OH, M is a counter ion, and where n, x and m are selected such that said compound has a number average molecular weight of about 500 to 20,000, a functionality of 0 to 10 and a sulfonate concentration of about 0. 1 to 30 percent by weight.