ROBERT CHARLES TURNER
Pilots at Walnut Tree Loop, Georgetown, TX

2007027, Nov 22, 2007

May 8, 2007

11/800995

Robert B. Turner - Georgetown TX, US
Thomas Kurth - Applegate OR, US

C08G 18/00

528 44

Polyurethane curable systems that contain an aminated glycerol as a catalyst to enhance the cure rate of the systems. The systems are based on polyoxyalkylene polyols that can be either polyether or polyester polyols. In addition, the polyols can be those that are provided by natural oils, such as soybean, corn oils, and the like. The polyols are typically dihydroxy functional, but can be tri- or quadra-functional or more. The systems are comprised of the reaction of such polyols with organic isocyanates, including the use of chain extenders from diols, or a mixture of triols and diols, such that the overall functionality of the mixture is generally less than 2.3. The organic isocyanates are also at least di-functional and can be tri- or greater functional, with regard to the isocyanate groups used on such molecules. The polyurethane systems can be, for example, elastomers, sealants, adhesives, or foamable systems.

2002005, May 16, 2002

Aug 31, 2001

09/944212

Thomas Kurth - Princeton IL, US
Richard Kurth - Walnut IL, US
Robert Turner - Georgetown TX, US
Les Kreifels - Marseilles IL, US
Todd Van Thomme - Grand Rapids MI, US

C08G018/40, C08B037/00

527/301000, 536/119000, 536/053000

The present invention includes a polyol produced according to the process comprising reacting a multifunctional alcohol with a first multifunctional component to form a reaction product and reacting the reaction product with a vegetable oil to form a polyol. The present invention also relates to the material comprising the reaction product of an A-side and a B-side, wherein the A-side comprises an isocyanate and the B-side comprises the product formed by the process comprising the steps of reacting a multifunctional alcohol with a first multifunctional component to form a precursor polyol and then reacting the precursor polyol with a vegetable oil to form a vegetable based polyol with selectable functionality.

7063877, Jun 20, 2006

Oct 10, 2001

09/974302

Thomas M. Kurth - Princeton IL, US
Richard A. Kurth - Walnut IL, US
Robert B. Turner - Georgetown TX, US
Les P. Kreifels - Marseilles IL, US

Urethane Soy Systems Company, Inc. - Volga SD

B32B 33/00

428 95, 428 97

The present invention includes a bio-based carpet material that includes tufts, a backing, a pre-coat, and a backing material wherein the pre-coat includes the reaction product of a pre-coat A-side having a pre-coat isocyanate and a pre-coat B-side and the backing material includes the reaction product of a backing material A-side having a backing material B-side. The pre-coat B-side and the backing material B-side may include a polyol at least partially derived from petroleum, a vegetable oil, and/or a transesterified polyol and a cross-linker and a catalyst.

7084230, Aug 1, 2006

May 12, 2004

10/843943

Thomas M. Kurth - Princeton IL, US
Richard A. Kurth - Walnut IL, US
Robert B. Turner - Georgetown TX, US
Les P. Kreifels - Marseilles IL, US

Urethane Soy Systems Company, Inc. - Volga SD

C08G 18/48

528 745, 521172, 521173, 521174

The present invention generally includes material comprising the reaction product of an A-side comprising an isocyanate and a B-side comprising a crosslinker, a catalyst, and a modified vegetable oil. The present invention also generally includes a material comprising the reaction product of an A-side comprising an isocyanate and a B-side comprising an oxylation compound, a modified vegetable oil, and a catalyst.

7595094, Sep 29, 2009

Jan 25, 2005

11/042980

Thomas M. Kurth - Princeton IL, US
Richard A. Kurth - Walnut IL, US
Robert B. Turner - Georgetown TX, US
Les P. Kreifels - Marseilles IL, US

Urethane Soy Systems, Co. - Dover IL

B05D 1/34

4273899, 427426, 4274272, 4274273

A method for manufacturing a carpet material that typically includes applying a coating To a substrate where the coating includes the reaction product of a B-side that includes an esterified vegetable oil-based polyol and a catalyst and an A-side that includes an isocyanate and the reaction product of a B-side that includes a vegetable oil-based polyol and a catalyst and an A-side that includes an isocyanate. The polyols may optionally be blown, oxylated, and/or neutralized.

8062710, Nov 22, 2011

Sep 29, 2009

12/569457

Thomas M. Kurth - Princeton IL, US
Richard A. Kurth - Walnut IL, US
Robert B. Turner - Georgetown TX, US
Les P. Kreifels - Marseilles IL, US

Urethane Soy Systems Company - Volga SD

B05D 1/00

4273899, 427394, 427243

A method for manufacturing a carpet material that typically includes applying a coating to a substrate where the coating includes the reaction product of a B-side that includes an esterified vegetable oil-based polyol and a catalyst and an A-side that includes an isocyanate and the reaction product of a B-side that includes a vegetable oil-based polyol and a catalyst and an A-side that includes an isocyanate. The polyols may optionally be blown, oxylated, and/or neutralized.

2009022, Sep 10, 2009

May 22, 2009

12/470630

Thomas M. Kurth - Princeton IL, US
Richard A. Kurth - Walnut IL, US
Robert B. Turner - Georgetown TX, US
Les P. Kreifels - Marseilles IL, US

D05C 15/04

156 72

A method of making a bio-based carpet material that includes the steps of: providing a griege goods having a top surface and a bottom surface; applying a pre-coat material to the bottom surface of the griege goods to form a pre-coated griege good; and applying a backing material to the bottom surface of the pre-coated griege good. The backing material includes the reaction product of a backing material A-side that has an isocyanate and a backing material B-side that has a transesterified blown vegetable oil which is the result of a heated combination of a blown vegetable oil, a multifunctional compound and a catalyst.

8575226, Nov 5, 2013

Jan 25, 2005

11/042972

Thomas M. Kurth - Princeton IL, US
Richard A. Kurth - Walnut IL, US
Robert B. Turner - Georgetown TX, US
Les P. Kreifels - Marseilles IL, US

Rhino Linings Corporation - San Diego CA

C08G 18/28

521172, 521 841, 5211091, 521117, 521137, 521170, 521173, 521174, 528 55, 528 75, 528 85

A building material composite that includes a building substrate at least partially lined with a urethane material. The urethane material of the present invention is typically the reaction product of an A-side that includes an isocyanate and a B-side that typically includes: a blown vegetable oil, a cross-linking agent, and a catalyst; a blown vegetable oil and a multifunctional alcohol; or an esterified polyol and a catalyst where the esterified polyol is typically the reaction product of a first polyol and a blown vegetable oil.

8449946, May 28, 2013

Nov 21, 2011

13/301305

Thomas M. Kurth - Princeton IL, US
Richard A. Kurth - Walnut IL, US
Robert B. Turner - Georgetown TX, US
Les P. Kreifels - Marseilles IL, US

Tandem Polymers, Inc. - San Diego CA

B05D 1/34

4273855, 4274211, 427426, 4274274

A method of applying a urethane material to a vehicle substrate that includes the steps of: providing a vehicle substrate; and applying a urethane material to the vehicle substrate where the urethane material typically includes the reaction product of an A-side that includes an isocyanate and a B-side that typically includes a blown soy oil, at least one polyol at least partially derived from petroleum, and a cross-linker. A vehicle composite that typically includes the vehicle substrate and the urethane material.

6979477, Dec 27, 2005

Dec 4, 2001

10/004733

Thomas M. Kurth - Princeton IL, US
Richard A. Kurth - Walnut IL, US
Robert B. Turner - Georgetown TX, US
Les P. Kreifels - Marseilles IL, US

Urethane Soy Systems Company - Volga SD

B05D001/02

427426

A vegetable oil-based coating and a method for applying the coating to a substrate where the coating includes the reaction product of a transesterified vegetable oil-based polyol, a catalyst, and an isocyanate; the reaction product of a vegetable oil based polyol, a cross-linker, a catalyst, and an isocyanate where the vegetable-oil based polyol may optionally be oxylated and/or neutralized.