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Steven E Nutt, Age 691820 Beechwood Dr, Lafayette, IN 47905

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Known as:
Steve E Nutt
Related to:
Peter A Bianchi 78 Martha Nutt 37

Steven Nutt Phones & Addresses

Lafayette, IN

Crawfordsville, IN

Indianapolis, IN

Reseda, CA

Work

Company: University of southern california Address: 3601 Watts Way, Los Angeles, CA 90089 Phones: (213) 740-2986 Position: Senior associate dean for research viterbi school of engineering Industries: Schools and Educational Services

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Steven Nutt resumes & CV records

Resumes

Steven Nutt Photo 31

President Nutt Inc

Location:
United States
Industry:
Information Technology and Services
Steven Nutt Photo 32

Steven Nutt

Steven Nutt Photo 33

Steven Nutt

Steven Nutt Photo 34

Event Management Professional With Focus On Sports Seeking A New Opportunity

Location:
United States
Industry:
Sports
Steven Nutt Photo 35

Steven Nutt

Location:
United States

Publications & IP owners

Us Patents

Composite Foam Made From Polymer Microspheres Reinforced With Long Fibers

US Patent:
6864297, Mar 8, 2005
Filed:
Jul 21, 2003
Appl. No.:
10/624922
Inventors:
Steven R. Nutt - Irvine CA, US
Lev Vaikhanski - Encino CA, US
Assignee:
University of Southern California - Los Angeles CA
International Classification:
C08J009/232
C08J009/236
C08J009/24
US Classification:
521 54, 521 55
Abstract:
Composite foam based on expandable microspheres reinforced with fibers is described. Also disclosed are methods of making microsphere foam reinforced with fibers and methods of use thereof. The disclosure provides foam that performs equally and better than the performance of most thermoplastic foams commercially available.

Reinforced Phenolic Foam

US Patent:
2003018, Oct 2, 2003
Filed:
Mar 18, 2003
Appl. No.:
10/392316
Inventors:
Steven Nutt - Irvine CA, US
Hongbin Shen - Alhambra CA, US
International Classification:
C08J009/00
US Classification:
521/050000
Abstract:
Disclosed are compositions of short fiber reinforced phenolic foams, methods of making and using the same. The disclosed fiber-reinforced phenolic foams have a seven-fold increase in peel resistance over the unreinforced counterpart foam. The phenolic foam has enhanced fracture toughness without sacrificing the critical fire retardant properties.

Sandwich Panels With Subsonic Shear Wave Speed

US Patent:
2007013, Jun 14, 2007
Filed:
Jul 28, 2006
Appl. No.:
11/495901
Inventors:
Shankar Rajaram - Los Angeles CA, US
Tongan Wang - Savannah GA, US
Steven Nutt - Irvine CA, US
International Classification:
B32B 3/12
B32B 3/00
US Classification:
428116000, 428073000
Abstract:
Aircraft panels are formed of a honeycomb core material and the skin. The honeycomb core material and the skin are selected to provide subsonic wave speed across the panel, thereby reducing sound transmission.

Rigid Carbon Fiber Cores For Sandwich Composite Structures

US Patent:
2010032, Dec 23, 2010
Filed:
Jun 18, 2010
Appl. No.:
12/819151
Inventors:
Steven R. Nutt - Irvine CA, US
Yi-Jen Huang - Taipei, TW
International Classification:
B32B 1/04
B23P 17/00
US Classification:
428221, 295272
Abstract:
Described are Rigid fiber cores such as carbon fiber cores for sandwich composite structures. The carbon fiber cores may be fabricated into various truss configurations including pyramidal lattice truss. The carbon fiber cores may be filled with foams for enhanced mechanical performance.

Recovery And Reuse Of Acid Digested Amine/Epoxy-Based Composite Matrices

US Patent:
2022036, Nov 17, 2022
Filed:
Sep 18, 2020
Appl. No.:
17/761856
Inventors:
- Los Angeles CA, US
Steven NUTT - Los Angeles CA, US
Yijia MA - Los Angeles CA, US
Carlos NAVARRO - Los Angeles CA, US
Assignee:
UNIVERSITY OF SOUTHERN CALIFORNIA - Los Angeles CA
International Classification:
C08J 11/26
C08J 11/16
C08G 59/40
C08G 59/50
C08G 59/20
Abstract:
A method for recycling matrix residues includes steps of degrading a target epoxy to form matrix residues, collecting the matrix residues, and adding the matrix residues into a polymer-forming formulation. Characteristically, the polymer-forming formulation includes multifunctional anhydride monomers and polyfunctional co-reactant monomers.

Aerobic Depolymerization Of Fiber-Reinforced Composites

US Patent:
2019020, Jul 4, 2019
Filed:
Dec 27, 2018
Appl. No.:
16/234062
Inventors:
- Los Angeles CA, US
STEVEN NUTT - IRVINE CA, US
YIJIA MA - LOS ANGELES CA, US
CARLOS NAVARRO - LOS ANGELES CA, US
International Classification:
C08J 11/28
C01B 32/05
B01J 31/22
D01F 9/12
Abstract:
A method of aerobic depolymerization of fiber-reinforced polymer (FRP) composites using sustainable reagents and conditions. A cured matrix is digested into soluble monomers and oligomers by catalytic aerobic oxidation. Carbon fibers are removed for re-use, then the remaining material is treated and valuable monomers are isolated. The isolated monomers can be converted back into resin precursors for re-use. The method solves the problem created because the typically irreversible cure reaction impedes recycling and re-use of FRP composites.

Possible Relatives

Danny A Nutt  Dennis L Nutt  Darlene M Nutt  Donald D Nutt  Eric A Nutt  Gary D Nutt  Gordon S Nutt  Steven J Last  Steven M Johnson  Steven S Stamps 

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