Professional Records
License Records
Neil Banard Kimerer
Address:
2192 N Oak Ln, State College, PA 16803
License #:
A5228386
Category:
Airmen
Neil Kimerer Phones & Addresses
-
2192 Oak Ln, State College, PA 16803 (814) 238-2433
-
Harrisburg, PA
-
Boalsburg, PA
-
2192 N Oak Ln, State College, PA 16803
Work
Company:
Penn state university Feb 1990 to Jun 2013
Position:
Engineer
Education
Degree:
Bachelors, Bachelor of Science
School / High School:
University of Oklahome 1971 to 1975
Specialities:
Engineering
Skills
Stress Analysis • Load Cells • Finite Element Analysis • Matlab • Solidworks • Simulations • Autocad • Engineering • Ansys • C++ • Labview • Mechanical Engineering • C
Industries
Higher Education
Resumes
Resumes
Neil Kimerer
View pageLocation:
State College, PA
Industry:
Higher Education
Work:
Penn State University Feb 1990 - Jun 2013
Engineer
Engineer
Education:
University of Oklahome 1971 - 1975
Bachelors, Bachelor of Science, Engineering Shimer College
Bachelors, Bachelor of Science, Engineering Shimer College
Skills:
Stress Analysis
Load Cells
Finite Element Analysis
Matlab
Solidworks
Simulations
Autocad
Engineering
Ansys
C++
Labview
Mechanical Engineering
C
Load Cells
Finite Element Analysis
Matlab
Solidworks
Simulations
Autocad
Engineering
Ansys
C++
Labview
Mechanical Engineering
C
Business Records
Name / Title
Company / Classification
Phones & Addresses
Branch Manager
The Pennsylvania State University
College/University · Noncommercial Research Organization College/University
College/University · Noncommercial Research Organization College/University
3075 Research Dr, State College, PA 16801
PO Box 30, State College, PA 16804
(814) 863-4214, (814) 863-9896, (814) 865-6531
PO Box 30, State College, PA 16804
(814) 863-4214, (814) 863-9896, (814) 865-6531
Publications
Us Patents
Beam Strain Gauge
View pageUS Patent:
59627921, Oct 5, 1999
Filed:
Jun 2, 1997
Appl. No.:
8/867289
Inventors:
Neil B. Kimerer - State College PA
Assignee:
The Penn State Research Foundation - University Park PA
International Classification:
G01B 716
G01L 104
G01L 104
US Classification:
73772
Abstract:
Disclosed is a beam strain gauge to measure strain in a material which incorporates the theory of beam mechanics and the use of a full Wheatstone bridge circuit. In all cases the beam or beams used are not attached directly to the material to be measured, thereby making the beam or beams insensitive to transverse strain. The use of beam mechanics allows the use of the full Wheatstone bridge circuit, which has many desirable properties for strain measurement. Some of these properties are self compensation for temperature and a higher gauge output signal. The beam strain gauge can be employed using silicon chip technology and provides many advantages over the current conventional strain gauges.
Beam Strain Gauge
View pageUS Patent:
62305719, May 15, 2001
Filed:
Aug 23, 1999
Appl. No.:
9/378804
Inventors:
Neil B. Kimerer - State College PA
Assignee:
The Penn State Research Foundation - University Park PA
International Classification:
G01L 104
US Classification:
73862638
Abstract:
Disclosed is a beam strain gauge to measure strain in a material which incorporates the theory of beam mechanics and the use of a full Wheatstone bridge circuit. In all cases the beam or beams used are not attached directly to the material to be measured, thereby making the beam or beams insensitive to transverse strain. The use of beam mechanics allows the use of the full Wheatstone bridge circuit, which has many desirable properties for strain measurement. Some of these properties are self compensation for temperature and a higher gauge output signal. The beam strain gauge can be employed using silicon chip technology and provides many advantages over the current conventional strain gauges.
Beam Accelerometer
View pageUS Patent:
6298733, Oct 9, 2001
Filed:
Aug 23, 1999
Appl. No.:
9/378805
Inventors:
Neil B. Kimerer - State College PA
Assignee:
The Penn State Research Foundation - University Park PA
International Classification:
G01N 332
US Classification:
73814
Abstract:
An accelerometer includes a bottom leg, two side legs, a beam, two support strips, a mass, a loading column, and at least one resistor mounted on the beam. The two side legs extend upwardly from the bottom leg, and a lower end of each side leg is connected to the bottom leg. The beam is fixed above the bottom leg and between the side legs, and is connected to each of the side legs. The two support strips extend from the side legs toward each other, and the mass is mounted above the beam and connected to the side legs by the support strips. The loading column connects the mass and the beam, such that an acceleration experienced by the mass causes a bending in said beam.