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John R Campanelli

from West Columbia, SC
Age ~60
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Also known as:
John Richard Campanelli, John A Campanelli, John R Campenelli
Phone and address:
275 Lake Frances Dr, Cayce-West Columbia, SC 29170
(864) 286-1220
Related to:
Rosetta C Pieters, 92Anita Campanelli, 59Sara Campanelli, 30
Connected to:
Brent O Campanella, 70Carlo CampanelliCarrie E Campanella, 62Claudio CampanelliDon Campanese, 36Frank E Campanelli, 59Isabel J Campanelli, 35James J Campanelli, 65Josh M Campanella, 38Justin F Campanella, 75

John Campanelli Phones & Addresses

  • 275 Lake Frances Dr, West Columbia, SC 29170 (864) 286-1220
  • 14 Briarberry Ct, Greer, SC 29651 (864) 286-1220
  • Duncan, SC
  • 290 Nob Hill Dr, Akron, OH 44303 (330) 865-9945
  • Greenville, SC

Resumes

Resumes

John Campanelli Photo 1

Director, Information Technology At The National Football League (Retired)

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Location:
United States
Industry:
Information Technology and Services
Work:
The National Football League Jul 1987 - Jul 2009
Director, Information Technology
MCI Jan 1986 - Jul 1986
Sr. Computer Operator
Technicon Jan 1981 - 1983
Sr. Computer Operator
Education:
State University of New York College at Brockport 1979 - 1983
John Campanelli Photo 2

Senior Manager, Research And Development

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Location:
4681 Carvel Ct, Myrtle Beach, SC 29588
Industry:
Research
Work:
Zeus
Senior Manager, Research and Development
Zeus Jan 2015 - Jun 2018
Senior Research Engineer
Sealed Air Corporation Feb 2005 - Jan 2015
Principal Engineer, R and D, Food Care
The Goodyear Tire & Rubber Company 1998 - 2005
Research Engineer, Compound Science Department
Concordia University 1995 - 1998
Assistant Professor
Education:
Mcgill University Jan 1, 1989 - 1993
Doctorates, Doctor of Philosophy, Chemical Engineering Mcgill University Jan 1, 1982 - 1985
Bachelors, Chemical Engineering
Skills:
Polymers
R&D
Extrusion
Product Development
Plastics
Polymer Science
Materials
Manufacturing
Chemical Engineering
Process Engineering
Continuous Improvement
Commercialization
Coatings
Engineering
Polymer Chemistry
Six Sigma
Adhesives
Packaging
Composites
Compounding
Modeling
Resin
John Campanelli Photo 3

John Campanelli

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Industry:
Automotive
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John Campanelli

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John Campanelli

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John Campanelli Photo 6

John Campanelli

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Business Records

Name / Title
Company / Classification
Phones & Addresses
John Campanelli
FT. ERIE SPORTSMAN CLUB
Parma, OH

Publications

Us Patents

Method For Evaluating And Controlling A Mixing Process

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US Patent:
20040085851, May 6, 2004
Filed:
Nov 5, 2002
Appl. No.:
10/288179
Inventors:
John Campanelli - Akron OH, US
Cigdem Gurer - North Canton OH, US
Terry Rose - Akron OH, US
John Varner - Norton OH, US
International Classification:
B29B007/28
US Classification:
366/076700, 366/084000
Abstract:
A method for evaluating and controlling a mixing process for polymer-based compounds includes the steps: obtaining initial starting conditions and values for viscosity dependent parameters; increasing batch temperature by a differential amount; calculating mixing parameters such as batch temperature, dispersion, viscosity, and torque based upon fundamental kinetic, thermodynamic, and Theological models; determining whether an endpoint or end points of one or more mixing parameters has been achieved; and changing one or more conditions so as to achieve the desired endpoint(s).

Impact-Modified Polypropylene Composite

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US Patent:
20120328754, Dec 27, 2012
Filed:
Jun 21, 2011
Appl. No.:
13/165163
Inventors:
John R. Campanelli - Greer SC, US
Michael L. Becraft - Greer SC, US
Assignee:
CRYOVAC, INC. - Duncan SC
International Classification:
C08L 23/14
B65D 85/00
C08K 3/34
B82Y 30/00
US Classification:
426531, 524445, 977700, 977902
Abstract:
An impact-modified polypropylene composite is made by mixing from 65 to 97 weight parts polypropylene having a glass transition temperature of greater than −25 C., from 3 to 35 weight parts propylene-based elastomer having a density of from 0.860 g/cc to 0.875 g/cc, a melting point of from 130 C. to 170 C., a glass transition temperature of from −35 C. to −25 C., and a melt flow rate of from 3.0 to 15.0 g/10 minutes, and from 0.1 to 20 weight parts of exfoliated silicate platelets.

Crosslinked Ptfe

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US Patent:
20220298276, Sep 22, 2022
Filed:
Jun 7, 2022
Appl. No.:
17/834315
Inventors:
- Orangeburg SC, US
John Richard Campanelli - West Columbia SC, US
Patrick Cooper - Orangeburg SC, US
Justin A. Marro - Orangeburg SC, US
Douglas Lee Tourville - Orangeburg SC, US
Bhavya Singh - Orangeburg SC, US
International Classification:
C08F 114/26
A61L 29/04
B29C 48/00
B29C 48/10
B29C 71/04
Abstract:
The present application relates generally to tubes, such as thin walled catheter liners with small wall thicknesses (e.g., less than 1 mm), including crosslinked fluoropolymers, e.g., crosslinked poly(tetrafluoroethylene). The disclosure further provides methods of manufacturing such tubes and systems for manufacturing such tubes.

Dual Layer Heat Shrink Tubing

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US Patent:
20210370581, Dec 2, 2021
Filed:
May 27, 2021
Appl. No.:
17/332490
Inventors:
- Orangeburg SC, US
John Richard Campanelli - West Columbia SC, US
International Classification:
B29C 61/06
B29C 61/02
B29C 61/00
Abstract:
The present disclosure provides a dual layer heat shrink tube having: an inner polymeric layer with a thickness tand an outer diameter D; and an outer, expanded polymeric layer with a thickness t′ and an outer diameter D′ obtained by expanding a polymer tube from Dto D′ and tto t′ at a selected temperature so that D′−2(t′)>D, wherein a ring cut from a cross-section of the dual layer heat shrink tube, slit into a rectangle and gripped at cut ends by tension grips within a DMA, and subjected to a temperature sweep of 3 C./min at a frequency of 1 Hz from the onset of a melting endotherm of the inner polymeric layer to that of the outer, expanded polymeric layer is greater than 1 C. and less than 12 C. The disclosure further provides associated methods for preparing and using such tubes, as well as to products comprising such tubes.

Ptfe Liners With Reduced Coefficient Of Friction

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US Patent:
20210371638, Dec 2, 2021
Filed:
May 26, 2021
Appl. No.:
17/330956
Inventors:
- Orangeburg SC, US
John Richard Campanelli - West Columbia SC, US
Patrick Cooper - Orangeburg SC, US
Robert L. Ballard - Lexington SC, US
Douglas Lee Tourville - Orangeburg SC, US
International Classification:
C08L 27/18
A61M 39/08
Abstract:
The present disclosure provides extruded PTFE composite tubes with a reduced coefficient of friction (COF). In some embodiments, such extruded PTFE composite tubes may exhibit a reduced change in coefficient of friction between about 20 C. and about 40 C. with the inclusion of secondary polymeric particles with small particle sizes (

Polymeric Tubes With Controlled Orientation

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US Patent:
20190077067, Mar 14, 2019
Filed:
Oct 1, 2018
Appl. No.:
16/148826
Inventors:
- Orangeburg SC, US
John Richard Campanelli - Greer SC, US
Elizabeth A. Foley - Columbia SC, US
Bruce L. Anneaux - Lexington SC, US
Justin A. Marro - Orangeburg SC, US
International Classification:
B29C 55/26
A61L 31/06
A61L 31/14
A61L 31/16
Abstract:
Methods for preparing oriented polymer tubes, such as biodegradable polymer tubes suitable for in vivo use, are provided herein. The disclosed methods provide alternatives to the typical extrusion/expansion methods by which oriented polymeric tubes for such uses are commonly produced. Advantageously, the disclosed methods can provide more homogeneous molecular orientation of crystallizable polymers within the tube walls, which can endow such polymeric tubes with enhanced strength (e.g., resistance to compression) and toughness.

Polymer Alcoholysis

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US Patent:
20180051156, Feb 22, 2018
Filed:
Aug 16, 2017
Appl. No.:
15/678272
Inventors:
- Orangeburg SC, US
John Richard Campanelli - Greer SC, US
Bruce L. Anneaux - Lexington SC, US
International Classification:
C08J 11/24
C07C 51/09
B01J 14/00
B01J 19/00
B01J 13/00
B01D 15/34
Abstract:
A method for enhancing/accelerating the depolymerization of polymers (e.g., those containing hydrolyzable linkages) is described herein. The disclosed method generally involves contacting a polymer comprising hydrolyzable linkages with a solvent and an alcohol to give a polymer mixture in which the polymer is substantially dissolved, wherein the contacting is conducted at a temperature at or below the boiling point of the polymer mixture. A resulting depolymerized polymer can be separated therefrom (including, e.g., monomers and/or oligomers). Such methods can be conducted under relatively mild temperature and pressure conditions.
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John R Campanelli from West Columbia, SC, age ~60 Get Report