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John B Macchesney

from Lebanon, NJ
Deceased
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Also known as:
John Machesney, Mac John, John Y
Phone and address:
2 Cratetown Rd, Lebanon, NJ 08833
(908) 236-2794
Related to:
Elyse Marie Finger, 32
Connected to:
Lawrence Maccherone, 63Alan K Macchi, 77Albert J Macchi, 73Alysia K Macchia, 61Ann Macchia, 67Anthony L Macchiarulo, 62Anthony J Macchia, 48Brandy A Macchia, 51Carlos E Macchiavello, 60Danielle Macchi, 35

John Macchesney Phones & Addresses

  • 2 Cratetown Rd, Lebanon, NJ 08833 (908) 236-2794
  • State College, PA
  • Horsham, PA
  • Lambertville, NJ
  • Nesquehoning, PA

Work

Company: Mac's tree farm Jun 2000 Position: Part owner

Education

School / High School: Leigh Carrier and Technical Institute- Schnicksville, PA 2012 Specialities: CDL licence in CDL Type A with HASMAT, Air brake and tanker indorcement

Skills

Truck driving • forklift operation • customer relations • computers as well as most popular comput... • photo shop • Adobe illustrator) mechanics • plumbing • electrical repairs

Resumes

Resumes

John Macchesney Photo 1

John Macchesney Nesquehoning, PA

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Work:
Mac's Tree Farm

Jun 2000 to 2000
Part owner
The Home Depot
Flemington, NJ
Jul 2007 to Jan 2009
Sales
Flemington Car and Truck Country

Jan 2000 to Jul 2007
New and pre-owned vehicle sales
Education:
Leigh Carrier and Technical Institute
Schnicksville, PA
2012 to 2012
CDL licence in CDL Type A with HASMAT, Air brake and tanker indorcement
Skills:
Truck driving, forklift operation, customer relations, computers as well as most popular computer programs. (Word Excel, photo shop, Adobe illustrator) mechanics, plumbing, electrical repairs

Business Records

Name / Title
Company / Classification
Phones & Addresses
John B. Macchesney
Principal
John Macchesney Consulting LLC
Business Consulting Services
2 Cratetown Rd, Lebanon, NJ 08833

Publications

Us Patents

Process Entailing Sol-Gel Production Of Silica Glass

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US Patent:
6386002, May 14, 2002
Filed:
Nov 17, 1997
Appl. No.:
08/971460
Inventors:
Suhas Dattatreya Bhandarkar - Glen Gardner NJ
John Burnette MacChesney - Lebanon NJ
Thomas Edward Stockert - Millburn NJ
Assignee:
Fitel USA Corporation - Norcross GA
International Classification:
C03B 3716
US Classification:
65395, 423338, 2523156, 2523132
Abstract:
A silica-water dispersion suitable for use as a sol for sol-gel fabrication is produced from a silica-water mixture with addition of alkaline agent. The agent functions to increase viscosity so as to improve dispersing efficiency during shear mixing.

Sol Gel Method Of Making An Optical Fiber With Multiple Apetures

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US Patent:
6467312, Oct 22, 2002
Filed:
Jul 11, 2000
Appl. No.:
09/613320
Inventors:
Yoram De Hazan - Oley PA
John Burnette MacChesney - Lebanon NJ
Thomas Edward Stockert - Millburn NJ
Dennis J Trevor - Clinton NJ
Robert Scott Windeler - Annandale NJ
Assignee:
Fitel USA Corp. - Norcross GA
International Classification:
C03B 37025
US Classification:
65395, 65 172
Abstract:
The disclosed method of making microstructured optical fiber comprises providing a mold, with a multiplicity of elongate elements extending into the mold and being maintained in a predetermined spatial arrangement with respect to the mold. Silica-containing sol is introduced into the mold and is caused to or permitted to gel, such that a gel body results. After removing the elongate elements from the gel body and removing the gel body from the mold, the gel body is dried, sintered and purified, and the microstructured fiber is drawn from the sintered body.

Apparatus And Method For Handling Extruded Tubes

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US Patent:
6521156, Feb 18, 2003
Filed:
Oct 12, 1999
Appl. No.:
09/415746
Inventors:
Jeffrey Linn Bream - Bethlehem PA
George John Shevchuk - Old Bridge NJ
Philip Habbauer - Millington NJ
Thomas Edward Stockert - Millburn NJ
John Burnette MacChesney - Lebanon NJ
Assignee:
Fitel USA Corp. - Norcross GA
International Classification:
B29C 4708
US Classification:
26421112, 425190, 425377, 65401
Abstract:
A tube take-up apparatus is provided to handle a length of freshly extruded tube. The apparatus includes an elongated housing in which a pair of parallel, spaced-apart rollers extend lengthwise in a position just below the extruded tubing. The housing is removably mounted on an elongated supporting fin which is secured to the extruder at its near end, extends upwardly between the two rollers and substantially along the entire length of the housing, and is, in turn, supported on a fixed pedestal at its remote end. After the full length of tubing has been extruded, the housing and rollers as a unit are lifted with the tube from the supporting fin and replaced by an empty housing, to extrude the next tube, while the full housing is carried away to a dryer.

Manufacture Of Silica Bodies Using Sol-Gel Techniques

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US Patent:
6571582, Jun 3, 2003
Filed:
Apr 19, 2001
Appl. No.:
09/838727
Inventors:
Suhas Bhandarkar - Glen Gardner NJ
Yoram De Hazan - Oley PA
John Burnette MacChesney - Lebanon NJ
Thomas Edward Stockert - Millburn NJ
Assignee:
Fitel USA Corp. - Norcross GA
International Classification:
C03B 37016
US Classification:
65395, 65 172, 264621, 501 12
Abstract:
The use of silica powders having large particle sizes in making sol-gel silica bodies has been found to have important advantages. Among these are higher gel strength, higher silica loading, more rapid aging and drying of the gel, a reduction in the amount of organic additives leading to reduced process time required for organic burn-off, and easier removal of contaminant particles due to their larger size. It was also discovered that spherical particle morphology contributes to the improved properties.

Manufacture Of Depressed Index Optical Fibers

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US Patent:
6715322, Apr 6, 2004
Filed:
Jan 5, 2001
Appl. No.:
09/755914
Inventors:
Yoram De Hazan - Oley PA
John Burnette MacChesney - Lebanon NJ
Thomas Edward Stockert - Millburn NJ
Christopher Alan White - Basking Ridge NJ
Assignee:
Lucent Technologies Inc. - Murray Hill NJ
International Classification:
C03C 2100
US Classification:
65397, 65399
Abstract:
The process time required for fluorine doping of porous silica bodies to produce fluorine doped preforms for the manufacture of depressed index optical fibers is reduced by separating the doping step into a predeposit step, where âexcessâ fluorine is deposited on the silica particles, and a drive-in step where atomic fluorine is distributed into the silica particles. The drive-in step is conveniently combined with the sintering or consolidation step to further enhance the efficiency of the doping process.

Optical Fiber Design For Secure Tap Proof Transmission

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US Patent:
6801700, Oct 5, 2004
Filed:
Apr 24, 2002
Appl. No.:
10/128876
Inventors:
John Burnette MacChesney - Lebanon NJ
Thomas Edward Stockert - Millburn NJ
Patrick William Wisk - Greenbrook NJ
Man Fei Yan - Berkeley Heights NJ
Assignee:
Fitel USA Corp - Norcross GA
International Classification:
G02B 602
US Classification:
385127, 385101, 398 40
Abstract:
The specification describes optical fibers that are constructed to prevent theft of optical signals. One construction is designed to block access of the core of the fiber to the âwritingâ radiation necessary to form a grating tap. In this embodiment the optical fiber cladding is provided with a highly absorbing UV layer. In a variation of this embodiment, one or more additional optical paths are provided in the optical fiber to accommodate monitoring signals. The added optical paths allow monitoring signals to be transmitted in the optical fiber, separate from the information signal, to signal an attempt to breach the outer coating or the cladding of the optical fiber. A second case of intrusion is addressed by increasing the sensitivity of the optical fiber to microbending loss to the extent that bends in the fiber cause such high attenuation of the signal that the bends do not go undetected at the receiving station.

Controlled Collapse Of Depressed Index Optical Fiber Preforms

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US Patent:
6802191, Oct 12, 2004
Filed:
Apr 19, 2001
Appl. No.:
09/837983
Inventors:
Yoram De Hazan - Oley PA
John Burnette MacChesney - Lebanon NJ
Eric M. Monberg - Princeton NJ
Thomas Edward Stockert - Millburn NJ
Assignee:
Lucent Technologies Inc. - Murray Hill NJ
International Classification:
C03C 2560
US Classification:
65397, 65399, 65414, 65415, 65427
Abstract:
The doped silica core region of a core rod for an optical fiber preform is protected against unwanted fluorine doping during fluorine doping of the outer silica layer by selectively consolidating the core region prior to fluorine doping. Due to dopants in the core region, the soot in the core region consolidates before the soot in the outer undoped region. This inherent property allows the entire core rod to be heated prior to fluorine doping resulting in selective partial consolidation and preventing fluorine doping of the doped center core region. The process time required may be reduced by using incremental fluorine doping. In the incremental doping process the doping step is separated into a deposit step, where âexcessâ fluorine is deposited on the silica particles, and a drive-in step where atomic fluorine is distributed into the silica particles. The drive-in step is conveniently combined with the sintering or consolidation step to further enhance the efficiency of the doping process.

Manufacture Of Silica Bodies Using Sol-Gel Techniques

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US Patent:
7100400, Sep 5, 2006
Filed:
Mar 4, 2003
Appl. No.:
10/378769
Inventors:
Suhas Bhandarkar - Alfred NY, US
Yoram De Hazan - South Plainfield NJ, US
John Burnette MacChesney - Lebanon NJ, US
Thomas Edward Stockert - Milburn NJ, US
Assignee:
Furukawa Electric NA - Norcross GA
International Classification:
C03B 37/016
C03C 3/00
US Classification:
65395, 65 172, 264621, 501 12
Abstract:
The use of large dense vitreous spherical (LDVS) silica powders for making sol-gel silica bodies has been found to have important advantages. Among these are higher gel strength, higher silica loading, more rapid aging and drying of the gel, a reduction in the amount of organic additives leading to reduced process time required for organic burn-off, and easier removal of contaminant particles due to their larger size. It was also discovered that combining LDVS particles with conventional non-spherical, lower density, aggregate particle mixtures, further improves the process.
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John B Macchesney from Lebanon, NJDeceased Get Report