John J Miskel from 17 Valley Way, Mendham, NJ 07945

Us Patents

Tertiary Amine Derivatives As Components Of Polymer Forming Systems
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US Patent:

54441277, Aug 22, 1995
Filed:

Sep 13, 1993
Appl. No.:

8/120625
Inventors:

John J. Miskel - Mendham NJ
Reuben H. Grinstein - Blue Bell PA
Stephen A. Fischer - Yardley PA
Assignee:

Henkel Corporation - Plymouth Meeting PA
International Classification:

C08G 5942
C08G 5950
US Classification:

525504
Abstract:

Curable systems for the preparation of polymeric products in which the curable system comprises an epoxy resin or an isocyanate, wherein the system contains a condensation reaction product of a) a polyamine having only one primary amino group and only one tertiary amino group, and a non-cyclic backbone containing from 1 to 18 carbon atoms; and b) at least one of urea, guanidine, guanylurea, thiourea, and a mono-N,N' alkyl substituted urea or thiourea having from 1 to 3 carbon atoms in the alkyl moieties.

Aqueous Carbonaceous Mixtures
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US Patent:

46344519, Jan 6, 1987
Filed:

May 10, 1985
Appl. No.:

6/732745
Inventors:

Stanley A. Lipowski - Livingston NJ
Jose L. Villa - Bridgewater NJ
John J. Miskel - Mendham NJ
Reuben H. Grinstein - Denville NJ
Assignee:

Diamond Shamrock Chemicals Company - Dallas TX
International Classification:

C10L 132
US Classification:

44 51
Abstract:

Aqueous carbonaceous mixtures such as water slurries of solid particulate carbonaceous materials having reduced viscosity, a stabilized network of carbonaceous materials in water and improved pumpability are obtained by using a condensation product of an aldehyde in aldehyde liberating composition, ketone and sulfur dioxide in a sulfur dioxide liberating composition as dispersant, the dispersant being present in an amount sufficient to reduce viscosity of the slurry, stabilize the network of carbonaceous materials in water and improve pumpability. An improved process for the condensation product is disclosed.

Amphoteric Water-In-Oil Self-Inverting Polymer Emulsion
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US Patent:

45526702, Nov 12, 1985
Filed:

Feb 22, 1985
Appl. No.:

6/704553
Inventors:

Stanley A. Lipowski - Livingston NJ
John J. Miskel - Mendham NJ
Assignee:

Diamond Shamrock Chemicals Company - Dallas TX
International Classification:

C09K 702
US Classification:

252 85C
Abstract:

An amphoteric water-in-oil self-inverting polymer emulsion is prepared which contains a copolymer of (1) a nonionic vinyl monomer and (2) an amphoteric vinyl monomer or a terpolymer of (1) a nonionic vinyl monomer, (2) an anionic vinyl monomer and (3) a cationic vinyl monomer in the aqueous phase, a hydrocarbon oil for the oil phase, a water-in-oil emulsifying agent and an inverting surfactant. An example of a copolymer is a copolymer of (1) a nonionic vinyl monomer such as acrylamide or methacrylamide and (2) an amphoteric vinyl monomer such as a reaction product of dimethylaminoethyl methacrylate and monochloroacetic acid. An example of a terpolymer is a terpolymer of (1) a nonionic vinyl monomer such as acrylamide or methacrylamide, (2) an anionic vinyl monomer such as sodium acrylate and (3) a cationic vinyl monomer such as a triethyl ammonium ethyl methacrylate methosulfate salt. The emulsion is useful in papermaking, treatment of sewage and industrial wastes, drilling muds and secondary and tertiary recovery of petroleum by water flooding.

Amphoteric Water-In-Oil Self-Inverting Polymer Emulsion
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US Patent:

43304508, May 18, 1982
Filed:

Oct 15, 1979
Appl. No.:

6/084986
Inventors:

Stanley A. Lipowski - Livingston NJ
John J. Miskel - Mendham NJ
Assignee:

Diamond Shamrock Corporation - Dallas TX
International Classification:

C08L 2706
C08L 2902
C08L 3102
C08L 3908
US Classification:

524547
Abstract:

An amphoteric water-in-oil self-inverting polymer emulsion is prepared which contains a copolymer of (1) a nonionic vinyl monomer and (2) an amphoteric vinyl monomer or a terpolymer of (1) a nonionic vinyl monomer, (2) an anionic vinyl monomer and (3) a cationic vinyl monomer in the aqueous phase, a hydrocarbon oil for the oil phase, a water-in-oil emulsifying agent and an inverting surfactant. An example of a copolymer is a copolymer of (1) a nonionic vinyl monomer such as acrylamide or methacrylamide and (2) an amphoteric vinyl monomer such as a reaction product of dimethylaminoethyl methacrylate and monochloroacetic acid. An example of a terpolymer is a terpolymer of (1) a nonionic vinyl monomer such as acrylamide or methacrylamide, (2) an anionic vinyl monomer such as sodium acrylate and (3) a cationic vinyl monomer such as a triethyl ammonium ethyl methacrylate methosulfate salt. The emulsion is useful in papermaking, treatment of sewage and industrial wastes, drilling muds and secondary and tertiary recovery of petroleum by water flooding.

Stabilizing Clayey Formations
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US Patent:

45058334, Mar 19, 1985
Filed:

Oct 3, 1983
Appl. No.:

6/538211
Inventors:

Stanley A. Lipowski - Livingston NJ
John J. Miskel - Mendham NJ
Martin J. Schick - New York NY
Assignee:

Diamond Shamrock Chemicals Company - Dallas TX
International Classification:

C09K 700
US Classification:

252 85C
Abstract:

Process for treating a clayey geological formation to prevent, inhibit or reduce swelling or migrating of clay particles in a formation by treating the formation with an effective amount of a quaternized oligomer which is the reaction product of a polyamine having a primary amino group and a tertiary amino group with a difunctional reactant to form a precondensate monomer which is then chain extended and quaternized by reaction with a dihalogenated hydrocarbon ether. A preferred oligomer is a product of: (I) about 1. 0 mole of a precondensate which is the reaction product of (A) from about 2. 0 to about 3. 0 mole of a polyamine having a primary amino group and a tertiary amino group, the polyamine having a non-cyclic backbone containing between 1 and 6 carbon atoms, with (B) about 1. 0 mole of a difunctional reactant which is a diester of a mixture of dicarboxylic acids such as adipic, glutaric and succinic acid, with (II) from about 1. 0 to about 1.

Process For Producing High Melt Flow Poly-Olefin Polymers
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US Patent:

39609871, Jun 1, 1976
Filed:

Sep 23, 1974
Appl. No.:

5/508137
Inventors:

Joseph M. Kelley - Westfield NJ
John J. Miskel - Mendham NJ
Assignee:

Dart Industries Inc. - Los Angeles CA
International Classification:

C08F 202
C08F 206
C08F 238
C08F29708
US Classification:

260878B
Abstract:

Propylene, for example, is polymerized with crystalline TiCl. sub. 3 --AlCl. sub. 3 and diethylaluminum monochloride catalyst at a rate of at least 300 lbs. polymer/lb. catalyst/hr. based on TiCl. sub. 3 with partial H. sub. 2 pressure of about 150 to about 1000 psi and sufficient total pressure to maintain propylene in liquid form. The resulting propylene homopolymer, while still containing active catalyst residues, is then reacted further with at least one additional alpha-olefin, preferably ethylene or ethylene-containing alpha-olefin mixtures in suitable amounts. The resulting waxy block copolymer has a melt flow of 40 to 400 as determined by ASTM-D-1238-62T at 230. degree. C.

Amphoteric Water-In-Oil Self-Inverting Polymer Emulsion
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US Patent:

43929176, Jul 12, 1983
Filed:

Oct 5, 1981
Appl. No.:

6/308175
Inventors:

Stanley A. Lipowski - Livingston NJ
John J. Miskel - Mendham NJ
Assignee:

Diamond Shamrock Corporation - Dallas TX
International Classification:

D21H 338
US Classification:

1621681
Abstract:

An amphoteric water-in-oil self-inverting polymer emulsion is prepared which contains a copolymer of (1) a nonionic vinyl monomer and (2) an amphoteric vinyl monomer or a terpolymer of (1) a nonionic vinyl monomer, (2) an anionic vinyl monomer and (3) a cationic vinyl monomer in the aqueous phase, a hydrocarbon oil for the oil phase, a water-in-oil emulsifying agent and an inverting surfactant. An example of a copolymer is a copolymer of (1) a nonionic vinyl monomer such as acrylamide or methacrylamide and (2) an amphoteric vinyl monomer such as a reaction product of dimethylaminoethyl methacrylate and monochloroacetic acid. An example of a terpolymer is a terpolymer of (1) a nonionic vinyl monomer such as acrylamide or methacrylamide, (2) an anionic vinyl monomer such as sodium acrylate and (3) a cationic vinyl monomer such as a triethyl ammonium ethyl methacrylate methosulfate salt. The emulsion is useful in papermaking, treatment of sewage and industrial wastes, drilling muds and secondary and tertiary recovery of petroleum by water flooding.

Preparation Of Amphoteric Water-In-Oil Self-Inverting Polymer Emulsion
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US Patent:

43638864, Dec 14, 1982
Filed:

Sep 4, 1981
Appl. No.:

6/299619
Inventors:

Stanley A. Lipowski - Livingston NJ
John J. Miskel - Mendham NJ
Assignee:

Diamond Shamrock Corporation - Dallas TX
International Classification:

C08L 2706
C08L 2902
C08L 3102
C08L 3908
US Classification:

523336
Abstract:

An amphoteric water-in-oil self-inverting polymer emulsion is prepared which contains a copolymer of (1) a nonionic vinyl monomer and (2) an amphoteric vinyl monomer or a terpolymer of (1) a nonionic vinyl monomer, (2) an anionic vinyl monomer and (3) a cationic vinyl monomer in the aqueous phase, a hydrocarbon oil for the oil phase, a water-in-oil emulsifying agent and an inverting surfactant. An example of a copolymer is a copolymer of (1) a nonionic vinyl monomer such as acrylamide or methacrylamide and (2) an amphoteric vinyl monomer such as a reaction product of dimethylaminoethyl methacrylate and monochloroacetic acid. An example of a terpolymer is a terpolymer of (1) a nonionic vinyl monomer such as acrylamide or methacrylamide, (2) an anionic vinyl monomer such as sodium acrylate and (3) a cationic vinyl monomer such as a triethyl ammonium ethyl methacrylate methosulfate salt. The emulsion is useful in papermaking, treatment of sewage and industrial wastes, drilling muds and secondary and tertiary recovery of petroleum by water flooding.

Resumes

John Miskel

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Location:

4 Village Cir, Mendham, NJ 07945

Industry:

Insurance

Work:

Insurance Executives, Inc.
Semi Retired
Life & Absence Management Administration Solutions A Division of Benefit Harbor Insurance Services Feb 2018 - Oct 2019
Chief Executive Officer
Zurich Insurance Company Ltd Feb 2018 - Oct 2019
Head of Corporate Life and Pensions Global Life Na
Aon Nov 2011 - Jan 2015
Vice President of Sales, Absence Management
Aetna Apr 2006 - Feb 2011
Vice President of Sales, Group Insurance

Education:

James Madison University 2011 - 2012
Bachelors, Bachelor of Business Administration James Madison University 1977 - 1981
Bachelors, Bachelor of Business Administration, Bachelor of Science, Marketing, Management West Morris Mendham High School

Skills:

Account Management
Crm
Sales
Sales Management
Business Development
New Business Development
Call Centers
Management
Salesforce.com
Employee Benefits
Insurance
Sales Operations
Strategy
Health Insurance
Outsourcing
Sales Process

Interests:

Children
Environment
Education
Human Rights
Health

Certifications:

Life Health Accident & Annuity
Life Accident & Annuity License