Daniel J Jossick

US Patent:

20020020468, Feb 21, 2002

Filed:

Aug 21, 2001

Appl. No.:

09/934100

Inventors:

Jerry Schuster - Newfields NH, US
Daniel Jossick - Exeter NH, US

International Classification:

B23K035/34

US Classification:

148/026000, 148/023000

Abstract:

A method of making a brazing flux compound including the steps of dispensing a desired amount of each of a plurality of ingredients. Adding potassium bifluoride to a bowl and adding boric acid on top of the potassium bifluoride. Mixing the boric acid and potassium bifluoride to form a substantially smooth wet first paste. Adding potassium tetraborate to the first paste and mixing the potassium tetraborate with the first paste to form a substantially creamy second paste. Adding potassium fluoroborate to the second paste and mixing the potassium fluoroborate with the second paste to form a third paste. Adding potassium carbonate to the third paste and mixing until the potassium carbonate is completely dissolved thus forming a fourth paste. Heating the fourth paste for a predetermined time at a predetermined temperature such that the said fourth paste is substantially dried into a substantially solid flux and then reducing the substantially solid flux to a powder flux.

US Patent:

20070251602, Nov 1, 2007

Filed:

Nov 9, 2006

Appl. No.:

11/558400

Inventors:

Paul Gagnon - Saunderstown RI, US
Michael Raposa - Fall River MA, US
David Jordan - Cumberland RI, US
Daniel Jossick - Exeter NH, US
George Martin - Freedom NH, US

International Classification:

B23K 35/363
B05D 3/00
B23K 1/00

US Classification:

148026000, 148027000, 228177000, 427372200

Abstract:

A flux coated brazing material wherein the flux coating composition is suitable for continuously coating a continuous length of brazing material. Aspects include a flux coating composition for coating or coring a brazing material useful as a flux coating for preparing a continuous length brazing material according to the described method.

US Patent:

20090101238, Apr 23, 2009

Filed:

Nov 26, 2008

Appl. No.:

12/324410

Inventors:

Daniel James Jossick - Exeter NH, US
George Napoleon Martin - Freedom NH, US

International Classification:

B23K 35/362
B23K 35/40
B21D 31/00

US Classification:

148 23, 72378

Abstract:

A wire for use in a brazing or soldering operation is provided. The wire preferably includes a body formed of a metallic material. A flux solution is provided within a channel along at least a portion of the length of the body and a surface of the flux solution is exposed. The body is preferably formed into an annular ring having an inner wall and an opposing outer wall. The flux solution preferably includes a solvent, a polymer dissolved in the solvent, and a powdered flux added to the polymer solution.

US Patent:

20110073216, Mar 31, 2011

Filed:

Dec 8, 2010

Appl. No.:

12/963051

Inventors:

Daniel James Jossick - Exeter NH, US
George Napolean Martin - Freedom NH, US

International Classification:

B23K 35/22
B65B 1/04

US Classification:

148 23, 141 1

Abstract:

A wire for use in a brazing or soldering operation is provided. The wire preferably includes a body formed of a metallic material. A flux solution is provided within a channel along at least a portion of the length of the body and a surface of the flux solution is exposed. The body is preferably formed into an annular ring having an inner wall and an opposing outer wall. The flux solution preferably includes a solvent, a polymer dissolved in the solvent, and a powdered flux added to the polymer solution.

US Patent:

20160303608, Oct 20, 2016

Filed:

Apr 18, 2016

Appl. No.:

15/131923

Inventors:

- Cudahy WI, US
Daniel J. Jossick - Exeter NH, US

International Classification:

B05D 3/00
B23K 35/36
B23K 1/20
B23K 35/362

Abstract:

Systems and methods for evenly applying a flux coating to any number of different shaped parts with a single machine are described. The systems and methods provide advantages in that the flux coating may be applied accurately within 2% to 4% of desired thickness with 85% to 95% of the total yield of flux being applied, this minimizing waste. Thousands of parts may be batch treated with a single machine without operator input.

US Patent:

20140374469, Dec 25, 2014

Filed:

May 30, 2014

Appl. No.:

14/292120

Inventors:

- Cudahy WI, US
Daniel J. Jossick - Exeter NH, US

Assignee:

Lucas-Milhaupt, Inc. - Cudahy WI

International Classification:

B23K 1/20
B23K 3/08

US Classification:

228207, 228223

Abstract:

Systems and methods for evenly applying a flux coating to any number of different shaped parts with a single machine are described. The systems and methods provide advantages in that the flux coating may be applied accurately within 2% to 4% of desired thickness with 85% to 95% of the total yield of flux being applied, this minimizing waste. Thousands of parts may be batch treated with a single, machine without operator input.