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Thomas A Sandin, 7212422 Poplar Rd, Auburn, CA 95602

Known as:
Tom A Sandin Thas A Sandin Thomas A Sandia
Related to:
Kenneth L Sandin

Thomas Sandin Phones & Addresses

12422 Poplar Rd, Auburn, CA 95602    415-5153804   

Tahoe Vista, CA   

819 Redwood Ave, Redwood City, CA 94061    650-3643577   

1504 Gordon St, Redwood City, CA 94061    650-3643577   

807 Bain Pl, Redwood City, CA 94062    650-3643577    650-3664974    650-3678923   

Belmont, CA   

807 Bain Pl, Redwood City, CA 94062    650-2990782   

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Thomas A Sandin

Linkedin

Work

Company: Morgan advanced materials Mar 2008 to Jul 2017 Position: Product manager

Education

School / High School: College of San Mateo 1973 to 1975

Skills

Engineering • Materials Science • Continuous Improvement • Brazing • Cross Functional Team Leadership • Heat Treatment • Six Sigma • Process Improvement • Product Development • Metals • Engineering Management • Value Stream Mapping • Lean Manufacturing • Strategic Planning • R&D • Manufacturing • Product Management • Manufacturing Engineering • Process Engineering • Root Cause Analysis • Materials

Industries

Glass, Ceramics, & Concrete
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Thomas Sandin resumes & CV records

Resumes

Thomas Sandin Photo 9

Thomas Sandin

Location:
Auburn, CA
Industry:
Glass, Ceramics, & Concrete
Work:
Morgan Advanced Materials Mar 2008 - Jul 2017
Product Manager Bodycote May 2005 - Dec 2007
General Manager Thomas Sandin Consulting Mar 2002 - Apr 2005
Consultant Praxair Surface Technologies May 1976 - Feb 2002
New Product Development Manager Pyromet Industries 1977 - 2001
Manager
Education:
College of San Mateo 1973 - 1975
Skills:
Engineering, Materials Science, Continuous Improvement, Brazing, Cross Functional Team Leadership, Heat Treatment, Six Sigma, Process Improvement, Product Development, Metals, Engineering Management, Value Stream Mapping, Lean Manufacturing, Strategic Planning, R&D, Manufacturing, Product Management, Manufacturing Engineering, Process Engineering, Root Cause Analysis, Materials

Publications & IP owners

Us Patents

Method Of Joining Ceramic Or Graphite To Metal With An Alloy Having High Nickel Or Cobalt Content, Alloys For Joining The Same, And Products Formed Therewith

US Patent:
6877651, Apr 12, 2005
Filed:
Dec 2, 2002
Appl. No.:
10/307317
Inventors:
Thomas A. Sandin - Redwood City CA, US
International Classification:
B23K031/02
US Classification:
2281221, 228121, 2281241, 2281245
Abstract:
A brazed product has a metal substrate, a ceramic or graphite substrate, and a brazing alloy containing one of a high nickel content and cobalt content joining the ceramic or graphite substrate to the metal substrate. A method of joining these materials include providing a metal layer coating of titanium or nickel on the surface of the ceramic or graphite substrate to be joined or using a high nickel content or high cobalt content and containing titanium. The brazing alloy contains a high nickel content 70-95% by weight, or a high cobalt content between 45-55% by weight. This brazing alloy can contain titanium in the range between 0. 5-5% by weight.

Method For Brazing Components Using A Ni-Au-P Ternary Brazing Alloy, The Assembly So Produced And The Ternary Alloy

US Patent:
2004022, Nov 18, 2004
Filed:
May 16, 2003
Appl. No.:
10/438985
Inventors:
Thomas Sandin - Redwood City CA, US
International Classification:
B22F001/00
B32B015/00
US Classification:
428/570000, 428/615000, 428/617000
Abstract:
A method for using a novel ternary nickel-gold-phosphorus brazing alloy for joining nickel-based components together and the assembly so formed.

Brazeable Zirconia Ceramics, Methods Of Brazing Zirconia Ceramics, And Brazed Zirconia Ceramics

US Patent:
2019003, Jan 31, 2019
Filed:
Jan 26, 2017
Appl. No.:
16/071672
Inventors:
- Hayward CA, US
Thomas Sandin - Redwood City CA, US
International Classification:
C04B 37/02
C04B 37/00
B23K 1/00
Abstract:
A method of brazing a sintered zirconia ceramic body, comprises: providing a sintered zirconia ceramic body having a surface; chemically reducing the sintered zirconia ceramic body in whole or in part to form a reduced surface to the sintered zirconia ceramic body; applying a brazing material to at least part of the reduced surface to form an assembly comprising said brazing material and sintered zirconia ceramic body; heating said assembly to a temperature sufficient to at least partially melt the brazing material such that the brazing material wets the reduced surface; and cooling the assembly to solidify the brazing material.

Possible Relatives

Erik R Sandin  Erin M Sandin  George L Sandin  Ingrid Sandin  Irene L Sandin  James H Sandin  Margaret C Sandin  Thomas D Johnson  Thomas Stamps  Thomas W Stancil 

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