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Robert David Schmertzler

from Troy, MI
Age ~64
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Also known as:
Robert D Schmertzler, Robert D Shmertsler, Rob Schmertzler, Bob Schmertzler
Phone and address:
6401 Catalpa Ct, Troy, MI 48098
(248) 879-7335
Related to:
Nelson ZuckerIgor Schmertzler, 39Felice Schmertzler, 32Tayna SchmertzlerTanya Schmertzler, 60
Connected to:
Herbert Schmertz, 94Audrey Schmetterer, 90Bobby L Schmett, 85Eric L Schmetterling, 67William T Schmetterer, 68Adrienne G Schmetzer, 46Sydney N Schmeusser, 29Deborah L Schmiade, 61Alan J Schmicking, 57Gerald W Schmich, 83

Robert Schmertzler Phones & Addresses

  • 6401 Catalpa Ct, Troy, MI 48098 (248) 879-7335 (248) 879-7441
  • 6194 Locust Hill Rd, Washington Township, OH 45459 (937) 438-3135
  • Dayton, OH
  • Tipp City, OH
  • Oakland, MI

Work

Company: Ecommodations Aug 2019 Position: Chief operations officer

Education

Degree: Master of Science, Masters, Bachelors, Bachelor of Science School / High School: Politechnical Institute 1978 to 1982 Specialities: Mechanical Engineering

Skills

Continuous Improvement • Lean Manufacturing • Manufacturing • Automotive • Process Improvement • Purchasing • Process Engineering • Budgets • Product Development • Engineering • Contract Management • Supply Chain • Fmea • Manufacturing Engineering • Six Sigma • Leadership • Procurement • Program Management • Kaizen • Ppap • Operations Management • Engineering Management • 5S • Apqp • Management • Root Cause Analysis • Automation • Global Sourcing • Cross Functional Team Leadership • Business Development • Negotiation • Iso • Industrial Engineering • Machine Tools • Supply Chain Management • Testing • Value Stream Mapping • Strategic Sourcing • Logistics • Ms Project • Quality Management • Sap • Sourcing • Strategy • Supply Management

Industries

Automotive

Resumes

Resumes

Robert Schmertzler Photo 1

Chief Operations Officer

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Location:
Columbus, OH
Industry:
Automotive
Work:
Ecommodations
Chief Operations Officer
Mahle Jan 2006 - Jul 2007
Process Planning Manager
Mahle Jan 2006 - Jul 2007
Capital Investment Specialist and Senior Capex Buyer
Mahle 2004 - 2006
Senior Industrialization Engineer
Behr Dayton Thermal Products 1999 - 2004
Manufacturing Engineer
Education:
Politechnical Institute 1978 - 1982
Master of Science, Masters, Bachelors, Bachelor of Science, Mechanical Engineering
Skills:
Continuous Improvement
Lean Manufacturing
Manufacturing
Automotive
Process Improvement
Purchasing
Process Engineering
Budgets
Product Development
Engineering
Contract Management
Supply Chain
Fmea
Manufacturing Engineering
Six Sigma
Leadership
Procurement
Program Management
Kaizen
Ppap
Operations Management
Engineering Management
5S
Apqp
Management
Root Cause Analysis
Automation
Global Sourcing
Cross Functional Team Leadership
Business Development
Negotiation
Iso
Industrial Engineering
Machine Tools
Supply Chain Management
Testing
Value Stream Mapping
Strategic Sourcing
Logistics
Ms Project
Quality Management
Sap
Sourcing
Strategy
Supply Management

Publications

Us Patents

Method For Forming Coatings By Electrolyte Discharge And Coatings Formed Thereby

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US Patent:
57208662, Feb 24, 1998
Filed:
Jun 14, 1996
Appl. No.:
8/663949
Inventors:
Aleksey Erokhine - Tula, RU
Andrey Aleksejevich Voevodin - Kettering OH
Robert David Schmertzler - Centerville OH
Assignee:
ARA Coating, Inc. - Dayton OH
International Classification:
C25D 2112
C25D 518
C25D 500
C25D 1104
US Classification:
205 83
Abstract:
A method for forming relatively thick composite coatings on a region of the surface of a metallic member includes exposing the surface region to an electrolyte fluid, either by immersion or by spraying the electrolyte against the surface region. A preferred electrolyte fluid is an aqueous solution including an electrolytic agent, a passivating agent and a modifying agent in the form of a solute or a powder suspended in the solution. A voltage signal is applied to induce a current flow of constant magnitude between the metallic member and the electrolyte fluid so that the metallic member interacts with the passivating agent to form a passive oxide layer on the surface region. The voltage signal increases in magnitude until local voltage reaches a breakthrough level across separate highly localized discharge channels along the surface region of the metallic member. At this breakthrough level, localized plasmas including components of the oxide layer and the modifying agent form near the discharge channel and reacts to form the coating. At some point after the discharges appear, the signal is changed to a series of unipolar anodic pulses interspersed with cathodic pulses which serve to stabilize the growth of the coating.
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Robert David Schmertzler from Troy, MI, age ~64 Get Report