William J. Endres, Ph.D.
Associate Professor
Director, Machining Dynamics and Mechanics Laboratory

Mailing Address
Dept. of Mechanical Engineering – Engineering Mechanics
Michigan Technological University

815 R. L. Smith ME-EM Building
1400 Townsend Drive
Houghton, MI 49931-1295

Direct Contact
wjendres@mtu.edu
(906) 487-2567 — Tel
(906) 487-2822 — Fax
B.S., Mechanical Engineering, University of Illinois at Urbana-Champaign, 1988
M.S., Mechanical Engineering, University of Illinois at Urbana-Champaign, 1990
Ph.D., Mechanical Engineering, University of Illinois at Urbana-Champaign, 1992
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Research Areas Teaching Areas
Cutting Mechanics
Machining Dynamics
Mechanistic Modeling Techniques
Fixed Interface Dynamics
Manufacturing Processes
Machining Processes and Dynamics
Mechanical Design
Dynamic Systems
 
Details
Teaching ME 3501 — Product Realization I
ME 4610/5610 — Advanced Machining Processes
ME 5990 — Machining Dynamics
Research Machining Dynamics and Mechanics Laboratory
Journal Publications
Conference Publications
Invited Seminars and Panels
Service Journal of Machining Science and Technology, Associate Technical Editor
American Society of Mechanical Engineers (ASME International)
Society of Manufacturing Engineers (SME)
Miscellaneous
Other Honors and Awards
 

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Link to Community of Science Profile

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Bio

   Dr. Endres received his Ph.D. in Mechanical Engineering from the University of Illinois at Urbana-Champaign in 1992. He is currently an Associate Professor in the Department of Mechanical Engineering – Engineering Mechanics at Michigan Technological University. His primary research interests include fundamental cutting mechanics, machine-tool system dynamics, and mechanistic modeling techniques. He has contributed greatly to the fundamental understanding and analysis of the effects of the blunt edge and wear-land found on most cutting tools. Another significant aspect of his work focuses on analytical machining dynamics, including solutions for vibration level and stability in the presence of multiple/parallel processes, real tooling geometry, periodic time variation, high and ultrahigh speeds, and more realistic machine-tool dynamics. Recent research is addressing the dynamic modeling and manufacture of fixed interfaces, texture-engineered joints and hybrid joints.
   Dr. Endres has been honored with various awards, including an NSF CAREER Award in 1998, an Outstanding Young Manufacturing Engineer Award in 1999 from the Society of Manufacturing Engineers (SME) and the Blackall Machine Tool and Gauge Award from the American Society of Mechanical Engineers (ASME) in 1997, recognizing his Ph.D. work as a best paper published in the ASME Journal of Manufacturing Science and Engineering. Dr. Endres has served as a an Associate Editor of the ASME Journal of Manufacturing Science and Engineering and the Journal of Machining Science and Technology, and is a member of the Scientific Committee of the North American Manufacturing Research Institution of SME (NAMRI/SME).
   In addition to teaching and academic research, Dr. Endres is working to transform his research knowledge to commercial products. In 1999, he founded Machining Analysis Technologies, LLC as a basis for his personal efforts to commercialize machining simulation software and the education (short-course) base to support practicing engineers in process planning, diagnostics and tooling selection. By 2004 he recognized a more prevalent market need driven in part by global low-wage competition — dramatic increases in the productivity of capital equipment and the associated high-wage workforce. In response, software development efforts were tabled so he could focus resources on the development of physical process and tooling technologies. In 2004, he founded Endres Machining Innovations, LLC (EMI) and in July 2005, building on two SBIR Phase-I awards and a collaborative development agreement with a private cutting tool company, he established an office and applied R&D lab in the Michigan Tech Enterprise SmartZone. EMI currently employs four engineers and technicians as it provides testing and training services to compliment its technology R&D activities. The R&D efforts aim to commercialize tooling and process technologies that maintain or exceed current tool life at cutting speeds two or more times speeds currently used to machine materials such as titanium, nickel alloys, CGI, hardened steel and metal-matrix composites. Other R&D efforts are addressing off-shoot applications, such as new ways of fabricating molds and dies, producing ultra-thick, hard coatings for general wear applications, and cost-effective manufacturing of high-pressure vehicular hydrogen storage solutions.

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