Tribology Division

The Tribology Division of the American Society of Mechanical Engineers (ASME) is established to serve the members and associate members of the ASME who have designated their interest in the science & technology of Tribology. The field of Tribology includes the analysis of friction, wear, lubrication phenomena and the application of such principles to mechanical design, product development, manufacturing processes & machine operation.

The objectives of the Division, which serve as the basis for its committees, include:

• Gathering & disseminating knowledge in Tribology through all forms of publication
• Organizing knowledge in Tribology for educational purposes
• Exchanging knowledge in Tribology through personal interaction at technical expositions
• Encouraging a cooperative exchange of ideas in Tribology between the industrial & academic communities
• Informing the membership of collaborative opportunities with the international Tribology community
• Publicizing noteworthy accomplishments of the members
• Identifying & promoting opportunities for research & development in Tribology

Upcoming Events: 

March 13 at 12 noon ET Elucidating the Atomic-scale Mechanisms responsible for Adhesion, Friction and Tribochemistry using Computer Simulations
Judith Harrison, Professor of Chemistry, Naval Academy
Register now: https://asme.zoom.us/meeting/register/tJ0ocOiqqTIqE9yAKGqoHIbHMIPMj5q8hZHQ#/registration
We have used molecular dynamics (MD) simulations to examine adhesion, friction, and tribochemistry in a broad-range of covalent materials, including diamond, diamond-like carbon, ultrananocrystalline diamond, silicon, and silica. I will discuss our recent reactive MD simulations that examined contact between silicon asperities and substrates terminated with -H and -OH functional groups. Trends in adhesion, friction, and wear as a function of termination type and amount will be discussed. This work supports the hypothesis that arose from experimental observations that strong increases in adhesion after sliding contact of Si-Si nanoasperities is due to the removal of passivating species. I will also discuss our simulations that elucidate the mechanisms that lead to adhesion and tribochemistry in nanocontacts between other covalent materials.


Biography: Judith Harrison has been a Professor at the Naval Academy for more than 25 years. She has held Visiting Scientist positions at the University of Pennsylvania and Johns Hopkins University collaborating with colleagues doing tribological research. Her research has focused on the examination of atomic-scale processes, such as adhesion, friction, and tribochemistry using molecular dynamics simulations. She has been a keynote speaker at the STLE annual meeting, she is a Fellow of the American Vacuum Society and the STLE, and she has won the Navy’s Superior Civilian Service Award.

Past Webinars:

Recorded webinars are available under the Resources Tab.

Nanoparticle suspensions for energy efficiency
by: Jacqueline Krim, Physics Department, North Carolina State University Raleigh, North Carolina 27695

Seeing the Hidden Interface: Revealing Nanoscale Mechanisms of Contact, Adhesion, and Friction by in situ Experiments 
by: R.W. Carpick, Dept. of Mechanical Engineering and Applied Mechanics, University of Pennsylvania

Tribocorrosion Aspects of Biomedical Implants: Where are we now?
Dr. Mathew Mathew, Department of Biomedical Sciences, University of Illinois at Chicago

Electrical Contact and Lubrication
by: Dr. Robert Jackson, Auburn University

Mechanics-Enabled Simulation and Design of the Anode-Cathode Interface in Lithium Metal Batteries by: Q. Jane Wang, Department of Mechanical Engineering, Northwestern University

Dynamic Properties of Lubricants for Electric Vehicles
by: Dr. Hong Liang, Department of Mechanical Engineering, Texas A&M University

Wear mechanisms or the relations of microstructure and wear in metals
by: Dr .Stefanie Hanke, Researcher, Materials Science in Mechanical Engineering

Towards a Predictive Understanding of the Effect of Surface Topography on Surface Properties
by: Dr. Tevis D. B. Jacobs

Atomistic simulation for tribological applications
by: Ashlie Martini

Recognition of outstanding achievement in engineering is one of the major objectives of ASME. Through its programs of honors and awards, ASME recognizes outstanding contributions to the art and science of engineering.

Society Awards

• Mayo D. Hersey Award
  Award is bestowed on an individual in recognition of distinguished and continued contributions over a substantial period of time to the advancement of the science and engineering of tribology.
• Burt L. Newkirk Award
  It is given to one who has made a notable contribution to the field of tribology in research or development as evidenced by important tribology publications.
• Marshall B. Peterson Award
  The Marshall P. Peterson Award is given biennially in recognition of an early-career achievement and promise for pursuit of research in tribology.

Division Awards

• Journal of Tribology Best Paper Award
• Innovative Research Award
• Timken K.L. Johnson Award
• Seagate Award (Discontinued)
• Donald Wilcock Distinguised Service Award

Other awards distributed at the Tribology conference are:

• Conference Chair's Plaque
• Certificates of Appreciation
• Chair, Content Management Technical Committee Plaque
• Keynote Speaker's Plaque
• Executive Committee Past Chair's Plaque
• Tribology Division Best Reviewers Certificates

Other Honors and Awards of Interest

• Dedicated Service Award
  Award honors dedicated voluntary service to the Society marked by outstanding performance, demonstrated effective leadership, prolonged and committed service, devotion, enthusiasm and faithfulness.
• Archimedes Club
  Leverage the future of the mechanical engineering profession with a planned gift and become a member of the Archimedes Club.

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Important Award Information For Recipients of Monetary Awards

Please note that honorariums cannot be distributed without receipt of applicable tax forms. If you are a recipient of a monetary award, you will be contacted by ASME staff regarding tax forms you will need to complete, as well as how to submit them to us.

Chair, Bharat Bhushan
Vice Chair, Farshid Sadeghi, PHD
Secretary, Sriram Sundararajan, Ph.D.
Member, Min Zou
Member, Tevis D. Jacobs
Member, Mr. Nick Weinzapfel
Communications & Outreach, Stefanie Hanke
Special Assignment, Farshid Sadeghi, PHD

Links to helpful online resources related to the division are below. If you have suggestions for other resources, please contact the division chair or ASME staff.

• ASME Landmarks Program
  Landmarks, sites and collections of historic importance to mechanical engineering are designated by ASME through its History and Heritage Landmarks Program.
• ASME History and Heritage
  ASME fosters the preservation of mechanical engineering innovations used in a wide range of applications through its History and Heritage program.

Other Links of Interest

U.S. Based Organizations

• American Bearing Manufacturers Association (ABMA)
• American Gear Manufacturers Association (AGMA)
• The Society of Tribologists and Lubrication Engineers (STLE)

U.S. Government Agencies and Departments

• National Institute of Standards and Technology (NIST)
• National Science Foundation (NSF)

Others

• Fluid Sealing Association
• Independent Lubricant Manufacturers Association (ILMA)

Publications

• Journal of Tribology
• Facilities Engineerings
• Journal Journal of Testing and Evaluation
• Journal of Metals
• Lube Magazine

We are committed to organizing education in mechanical engineering surrounding Tribology technical areas. Below is the latest event sponsored by the division. This kicks off our webinar series.
 

Lessons from Nature: Bioinspired Mechanically Durable and Self-healing Superliquiphilic/phobic Surfaces
By: Dr. Bharat Bhushan, Tribology Division Chair
Tribology TEC Talk  (video viewable by ASME members only)
Tribology TEC Talk Slides
 

Recent Developments in Synthesis and Process-Structure-Performance Understanding of MoS2 Thin Films

by: Michael T. Dugger, Sandia National Laboratories

Lubrication of Innovative Engineered Bearings and Industrial Motion Components
by: Dr. Ali Erdimir, Professor and Halliburton Chair in Engineering in the Mechanical Engineering Department of Texas A&M University

Seeing the Hidden Interface: Revealing Nanoscale Mechanisms of Contact, Adhesion, and Friction by in situ Experiments
by: R.W. Carpick, Dept. of Mechanical Engineering and Applied Mechanics, University of Pennsylvania

The Tribology of Touch 
Cynthia Hipwell, Professor of Mechanical Engineering, Texas A&M University

In-Situ SEM Tribological Testing of 3D-Printed Micro/Nano-Textured Surfaces
by: Mahyar Afshar-Mohajer, University of Arkansas

Tribocorrosion Aspects of Biomedical Implants: Where are we now?
by: Dr. Mathew Mathew, Department of Biomedical Sciences, University of Illinois at Chicago

Electrical Contact and Lubrication
Dr. Robert Jackson, Auburn University

Wear mechanisms or the relations of microstructure and wear in metals
by: Dr. Stefanie Hanke, Tribology Division Secretary

Towards a Predictive Understanding of the Effect of Surface Topography on Surface Properties
By: Tevis D. B. Jacobs

Nature’s Multiscale Design and Smart Manufacturing of Materials
By: Xiaodong (Chris) Li

Molecular dynamics simulations: What are they and why tribologists should care
By: Dr. Ashlie Martini