Engineering Expo Career Fair @ The Ohio Union
Sep 26 @ 1:00 pm – Sep 27 @ 6:00 pm

As the university’s largest career fair, Engineering Expo connects Buckeye engineering students with companies offering co-op, internship and career employment opportunities.

Expo is an annual career fair sponsored by Engineers’ Council in partnership with Engineering Career Services. The 2017 Engineering Expo will be held on September 26-27, 2017, from 1:00-6:00 p.m. each day. Proceeds from this well-attended annual event support engineering student organizations and project teams.

Find out more about Engineering Expo including how to register as an employer at

Construction Career Expo – Fall 2017 @ Ohio Farm Bureau 4H Center
Oct 9 @ 10:00 am – 2:00 pm

Distinguished Lecturer Series – Wayne D. Kaplan @ TBD
Oct 12 all-day

Wayne D. Kaplan is a full professor in the Department of Materials Science and Engineering at the Technion – Israel Institute of Technology, where he holds the Karl Stoll Chair in Advanced Materials.  Kaplan currently serves as the Executive Vice President for Research at the Technion.  He completed his BSc in Mechanical Engineering, and his MSc and DSc in Materials at the Technion after immigrating to Israel from the U.S.  He then spent a year as a Humboldt Fellow at the Max-Planck Institute in Stuttgart Germany before joining the Technion faculty in 1995.


During the past 20 years Kaplan’s research activities at the Technion have focused on the structure, chemistry and energy of interfaces between metals and ceramics, with a focus on the correlation between thermodynamics (continuum) approaches and the atomistic structure and chemistry of interfaces.  In addition to his fundamental research in materials science, Kaplan works on the development of electron microscopy techniques for characterization at the sub-nanometer length-scale.


Kaplan is the author of more than 130 reviewed and archived scientific articles, as well as two textbooks: Joining Processes and Microstructural Characterization of Materials.  In 2006 he received the Henry Taub Prize for Academic Excellence.  He is a fellow of the American Ceramic Society, a member of the Israel Microscopy Society, and was an editor of the Journal of Materials Science (Springer).




Controlling grain size is a fundamental part of Materials Science and Engineering.  While the driving force for grain growth is thought to be understood, the mechanism by which grain boundaries migrate, and how microscopic parameters affect grain boundary mobility, are less understood.  This presentation focuses on the mobility of grain boundaries and how dopants and external fields influence the kinetics of grain growth.


The first part of the talk will address the concept of solute-drag, where conventional wisdom indicates that moving a solute cloud with a grain boundary should either slow down grain boundary motion (e.g. Mg in Al2O3), or not affect it.  Model experiments at dopant levels below the experimentally determined solubility limit clearly show that some adsorbates reduce grain boundary mobility (the accepted solute-drag effect) whereas other increase grain boundary mobility (solute-acceleration).  Reasons for the varying behavior are discussed within the framework of grain boundary disconnections as the mechanism by which grain boundaries move, and current approaches to understanding Gibbsian adsorption.


The second part of the talk reviews model experiments designed to probe the influence of external fields on grain boundary mobility.  As a model system, polycrystalline SiC underwent conventional annealing, and annealing using spark plasma sintering (SPS) without pressure, and the grain size as a function of annealing time was characterized.  From these experiments, the grain boundary mobility of SiC at 2100°C under conventional versus SPS annealing was determined.  SPS annealing resulted in a grain boundary mobility which is three orders of magnitude larger than that resulting from conventional annealing.  This indicates that the same (or similar) mechanism which promotes rapid sintering during SPS also significantly increases the rate of grain growth.  This mechanism will be discussed in light of the “solute-acceleration” effect presented in the first part of the talk.



Food, Agricultural, and Environmental Sciences Career Expo – Fall 2017 @ Fawcett Center
Oct 17 @ 2:00 pm – 6:00 pm