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College of Arts and Sciences

Seminar on Multiphysics of Polymers  

Student Working in LabThe Rose Mercadante Chemistry and Biochemistry Seminar Series is pleased to present a seminar by Dr. Shawn Chester of the New Jersey Institute of Technology entitled "Multiphysics Mechanics of Polymeric Materials."

The seminar will be held on Tuesday October 30, 2018 from 5:45 – 7 p.m. in the Helen Lerner Amphitheater, Science and Technology Center, Seton Hall University. Refreshments are available at 5:30 p.m.

Many new and exciting phenomena in mechanics are inherently multiphysics. A few examples include, thermally responsive shape-memory polymers, Joule heating causing creep, and pore pressure effects in geo-materials to name just a few. Because so many technologically important phenomena are inherently multiphysics, constitutive models and associated simulation tools must also include all relevant physics to capture the primary features of the materials response to be predictive. In this talk, recent and ongoing research on the multiphysics response of polymeric materials, specifically on polymer gels and light active shape memory polymers will be discussed.

A gel is a polymeric material swollen by a fluid, the fluid does not degrade or chemically modify the polymer network. The talk will begin with a brief review of a model for the coupled deformation-diffusion of gels. That is followed by some recent attempts for experimental calibration and validation (or lack thereof) on relatively simple gels. Preliminary results have shown that the majority of existing constitutive models are not capable of capturing the observed behavior.

Next, the talk will changes gear and move onto the topic of light activated shape memory polymers. The underling mechanism that controls the shape memory effect in these materials is a photochemical reaction driven by light. That reaction may form or cleave bonds between functional groups attached to the polymer backbone, causing crosslinks to form or dissolve, modifying the underlying network structure. A model is proposed and a numerical capability described that qualitatively describe the behavior of these materials.

Shawn Chester is currently an assistant professor in the Mechanical and Industrial Engineering Department at the New Jersey Institute of Technology. Shawn was previously a postdoctoral researcher at Lawrence Livermore National Laboratory. Prior to that he obtained his Ph.D. in solid mechanics from the Mechanical Engineering Department at MIT and obtained both his B.S. and M.S. in Mechanical Engineering from NJIT.

Shawn's research focus in the past few years has been the development of experimentally validated continuum level constitutive theories for large-deformation multi-physics behavior of polymeric materials and the associated numerical implementation. His work spans most aspects of mechanics; experimental characterization, theoretical modeling, numerical implementation and experimental validation. Shawn has been recognized by young investigator awards through an NSF CAREER, and an ASME award.

The Department of Chemistry and Biochemistry offers B.S., M.S. and Ph.D. degrees with specializations in all areas of chemistry. Our unique research environment, including traditional full-time students and part-time students is designed to foster collaborations with industry and colleagues in other disciplines. The Rose Mercadante Seminar Series is named for Rose Mercadante, the departmental secretary for over 40 years, in honor of our alumni, her "boys and girls."