Many techniques for nanoscale investigation, even though developed in different areas which do not have anything in common in terms of motivation or objectives, pose problems that are remarkably similar. Many of these problems involve regulation or estimation of certain physical variables under constraints and various uncertainties. In many case...
Creator:
Salapaka, Srinivasa (University of Illinois at Urbana-Champaign)
Created:
2016-04-13
Contributed By:
University of Minnesota, Institute for Mathematics and its Applications.
Cohesive granular materials are known for their pressure-dependent strain softening behavior that is intimately linked to their microstructure and grain interactions. To understand the relationship of mechanical properties, composition and structure of these materials, we have been developing continuum theories utilizing higher displacement grad...
Creator:
Misra, Anil (University of Kansas)
Created:
2012-09-14
Contributed By:
University of Minnesota, Institute for Mathematics and its Applications.
Six microfilm readers on display. Six small signs on the floor in front of the machines read (from left to right): "Pawtucket Office," Woonsocket Office," "Home Office Bookkeeping," "Home Office Bookkeeping," "Home Office Archives," and "Newport Office." A large sign in the center reads: "New Burroughs Microfilm Equipment for Rhode Island Hospit...
Contributed By:
University of Minnesota Libraries, Charles Babbage Institute.
Recent developments in dilute polymer solution rheology are reviewed, and placedwithin the context of the general goals of predicting the complex flow of complexfluids. In particular, the interplay between the use of polymer kinetic theory andcontinuum mechanics to advance the microscopic and the macroscopic description,respectively, of dilute...
Creator:
Jagadeeshan, Ravi Prakash (Monash University)
Created:
2009-09-14
Contributed By:
University of Minnesota, Institute for Mathematics and its Applications.