Abstract
The use of numerical analysis studies in biomechanics research continues to motivate the pursuit of improved models for biological materials. Micropolar continuum theory has been suggested by some to provide more complete descriptions of blood flow and bone behavior. Micropolar theory is an extension of classical continuum theory that introduces independent particle rotations and allows couple stresses. Solutions to relevant modeling problems of current interest are compared for micropolar and classical theory. For blood flowing through a stenosis, micropolar theory yields substantially higher wall shear stresses and slightly more flow recirculation. The extent of deviation from classical theory depends largely upon the choice of boundary conditions for the new independent particle rotation introduced by micropolar theory. In the case of bone behavior, micropolar theory yields significantly different stress fields in the compact bone tissue surrounding the screw hole of a fracture fixation plate. Micropolar solutions reveal higher stress concentrations and markedly increased distortion energy densities. The significant differences between micropolar and classical solutions for the practical modeling problems studied in this work suggest that further experimental and theoretical analyses aimed at better defining micropolar models for blood and bone are warranted. The history of the Lower Rio Grande Valley is a complex mixture of Spanish, Mexican and Anglo-American traditions and laws. A vital aspect of this blend has been the relationship of the people with the Rio Grande. The river has been the single most important element in the area's development. It has also been the most controversial point among a variety of conflicting interests. Until the latter half of the nineteenth century the Rio Grande, in its lower reaches was used almost exclusively for transportation. Successful irrigation enterprises led to a flood of land speculators and developments by the turn of the century. Private ditch companies criss-crossed the landscape with canals. Most of these companies were under-capitalized for the task before them, resulting in a rash of bankruptcies in the 1920s. Valley leaders were instrumental in working to develop alternative means of financing the irrigation systems. The solution in most cases was the creation of special districts designed to manage and protect water resources in the region. ...
Holbert, Jerry Edwar (1984). Rural/urban conflict over water control in the Lower Rio Grande Valley of Texas. Texas A&M University. Texas A&M University. Libraries. Available electronically from
https : / /hdl .handle .net /1969 .1 /DISSERTATIONS -435630.