Browsing by Thesis Advisor "Maschmann, Matthew R."
Now showing items 1-13 of 13
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3D printing of energetic material
(University of Missouri--Columbia, 2019)In the world of macro-scale energetics, the problems of cost effectiveness, scalability, and manufacturability are of prime importance. But with the advent of 3D printing, a solution for scalability is in reach. In this ... -
Carbon nanotube forests: synthesis, patterning, milling, mechanics, and applications
(University of Missouri--Columbia, 2018)Carbon nanotube (CNT) forests are a nano-structured material consisting of vertically oriented carbon nanotubes. The material has many exceptional and unique physical properties that have motivated considerable research ... -
Electromechanical evolution of Carbon nanotube-coated microfibers
(University of Missouri--Columbia, 2017)[ACCESS RESTRICTED TO THE UNIVERSITY OF MISSOURI AT REQUEST OF AUTHOR.] Carbon nanotubes (CNTs) are best described as seamless cylindrical hollow fibers, comprised of a single sheet of pure graphite with extremely light ... -
Enhancement of the cooling performance of microchannel heat sinks
(University of Missouri--Columbia, 2016)In this report, four different strategies to enhance the cooling performance of a micro pin fin heat sink are investigated and their effect to improve its cooling efficiency are examined. The employment of nanoparticles ... -
Evaluation of process-structure-property relationships of carbon nanotube forests using simulation and deep learning
(University of Missouri--Columbia, 2020)This work is aimed to explore process-structure-property relationships of carbon nanotube (CNT) forests. CNTs have superior mechanical, electrical and thermal properties that make them suitable for many applications. Yet, ... -
Hierarchical carbon nanotube forests and applications
(University of Missouri--Columbia, 2015)[ACCESS RESTRICTED TO THE UNIVERSITY OF MISSOURI AT REQUEST OF AUTHOR.] Carbon nanotube (CNTs) are allotropes of carbon with a cylindrical nanostructure. Very different from other materials, CNTs show a great value for ... -
Liquid metal heat sink for laptop computers
(University of Missouri--Columbia, 2017)With the rapid miniaturization of the electronic systems, heat generation in the components becomes a major concern for thermal management. The high density of heat generation can be a bottleneck to attain higher performance ... -
Mechanical analysis of a growing carbon nanotube forest
(University of Missouri--Columbia, 2016)Carbon nanotube forests are vertically oriented and entangled tubes that grow normal to a given substrate. The excellent thermal, mechanical, and electronic properties of individual carbon nanotubes motivates their study. ... -
Multi-scale self-assembly of nanoenergetic materials utilizing functionalized graphene
(University of Missouri--Columbia, 2020)The work described here-in focuses on the synthesis and characterization of novel nanoenergetic materials and is driven by overcoming the disadvantages of traditional nanoenergetic composites, improving the energetic ... -
A parametric evaluation of carbon nanotube synthesis from alumina particles
(University of Missouri--Columbia, 2015)Carbon nanotubes (CNTs) are a new material which was first discovered in 1991, and they have generate huge activities in most science and engineering areas due to their unprecedented electrical, thermal, and mechanical ... -
Selective area synthesis of 3-D carbon nanotube forest microsctructures
(University of Missouri--Columbia, 2018)[ACCESS RESTRICTED TO THE UNIVERSITY OF MISSOURI AT AUTHOR'S REQUEST.] Carbon nanotubes (CNTs) are solid carbon allotropes that feature high strength and high transport capabilities. When large populations of CNTs are ... -
Thermal transport of nanoenergetics in composite materials
(University of Missouri--Columbia, 2017)Nanoenergetic materials such as nanothermites are made up of a mixture of nanoscale fuel and oxidizer particles separated by small distances to promote rapid reaction. When reacted, they can reach an adiabatic flame ... -
Validating the use of machine learning techniques in evaluating additive manufactured elastic materials
(University of Missouri--Columbia, 2020)[ACCESS RESTRICTED TO THE UNIVERSITY OF MISSOURI AT REQUEST OF AUTHOR.] As additive manufacturing continues to find widespread use in research and industry and the number of materials suitable for use in additive manufacturing, ...