Resource Type
Partner
Serial/Series Title
Degree Department
Computer Science and Engineering
9
Materials Science and Engineering
9
Electrical Engineering
4
Mechanical and Energy Engineering
4
Biological Sciences
2
Laboratory of Advanced Polymers and Optimized Materials
2
Biomedical Engineering
1
Center for Advanced Research and Technology
1
Center for Epidemiology and Response Analysis
1
Department of Engineering Technology
1
6 More
28 Matching Results
Results open in a new window/tab.
prev
Results:
25 - 28 of
28
Parametric Modeling of Biomimetic Cortical Bone Microstructure for Additive Manufacturing
This articles presents a novel algorithm for generating in-silico biomimetic models of a cortical bone microstructure towards manufacturing biomimetic bone via additive manufacturing. The software provides a tool for physicians or biomedical engineers to develop models of cortical bone that include the inherent complexity of the microstructure.
Date:
February 21, 2019
Creator:
Robles Linares-Alvelais, José; Ramírez-Cedillo, Erick; Siller Carrillo, Héctor Rafael; Rodríguez, Ciro A. & Martínez-López, J. Israel
Object Type:
Article
System:
The UNT Digital Library
The Structure of Amorphous and Deeply Supercooled Liquid Alumina
Article describes experiment in which liquid Al2O3 was supercooled more than 500 K below its melting point (Tm = 2,327 K) using aerodynamic levitation and laser heating techniques.
Date:
March 19, 2019
Creator:
Shi, Caijuan; Alderman, Oliver L.G.; Berman, Diana; Du, Jincheng & Neuefeind, Joerg
Object Type:
Article
System:
The UNT Digital Library
Electrical and Thermal Conductivity of Polylactic Acid (PLA)-Based Biocomposites by Incorporation of Nano-Graphite Fabricated with Fused Deposition Modeling
This article describes a study to improve the electrical and thermal conductivity of the polylactic acid/wood flour/thermoplastic polyurethane composites by Fused Deposition Modeling (FDM). The results showed that, when the addition amount of nano-graphite reached 25 pbw, the volume resistivity of the composites decreased to 10⁸ Ω·m, which was a significant reduction, indicating that the conductive network was already formed. It also had good thermal conductivity, mechanical properties, and thermal stability.
Date:
March 22, 2019
Creator:
Guo, Rui; Ren, Zechun; Bi, Hongjie; Xu, Min & Cai, Liping
Object Type:
Article
System:
The UNT Digital Library
Mechanical property enhancement of self-bonded natural fiber material via controlling cell wall plasticity and structure
This article explores self-bonded natural fiber material (SNFM) as a promising alternative for plastic and wood owing to its abundant raw material resources and low environmental impact. In this study, a high-performance SNFM was developed by the comprehensive treatments for the plasticity and structure of fiber cell walls. The self-bonded mechanism for natural fiber materials was also discussed. The SNFM products showed excellent mechanical performance, which was superior to that of natural wood and plastic.
Date:
March 26, 2019
Creator:
Wang, Quanliang; Xiao, Shengling; Shi, Sheldon & Cai, Liping
Object Type:
Article
System:
The UNT Digital Library