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1.
Synthesis and Manufacture of 3D Nanocomposite Scaffolds for Osteochondral Regeneration via Table-top 3D Printing
by Castro, Nathan Jonathan, Ph.D.  The George Washington University. 2016: 175 pages; 10076110.
2.
State-of-the-Art Review on 3D Printing Technology Applications in Construction
by Truong, Andrew, M.S.  University of California, Irvine. 2019: 97 pages; 27544966.
3.
Digital-Lithographic Fabrication of Unconventional 3D Microstructures
by He, Ran, Ph.D.  Lehigh University. 2017: 131 pages; 10604386.
4.
Extrusion Based 3D Printing of Liquid Metallic Structures
by Gannarapu, Abhishek, Ph.D.  Washington State University. 2019: 140 pages; 13863879.
5.
A Point Cloud Approach to Object Slicing for 3D Printing
by Oropallo, William Edward, Jr., Ph.D.  University of South Florida. 2018: 241 pages; 10751757.
7.
The Effects of Quantum Dot Nanoparticles on the Polyjet Direct 3D Printing Process
by Elliott, Amelia McDow, Ph.D.  Virginia Polytechnic Institute and State University. 2014: 201 pages; 10595255.
8.
Fabrication of Tissue-Mimetic Environments Using Projection Stereolithography
by Yin, Hang, M.S.  University of Colorado at Boulder. 2017: 56 pages; 10273888.
9.
Playing With Clay: Knowledge Making Across Physical and Digital Materials
by Gunduz, Erol Mehmet, Ed.D.C.T.  Teachers College, Columbia University. 2017: 301 pages; 10287813.
11.
Three dimensional printing surgical instruments: Are we there yet?
by Rankin, Timothy M., M.S.  The University of Arizona. 2014: 19 pages; 1564614.
12.
The Effect of 3D Virtual Reality Technologies on Learning: A Qualitative Research
by Rahman-Shams, Sabiha, Ed.D.  American College of Education. 2019: 129 pages; 27912191.
14.
A 3D Printed Polycaprolactone Honeycomb Structure
by Arceneaux, Donald J., M.S.  University of Louisiana at Lafayette. 2017: 84 pages; 10640968.
15.
Developing a Commercial Product Using a Consumer Grade 3D Printer
by Smith, Calvin, M.S.  Minnesota State University, Mankato. 2019: 47 pages; 13858854.
16.
Fabrication and Engineering of 3D Laser Direct Write Microenvironments
by Kingsley, David Michael, Ph.D.  Rensselaer Polytechnic Institute. 2018: 155 pages; 10935067.
17.
Advances in display technology
by Scher, Steven Jonathan, Ph.D.  University of California, Santa Cruz. 2012: 138 pages; 3540960.
18.
In Situ Polymerizing Collagen for the Development of 3D Printed Tissue Engineering Scaffolds
by Glover, Christopher John, M.S.  University of Missouri - Columbia. 2018: 88 pages; 13850736.
19.
Characterization of direct print additive manufacturing process for 3D build of a carbon nanostructure composite
by Rodriguez, Ricardo Xavier, M.S.  The University of Texas at El Paso. 2014: 102 pages; 1564696.
20.
A Case Study: Can 3D Printers Be Used to Address the Prosthetic Needs of Amputees in the Dominican Republic?
by Coll De Peña, Adriana, M.S.  Rochester Institute of Technology. 2020: 71 pages; 28088367.
21.
Holostream: High-Accuracy, High-Speed 3D Range Video Encoding and Streaming
by Bell, Tyler, Ph.D.  Purdue University. 2018: 152 pages; 10840054.
23.
Laser Printhead Concept Design for a 3D Moving Platform
by Acosta, Everardo, M.S.  California State University, Long Beach. 2017: 79 pages; 10638564.
24.
Entwicklung einer funktionellen 3D Magnetresonanz-Defäkographie
by Ratz, Valentin, Ph.D.  Bayerische Julius-Maximilians-Universitaet Wuerzburg (Germany). 2016: 84 pages; 10730092.
25.
3D-Weichgewebsanalyse – Ermittlung von Durchschnittswerten und Korrelationen zur FRS-Analyse
by Schneck, Susanne Petra, Ph.D.  Bayerische Julius-Maximilians-Universitaet Wuerzburg (Germany). 2010: 105 pages; 27766755.
26.
Human Skeletal Muscle Study Through 2D and 3D Model Design
by Fibben, Kirby Sinclair, M.S.  University of California, Irvine. 2019: 30 pages; 13898360.
27.
28.
Cross-Layer Design for Secure and Resilient Control of Cyber-Physical Systems in Smart Cities
by Xu, Zhiheng, Ph.D.  New York University Tandon School of Engineering. 2018: 225 pages; 10840627.
30.
Kokultur von mesenchymalen Stammzellen aus humanem Fettgewebe und mikrovaskulären Endothelzellen: Ausgewählte Aspekte in einem 3D Sphäroid-Modell
by Nestmeyer, Markus, Ph.D.  Bayerische Julius-Maximilians-Universitaet Wuerzburg (Germany). 2015: 85 pages; 10723344.
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