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Title page for etd-0914116-094457


URN etd-0914116-094457 Statistics This thesis had been viewed 574 times. Download 0 times.
Author Chien Hon Li
Author's Email Address No Public.
Department Industrial Design
Year 2015 Semester 2
Degree Master Type of Document Master's Thesis
Language zh-TW.Big5 Chinese Page Count 66
Title 3D Printed Unmanned Aerial Vehicle(UAV)Components–Application and Research
Keyword
  • 3D Printing Technology
  • Unmanned Aerial Vehicl
  • Unmanned Aerial Vehicl
  • 3D Printing Technology
  • Abstract After applying creative thinking on industrial applications of 3D Printing and redefining the future world of innovative 3D world, some negative and restrictive characteristics associated to the technology were slowly weakened. As 3D printing technology matured, we are now able to perform the technology not just at a much larger scale, but also at a much faster pace and in the most cost-effective way possible. Moreover, new materials developed has enabled new uses, finer layer sized produced as well as more refined and delicate prints. Hence nowadays we are seeing the increased applications of 3D printing in more areas especially in the fast-growing industries such as: Education, National Defense, Architecture, Biomedicine, Agriculture and Geographic Information Systems.
    One of the breakthroughs in the 3D Printing will definitely be the Unmanned Aerial Vehicle (UAV). UAV is basically an aircraft made of light 3D printing materials and has no pilot on board. As the 3D Printing technology advanced, different 3D printing materials and technologies have been joined together to maximize the benefits that an UAV could possibly bring to the humankind. The roles of UAVs have expanded vastly to areas such as Natural Disasters Management and Nuclear Power Plant Security. These UAVs perform collection, development, analysis and distribution of real-time data in a short period of time, maximizing time available for disaster rescues.
      In terms of “FDM technology”, for example , print out “Unmanned Aerial Vehicle, UAV” which having a structural part of the " power propulsion system components ". In this way, what he can make is to contain the mechanical strength of the "Hollow Parts", which often used in the aviation industry. One example of the “Hollowing” feature can be used is oil storage .
      The "Filling Techniques" produced by 3D printing, such as: “Hollow Objects” is not easy to do by existing Molding Techniques, the main goal of this article is to show with " Different Proportions " of " Filling Techniques " to create " Hard " and "Light “ 3D quality component structure to Accelerate assembly a 3D printing Unmanned Aerial Vehicle power propulsion systems. Conceptual design through actual Unmanned Aerial Vehicle "Powered Components Propulsion System" and the using of 3D printing technology presents real model. Hopefully in the near future to be able to realize all the tangible benefits associated with this fascinating technology in our day-to-day life.
    Keywords:「3D Printing Technology」、「Unmanned Aerial Vehicle」、(UAV)、「Maker」
    Advisor Committee
  • Yung-Hsiang Tu - advisor
  • Files indicate not accessible
    Date of Defense 2016-07-27 Date of Submission 2016-09-14


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