Additive manufacturing (AM) for space exploration has become a growing opportunity as long-range space missions evolve. In partnership with the National Space Grant Foundation and NASA, students from the University of Wisconsin-Milwaukee participated in the 2014-15 X-Hab Academic Innovation Challenge, with participants tasked with developing new AM solutions that would be recyclable with minimal loss in mechanical properties.
The teams investigated materials, characterization, testing, modeling, and tool development, including the ability to employ reusable carbon-fiber tension ties. The tools developed show that it is possible to employ thermoplastic polymer materials fabricated using AM together with reusable and flexible high-performance carbon-fiber-based composite ties. The AM-printed part is completely recyclable. The carbon-fiber composite ties are repurposed into new structural configurations without loss in properties. The results of this project are now published by SAE International.
Studies into Additive Manufacturing for In-Space Manufacturing is a series of interconnected papers that explore:
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Lessons learned in processing of recycled thermoplastic filaments
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The criticality of process control on the print process
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The effects of orientation angles and print parameters on mechanical behavior
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Microstructural analysis
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Case studies of tools included in the spacecraft’s toolbox
Preface
Introduction
Chapter 1 : Extrusion and 3D Printing of Recycled ABS Filament for Use in FDM – Lessons Learned
Chapter 2 : Mechanical Properties of 3D-Printed Recycled ABS Materials for FDM Applications
Chapter 3 : Effects of Orientation Angle on the Mechanical Properties of FDM Parts
Chapter 4 : Finite Element Modeling of 3D Printed Materials Using Unit Cell Methods
Chapter 5 : Design of a Carbon-Fiber Reinforced Fused Deposition Modeling Modular Wrench Tool
Chapter 6 : Carbon Fiber Reinforced 3D Printed Ratchet: Feasibility and Application in Deep Space Missions
Chapter 7 : High Performance 3D Printed Carbon-fiber Reinforced Crowfoot Adaptive Tool
Chapter 8 : A Recyclable ABS/Carbon-Fiber Reinforced Locking Pliers Tool Using Fused Deposition Modeling 3D Printing Technique
About the Authors
About the Editors
