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Heliogyro Solar Sail Research at NASA (2013)

Bryant, Robert G. ; Horta, Lucas G. ; Lawrence, Dale A. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The recent successful flight of the JAXA IKAROS solar sail has renewed interest within NASA in spinning solar sail concepts for high-performance solar sailing. The heliogyro solar sail, in particular, is being re-examined as a potential game-changing architecture for future solar sailing missions. In this paper, we present an overview of ongoing heliogyro technology development and feasibility assessment activities within NASA. In particular, a small-scale heliogyro solar sail technology demonstration concept will be described. We will also discuss ongoing analytical and experimental heliogyro structural dynamics and controls investigations and provide an outline of future heliogyro development work directed toward enabling a low cost heliogyro technology demonstration mission ca. 2020.

Keywords: Spacecraft Propulsion and Power

Type: NF1676L-16171 , International Symposium on Solar Sailing; Jun 11, 2013 - Jun 13, 2013; Glasgow; United Kingdom

Format: application/pdf

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Coring Sample Acquisition Tool (2012)

Murray, Saben D. ; Klein, Kerry J. ; Sherrit, Stewart ; [et al.]

In: CASI

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Publication Date: 2019-07-12

Description: A sample acquisition tool (SAT) has been developed that can be used autonomously to sample drill and capture rock cores. The tool is designed to accommodate core transfer using a sample tube to the IMSAH (integrated Mars sample acquisition and handling) SHEC (sample handling, encapsulation, and containerization) without ever touching the pristine core sample in the transfer process.

Keywords: Mechanical Engineering

Type: NPO-47564 , NASA Tech Briefs, August 2012; 8-9

Format: application/pdf

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Origami-Inspired Folding of Thick, Rigid Panels (2014)

Zirbel, Shannon ; Lang, Robert ; Trease, Brian P. ; [et al.]

In: CASI

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Publication Date: 2019-08-13

Description: To achieve power of 250 kW or greater, a large compression ratio of stowed-to-deployed area is needed. Origami folding patterns were used to inspire the folding of a solar array to achieve synchronous deployment; however, origami models are generally created for near-zero-thickness material. Panel thickness is one of the main challenges of origami-inspired design. Three origami-inspired folding techniques (flasher, square twist, and map fold) were created with rigid panels and hinges. Hinge components are added to the model to enable folding of thick, rigid materials. Origami models are created assuming zero (or near zero) thickness. When a material with finite thickness is used, the panels are required to bend around an increasingly thick fold as they move away from the center of the model. The two approaches for dealing with material thickness are to use membrane hinges to connect the panels, or to add panel hinges, or hinges of the same thickness, at an appropriate width to enable folding.

Keywords: Engineering (General)

Type: NPO-48861 , NASA Tech Briefs, January 2014; 12

Format: application/pdf

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Flow Energy Piezoelectric Bimorph Nozzle Harvester (2016)

Tosi, Phillipe ; Walkemeyer, Phillip E. ; Sherrit, Stewart ; [et al.]

In: CASI

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Publication Date: 2019-08-26

Description: A flow energy harvesting device having a harvester pipe includes a flow inlet that receives flow from a primary pipe, a flow outlet that returns the flow into the primary pipe, and a flow diverter within the harvester pipe having an inlet section coupled to the flow inlet, a flow constriction section coupled to the inlet section and positioned at a midpoint of the harvester pipe and having a spline shape with a substantially reduced flow opening size at a constriction point along the spline shape, and an outlet section coupled to the constriction section. The harvester pipe may further include a piezoelectric structure extending from the inlet section through the constriction section and point such that the fluid flow past the constriction point results in oscillatory pressure amplitude inducing vibrations in the piezoelectric structure sufficient to cause a direct piezoelectric effect and to generate electrical power for harvesting.

Keywords: Electronics and Electrical Engineering

Format: application/pdf

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Accommodating Thickness in Origami-Based Deployable Arrays (2013)

Trease, Brian P. ; Lang, Robert J. ; Walkemeyer, Phillip E. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: The purpose of this work is to create deployment systems with a large ratio of stowed-to-deployed diameter. Deployment from a compact form to a final flat state can be achieved through origami-inspired folding of panels. There are many models capable of this motion when folded in a material with negligible thickness; however, when the application requires the folding of thick, rigid panels, attention must be paid to the effect of material thickness not only on the final folded state, but also during the folding motion (i.e., the panels must not be required to flex to attain the final folded form). The objective is to develop new methods for deployment from a compact folded form to a large circular array (or other final form). This paper describes a mathematical model for modifying the pattern to accommodate material thickness in the context of the design, modeling, and testing of a deployable system inspired by an origami six-sided flasher model. The model is demonstrated in hardware as a 1/20th scale prototype of a deployable solar array for space applications. The resulting prototype has a ratio of stowed-to-deployed diameter of 9.2 (or 1.25 m deployed outer diameter to 0.136 m stowed outer diameter).

Keywords: Spacecraft Propulsion and Power; Structural Mechanics

Type: DETC2013-12348 , ASME International Design Engineering Technical Conference and Computers and Information in Engineering Conference; Aug 04, 2013 - Aug 07, 2013; Portland, OR; United States

Format: text

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