Actions for Design, Analysis, and On-Sun Evaluation of Reflective Strips Under Controlled Buckling

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Design, Analysis, and On-Sun Evaluation of Reflective Strips Under Controlled Buckling

Author
Jaworske, Donald A.
Published
January 13, 2014.
Physical Description
1 electronic document
Additional Creators
Sechkar, Edward A. and Colozza, Anthony J.
Online Version

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Summary
Solar concentrators are envisioned for use in a variety of space-based applications, including applications involving in situ resource utilization. Identifying solar concentrators that minimize mass and cost are of great interest, especially since launch cost is driven in part by the mass of the payload. Concentrators must also be able to survive the wide temperature excursions on the lunar surface. Identifying smart structures which compensate for changes in concentrator geometry brought about by temperature extremes are of interest. Some applications may benefit from the ability to change the concentrators focal pattern at will. This paper addresses a method of designing a single reflective strip to produce a desired focal pattern through the use of controlled buckling. Small variations in the cross section over the length of the reflective strip influence the distribution of light in the focal region. A finite element method of analysis is utilized here which calculates the curve produced for a given strip cross section and axial load. Varying axial force and strip cross section over the length of the reflective strip provide a means of optimizing ray convergence in the focal region. Careful selection of a tapered cross section yields a reflective strip that approximates a parabola. An array of reflective strips under controlled buckling produces a light weight concentrator and adjustments in the compression of individual strips provide a means of compensating for temperature excursions or changing the focal pattern at will.
Other Subject(s)
Collection
NASA Technical Reports Server (NTRS) Collection.
Note
Document ID: 20140017158.
GRC-E-DAA-TN12663.
AIAA Science and Technology Forum and Exposition (SciTech 2014); 13-17 Jan. 2014; National Harbor, Maryland; United States.
AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference; 13-17 Jan. 2014; National Harbor, Maryland; United States.
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