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An Efficient and Versatile Means for Assembling and Manufacturing Systems in Space (2012)

King, Bruce ; Correll, Nikolaus ; Hafley, Robert A. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Within NASA Space Science, Exploration and the Office of Chief Technologist, there are Grand Challenges and advanced future exploration, science and commercial mission applications that could benefit significantly from large-span and large-area structural systems. Of particular and persistent interest to the Space Science community is the desire for large (in the 10- 50 meter range for main aperture diameter) space telescopes that would revolutionize space astronomy. Achieving these systems will likely require on-orbit assembly, but previous approaches for assembling large-scale telescope truss structures and systems in space have been perceived as very costly because they require high precision and custom components. These components rely on a large number of mechanical connections and supporting infrastructure that are unique to each application. In this paper, a new assembly paradigm that mitigates these concerns is proposed and described. A new assembly approach, developed to implement the paradigm, is developed incorporating: Intelligent Precision Jigging Robots, Electron-Beam welding, robotic handling/manipulation, operations assembly sequence and path planning, and low precision weldable structural elements. Key advantages of the new assembly paradigm, as well as concept descriptions and ongoing research and technology development efforts for each of the major elements are summarized.

Keywords: Space Sciences (General)

Type: NF1676L-14055 , AIAA Space 2012 Conference and Exposition; Sep 11, 2012 - Sep 13, 2012; pasadena, CA; United States

Format: application/pdf

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Preliminary Structural Design Considerations and Mass Efficiencies for Lunar Surface Manipulator Concepts (2008)

Mikulas, Martin M. ; Doggett, William R. ; Dorsey, John T.

In: CASI

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Publication Date: 2019-07-13

Description: The mass and sizing characteristics of manipulators for Lunar and Mars planetary surface applications are investigated by analyzing three structural configurations: a simple cantilevered boom with a square tubular cross-section; a hybrid cable/boom configuration with a square tubular cross-section support structure; and a hybrid cable/boom configuration with a square truss cross-section support structure. Design procedures are developed for the three configurations and numerical examples are given. A new set of performance parameters are developed that relate the mass of manipulators and cranes to a loading parameter. These parameters enable the masses of different manipulator configurations to be compared over a wide range of design loads and reach envelopes (radii). The use of these parameters is demonstrated in the form of a structural efficiency chart using the newly considered manipulator configurations. To understand the performance of Lunar and Mars manipulators, the design procedures were exercised on the three manipulator configurations assuming graphite/epoxy materials for the tubes and trusses. It is also assumed that the actuators are electric motor, gear reduction systems. Numerical results for manipulator masses and sizes are presented for a variety of manipulator reach and payload mass capabilities. Results are presented that demonstrate the sensitivity of manipulator mass to operational radius, tip force, and actuator efficiency. The effect of the value of gravitational force on the ratio of manipulator-mass to payload-mass is also shown. Finally, results are presented to demonstrate the relative mass reduction for the use of graphite/epoxy compared to aluminum for the support structure.

Keywords: Space Sciences (General)

Type: AIAA-2008-7916 , LAR-17528-1 , AIAA Space 2008 Conference &amp; Exposition; Sep 09, 2008 - Sep 11, 2008; San Diego, CA; United States

Format: application/pdf

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Technology Challenges and Opportunities for Very Large In-Space Structural Systems (2009)

Belvin, W. Keith ; Watson, Judith J. ; Dorsey, John T.

In: CASI

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Publication Date: 2019-07-13

Description: Space solar power satellites and other large space systems will require creative and innovative concepts in order to achieve economically viable designs. The mass and volume constraints of current and planned launch vehicles necessitate highly efficient structural systems be developed. In addition, modularity and in-space deployment/construction will be enabling design attributes. While current space systems allocate nearly 20 percent of the mass to the primary structure, the very large space systems of the future must overcome subsystem mass allocations by achieving a level of functional integration not yet realized. A proposed building block approach with two phases is presented to achieve near-term solar power satellite risk reduction with accompanying long-term technology advances. This paper reviews the current challenges of launching and building very large space systems from a structures and materials perspective utilizing recent experience. Promising technology advances anticipated in the coming decades in modularity, material systems, structural concepts, and in-space operations are presented. It is shown that, together, the current challenges and future advances in very large in-space structural systems may provide the technology pull/push necessary to make solar power satellite systems more technically and economically feasible.

Keywords: Space Sciences (General)

Type: LF99-9135 , International Symposium on Solar Energy from Space,; Sep 08, 2009 - Sep 10, 2009; Toronto; Canada

Format: application/pdf

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