4,052 research outputs found

    Electroforming of a throat nozzle for a combustion facility (NASA Langley Reimbursable Program)

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    Special procedures were developed and then utilized for plating nickel over channels of a throat nozzle section of a NASA Langley combustor facility. When tested hydrostatically, the part failed in the stainless-steel substrate and not at the interface between the plating and substrate. The procedures used for plating the part are detailed as are high-temperature property data which show that the part can withstand long-term, high-temperature exposure without suffering degradation of the plated bond

    High-temperature ductility of electro-deposited nickel

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    Work done during the past several months on high temperature ductility of electrodeposited nickel is summarized. Data are presented which show that earlier measurements made at NASA-Langley erred on the low side, that strain rate has a marked influence on high temperature ductility, and that codeposition of a small amount of manganese helps to improve high temperature ductility. Influences of a number of other factors on nickel properties were also investigated. They included plating solution temperature, current density, agitation, and elimination of the wetting agent from the plating solution. Repair of a large nozzle section by nickel plating is described

    The influence of the preparation method of NiOx photocathodes on the efficiency of p-type dye-sensitised solar cells

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    Improving the efficiency of p-type dye-sensitized solar cells (DSCs) is an important part of the development of high performance tandem DSCs. The optimization of the conversion efficiency of p-DSCs could make a considerable contribution in the improvement of solar cells at a molecular level. Nickel oxide is the most widely used material in p-DSCs, due to its ease of preparation, chemical and structural stability, and electrical properties. However, improvement of the quality and conductivity of NiO based photocathodes needs to be achieved to bring further improvements to the solar cell efficiency. The subject of this review is to consider the effect of the preparation of NiO surfaces on their efficiency as photocathodes. (C) 2015 Elsevier B.V. All rights reserved

    Integrating Gamification Principles into Photography Skill Learning: The Influence of Games on Student Motivation

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    Changes to the global economic environment have introduced innovations in technology that replace human workers to complete repetitive tasks. Due to the removal of these jobs, workers are required to develop new skills to compete for emerging jobs. However, lack of motivation to learn skills and content taught in schools has been a problem that creates the possibility that current students will not be prepared to enter the future workforce. To help improve intrinsic motivation and skills development, gamification has been explored as a mechanism for learning. The aim of this study was to explore the six intrinsically motivating factors required for gamified design (Malone & Lepper, 1987) and their effect on learning outcomes. One hundred thirty-one middle school students participated in the game CLICK that was designed to teach them photography skills. At the conclusion of the game, students were tested on their photography knowledge and given the Intrinsic Motivations Survey to record feelings about their game experience. Multiple regression analysis was conducted on test and survey data for all students, female students only, and male students only. Findings from these analyses show that curiosity and control predicted test scores for all students and male students. There were no predictor variables that predicted test scores for female students, but the number of participants for female and male groups was too small and should not be used to inform gamified design for gender-specific applications. A maximum likelihood estimation SEM model was generated using test and survey data from all students and had an excellent fit to the data (Model χ2 = 9.35, p = .499; RMSEA < .001; CFI = 1.000; TLI = 1.002). This model showed that curiosity, control, and challenge had direct and indirect effects on test scores. Findings from this study show that: (a) curiosity is a necessary factor that needs to be embedded into gamified design; (b) control needs to be managed to avoid poor learning outcomes; and (c) challenges need to be implemented to promote curiosity and avoid control issues

    Exploring the concept of interaction computing through the discrete algebraic analysis of the Belousov–Zhabotinsky reaction

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    Interaction computing (IC) aims to map the properties of integrable low-dimensional non-linear dynamical systems to the discrete domain of finite-state automata in an attempt to reproduce in software the self-organizing and dynamically stable properties of sub-cellular biochemical systems. As the work reported in this paper is still at the early stages of theory development it focuses on the analysis of a particularly simple chemical oscillator, the Belousov-Zhabotinsky (BZ) reaction. After retracing the rationale for IC developed over the past several years from the physical, biological, mathematical, and computer science points of view, the paper presents an elementary discussion of the Krohn-Rhodes decomposition of finite-state automata, including the holonomy decomposition of a simple automaton, and of its interpretation as an abstract positional number system. The method is then applied to the analysis of the algebraic properties of discrete finite-state automata derived from a simplified Petri net model of the BZ reaction. In the simplest possible and symmetrical case the corresponding automaton is, not surprisingly, found to contain exclusively cyclic groups. In a second, asymmetrical case, the decomposition is much more complex and includes five different simple non-abelian groups whose potential relevance arises from their ability to encode functionally complete algebras. The possible computational relevance of these findings is discussed and possible conclusions are drawn

    Gold plating in the electronics industry

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    The Principle of Strain Reconstruction Tomography: Determination of Quench Strain Distribution from Diffraction Measurements

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    Evaluation of residual elastic strain within the bulk of engineering components or natural objects is a challenging task, since in general it requires mapping a six-component tensor quantity in three dimensions. A further challenge concerns the interpretation of finite resolution data in a way that is commensurate and non-contradictory with respect to continuum deformation models. A practical solution for this problem, if it is ever to be found, must include efficient measurement interpretation and data reduction techniques. In the present note we describe the principle of strain tomography by high energy X-ray diffraction, i.e. of reconstruction of the higher dimensional distribution of strain within an object from reduced dimension measurements; and illustrate the application of this principle to a simple case of reconstruction of an axisymmetric residual strain state induced in a cylindrical sample by quenching. The underlying principle of the analysis method presented in this paper can be readily generalised to more complex situations.Comment: 10 pages, 6 figure

    The Principle of Strain Reconstruction Tomography: Determination of Quench Strain Distribution from Diffraction Measurements

    Full text link
    Evaluation of residual elastic strain within the bulk of engineering components or natural objects is a challenging task, since in general it requires mapping a six-component tensor quantity in three dimensions. A further challenge concerns the interpretation of finite resolution data in a way that is commensurate and non-contradictory with respect to continuum deformation models. A practical solution for this problem, if it is ever to be found, must include efficient measurement interpretation and data reduction techniques. In the present note we describe the principle of strain tomography by high energy X-ray diffraction, i.e. of reconstruction of the higher dimensional distribution of strain within an object from reduced dimension measurements; and illustrate the application of this principle to a simple case of reconstruction of an axisymmetric residual strain state induced in a cylindrical sample by quenching. The underlying principle of the analysis method presented in this paper can be readily generalised to more complex situations.Comment: 10 pages, 6 figure

    The Principle of Strain Reconstruction Tomography: Determination of Quench Strain Distribution from Diffraction Measurements

    Full text link
    Evaluation of residual elastic strain within the bulk of engineering components or natural objects is a challenging task, since in general it requires mapping a six-component tensor quantity in three dimensions. A further challenge concerns the interpretation of finite resolution data in a way that is commensurate and non-contradictory with respect to continuum deformation models. A practical solution for this problem, if it is ever to be found, must include efficient measurement interpretation and data reduction techniques. In the present note we describe the principle of strain tomography by high energy X-ray diffraction, i.e. of reconstruction of the higher dimensional distribution of strain within an object from reduced dimension measurements; and illustrate the application of this principle to a simple case of reconstruction of an axisymmetric residual strain state induced in a cylindrical sample by quenching. The underlying principle of the analysis method presented in this paper can be readily generalised to more complex situations.Comment: 10 pages, 6 figure
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