The Shock and Vibration Bulletin
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Total Pages | : 246 |
Release | : 1947 |
Genre | : Shock (Mechanics) |
ISBN | : |
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Author | : |
Publisher | : |
Total Pages | : 246 |
Release | : 1947 |
Genre | : Shock (Mechanics) |
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Total Pages | : 520 |
Release | : 1969-12 |
Genre | : Shock (Mechanics) |
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Total Pages | : 908 |
Release | : 1966 |
Genre | : Shock (Mechanics) |
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Total Pages | : 656 |
Release | : 1974 |
Genre | : Shock (Mechanics) |
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Author | : Christian Lalanne |
Publisher | : John Wiley & Sons |
Total Pages | : 408 |
Release | : 2014-04-17 |
Genre | : Science |
ISBN | : 1118931149 |
This volume considers the shock response spectrum, its various definitions, properties and the assumptions involved in its calculation. In developing the practical application of these concepts, the forms of shock most often used with test facilities are presented together with their characteristics and indications of how to establish test configurations comparable with those in the real, measured environment. This is followed by a demonstration of how to meet these specifications using standard laboratory equipment – shock machines, electrodynamic exciters driven by a time signal or a response spectrum – with a discussion on the limitations, advantages and disadvantages of each method.
Author | : Henry C. Pusey |
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Total Pages | : 620 |
Release | : 1996 |
Genre | : Shock (Mechanics) |
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Author | : Christian Lalanne |
Publisher | : John Wiley & Sons |
Total Pages | : 479 |
Release | : 2013-03-04 |
Genre | : Technology & Engineering |
ISBN | : 1118618998 |
Mechanical Vibration and Shock Analysis, Second Edition Volume 3: Random Vibration The vast majority of vibrations encountered in a real-world environment are random in nature. Such vibrations are intrinsically complicated, but this volume describes a process enabling the simplification of the analysis required, and the analysis of the signal in the frequency domain. Power spectrum density is also defined, with the requisite precautions to be taken in its calculation described together with the processes (windowing, overlapping) necessary for improved results. A further complementary method, the analysis of statistical properties of the time signal, is described. This enables the distribution law of the maxima of a random Gaussian signal to be determined and simplifies calculation of fatigue damage to be made by the avoidance of the direct counting of peaks. The Mechanical Vibration and Shock Analysis five-volume series has been written with both the professional engineer and the academic in mind. Christian Lalanne explores every aspect of vibration and shock, two fundamental and extremely significant areas of mechanical engineering, from both a theoretical and practical point of view. The five volumes cover all the necessary issues in this area of mechanical engineering. The theoretical analyses are placed in the context of both the real world and the laboratory, which is essential for the development of specifications.
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Total Pages | : 274 |
Release | : 1976 |
Genre | : Shock (Mechanics) |
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Total Pages | : 1390 |
Release | : 1987 |
Genre | : Aeronautics |
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Lists citations with abstracts for aerospace related reports obtained from world wide sources and announces documents that have recently been entered into the NASA Scientific and Technical Information Database.
Author | : Christian Lalanne |
Publisher | : John Wiley & Sons |
Total Pages | : 534 |
Release | : 2014-04-16 |
Genre | : Science |
ISBN | : 1118931203 |
Fatigue damage in a system with one degree of freedom is one of the two criteria applied when comparing the severity of vibratory environments. The same criterion is also used for a specification representing the effects produced by the set of vibrations imposed in a real environment. In this volume, which is devoted to the calculation of fatigue damage, Christian Lalanne explores the hypotheses adopted to describe the behavior of material affected by fatigue and the laws of fatigue accumulation. The author also considers the methods for counting response peaks, which are used to establish the histogram when it is not possible to use the probability density of the peaks obtained with a Gaussian signal. The expressions for mean damage and its standard deviation are established and other hypotheses are tested.