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Steady-state vibrations of an elastic beam on a visco-elastic layer under moving load (2000)

Metrikine, A. V. ; Popp, K.

Springer

Archive of applied mechanics 70 (2000), S. 399-408

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ISSN: 1432-0681

Keywords: Key words Moving load ; wave radiation ; steady-state response ; dispersion curves ; critical velocity

Source: Springer Online Journal Archives 1860-2000

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics

Notes: Summary The steady-state response of an elastic beam on a visco-elastic layer to a uniformly moving constant load is investigated. As a method of investigation the concept of “equivalent stiffness” of the layer is used. According to this concept, the layer is replaced by a 1D continuous foundation with a complex stiffness, which depends on the frequency and the wave number of the bending waves in the beam. This stiffness is analyzed as a function of the phase velocity of the waves. It is shown that the real part of the stiffness decreases severely as the phase velocity tends to a critical value, a value determined by the lowest dispersion branch of the layer. As the phase velocity exceeds the critical value, the imaginary part of the equivalent stiffness grows substantially. The dispersion relation for bending waves in the beam is studied to analyze the effect of the layer depth on the critical (resonance) velocity of the load. It is shown that the critical velocity is in the order of the Rayleigh wave velocity. The smaller the layer depth, the higher the critical velocity. The effect of viscosity in the layer on the resonance vibrations is studied. It is shown that the deeper the layer, the smaller this effect.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004199900071

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Die Darstellung und die Eigenschaften der Silber(III)-oxidphase (1963)

Náray-Szabó, I. ; Popp, K.

Weinheim : Wiley-Blackwell

Zeitschrift für anorganische Chemie 322 (1963), S. 286-296

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ISSN: 0044-2313

Keywords: Chemistry ; Inorganic Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Description / Table of Contents: From AgNO3, AgF, and AgClO4 solutions, silver(III) oxide phases have been prepared by anodic oxidation. These are steel-gray, magnetite-like octahedra having a cubic face-centered unit cell (a = 9.842-9.890 Å).All the specimen obtained differ from the ideal composition Ag2O3, as analysis and pyenometric measurements show; they are supposed to be Ag2O3 defect compounds being only stable in the presence of foreign anions and Ag(I)ions (approximate formulae: Ag3+5 Ag+2O8NO3; Ag2(O, F)3; the perchlorate-containing phase has no stoichiometric composition). Their chemical properties and thermal decomposition are described.The alleged oxide Ag4O5 (SELBIN and USATEGUI) does not exist.

Notes: 1. Es wurden aus AgNO3-, AgF- und AgClO4-Lösungen höhere Silberoxidpräparate durch anodische Oxydation dargestellt. Diese bestehen alle aus stahlgrauen, magnetitähnlichen Oktaedern, die Kantenlänge der kubisch flächenzentrierten Zelle ist a = 9,842-9,890 Å.2. Die Präparate wurden analysiert; ihre Dichte wurde gemessen und daraus der Zelleninhalt in Atomen bestimmt. Daraus geht hervor, daß das Gitter defekt ist. Die Zusammensetzung der nitrathaltigen Verbindung ist mit guter Annäherung Ag7NO11 oder Ag3+5 Ag+2O8NO3. Die fluorhaltige Phase kann als Ag2(O, F)3 formuliert werden, die perchlorathaltige hat keine stöchiometrische Formel.3. Alle diese Oxide stellen eine kubisch flächenzentrierte Phase mit der „idealen Zusammensetzung“ Ag2O3 dar, die aber nur in Gegenwart von Fremdanionen stabil ist und in welcher Ag3+ und Ag+-Ionen in verschiedenen Proportionen vorliegen.4. Die chemischen Eigenschaften werden beschrieben und die thermische Zersetzung (mit Derivatogrammen) wurde eingehend studiert.5. Das von SELBIN und USATEGUI angegebene Oxid „Ag4O5“ existiert nicht.

Additional Material: 1 Ill.