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The impact damped harmonic oscillator in free decay (1987)

Brown, G. V. ; North, C. M.

In: CASI

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Publication Date: 2019-06-28

Description: The impact-damped oscillator in free decay is studied by using time history solutions. A large range of oscillator amplitude is covered. The amount of damping is correlated with the behavior of the impacting mass. There are three behavior regimes: (1) a low amplitude range with less than one impact per cycle and very low damping, (2) a useful middle amplitude range with a finite number of impacts per cycle, and (3) a high amplitude range with an infinite number of impacts per cycle and progressively decreasing damping. For light damping the impact damping in the middle range is: (1) proportional to impactor mass, (2) additive to proportional damping, (3) a unique function of vibration amplitude, (4) proportional to 1-epsilon, where epsilon is the coefficient of restitution, and (5) very roughly inversely proportional to amplitude. The system exhibits jump phenomena and period doublings. An impactor with 2 percent of the oscillator's mass can produce a loss factor near 0.1.

Keywords: MECHANICAL ENGINEERING

Type: NASA-TM-89897 , E-3587 , NAS 1.15:89897

Format: application/pdf

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An active homopolar magnetic bearing with high temperature superconductor (HTS) coils and ferromagnetic cores (1995)

Brown, G. V. ; Provenza, A. J. ; Dirusso, E.

In: CASI

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Publication Date: 2019-07-13

Description: A proof-of-feasibility demonstration showed that high temperature superconductor (HTS) coils can be used in a high-load, active magnetic bearing in liquid nitrogen. A homopolar radial bearing with commercially wound HTS (Bi 2223) bias and control coils produced over 200 lb (890 N) radial load capacity (measured non-rotating) and supported a shaft to 14000 rpm. The goal was to show that HTS coils can operate stably with ferromagnetic cores in a feedback controlled system at a current density similar to that in Cu in liquid nitrogen. Design compromises permitted use of circular coils with rectangular cross section. Conductor improvements will eventually permit coil shape optimization, higher current density and higher bearing load capacity. The bias coil, wound with non-twisted, multifilament HTS conductor, required negligible power to carry its direct current. The control coils were wound with monofilament HTS sheathed in Ag. These dissipated negligible power for direct current (i.e. for steady radial load components). When an alternating current (AC) was added, the AC component dissipated power which increased rapidly with frequency and quadratically with AC amplitude. In fact at frequencies above about 2 hz, the effective resistance of the control coil conductor actually exceeds that of the silver which is in electrical parallel with the oxide superconductor. This is at least qualitatively understandable in the context of a Bean-type model of flux and current penetration into a Type II superconductor. Fortunately the dynamic currents required for bearing stability are of small amplitude. These results show that while twisted multifilament conductor is not needed for stable levitation, twisted multifilaments will be required to reduce control power for sizable dynamic loads, such as those due to unbalance.

Keywords: MECHANICAL ENGINEERING

Type: NASA-TM-106916 , E-9624 , NAS 1.15:106916 , Mag 1995 Conference; Aug 08, 1995 - Aug 11, 1995; Alexandria, VA; United States

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The impact damped harmonic oscillator in free decay (1987)

Brown, G. V. ; North, C. M.

In: Other Sources

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Publication Date: 2019-07-27

Keywords: MECHANICAL ENGINEERING

Type: The role of damping in vibration and noise control; Sept. 27-30, 1987; Boston, MA; United States

Format: text

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Stiffness of magnetic bearings subjected to combined static and dynamic loads (1992)

Brown, G. V. ; Hurley, J. ; Rao, D. K. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-12

Description: This paper investigates the stiffness of a magnetic bearing that is subjected to the combined action of static and dynamic loads. Since their sum cannot exceed the saturation load, a large static load will imply that the bearing can carry only a small dynamic load. This smaller dynamic load together with the practical vibration amplitude define a practical upper bound to the dynamic stiffness. This paper also presents approximate design formulas and curves for this stiffness capacity as a function of the ratio of dynamic and static loads. In addition, it indicates that vibrations larger than a certain gap fraction can destabilize the magnetic bearing. This gap fraction, called the critical gap fraction, depends on the dynamic and static load ratio. For example, if the dynamic load is half of the static load, the use of more than 25 percent of gap can destabilize the bearing.

Keywords: MECHANICAL ENGINEERING

Type: ASME PAPER 91-TRIB-27 , ASME, Transactions, Journal of Tribology (ISSN 0742-4787); 114; 4; p. 785-789.

Format: text

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