Results 271 to 280 of about 20,392 (302)

Damping capacity of Fe-Ru alloys

Scripta Materialia, 2000
In previous studies, some of the authors have reported that an Fe-17%Mn alloy undergoing non-thermoelastic {gamma}(fcc){r_arrow}{epsilon}(hcp) martensitic transformation possesses a high damping capacity, and that the damping capacity is closely related to the amount of {epsilon} martensite. Blackburn et al. investigated the transformation behaviors of
H.-C. Shin, J.-H. Jun, C.-S. Choi
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Damping capacity of VNS-2 steel

Strength of Materials, 1977
1. The damping properties of VNS-2 steel are mainly due to the dissipation of vibrational energy of a nonmagnetic nature. The capacity of the steel to dissipate energy during the attentuation of the vibrations is largely determined by the amount of residual austenite in the structure.
E. S. Makhnev, V. M. Kondratov, V. A. Morozov, A. I. Skvortsov, T. M. Gapeka   +4 more
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The damping capacity of wrought aluminum alloys

Metal Science and Heat Treatment, 1971
1. The decrement of vibrations of wrought aluminum is lower than that of magnesium, and amounts to 0.01 at an amplitude of 2.9·10−4. 2. Alloying reduces the damping capacity of aluminum. A sharp reduction of the decrement with alloying and a low level of the decrement (0.001) are characteristic of systems with relatively high solubility ...
M. E. Drits, L. L. Rokhlin, G. V. Ryuchina   +2 more
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Damping capacity, strain hardening and fatigue

Proceedings of the Physical Society, 1947
An electromagnetic method of exciting torsional resonance vibrations is described. For some alloys of aluminium, notably binary alloys containing 5% and 11% of magnesium, vibrational strains of sufficient magnitude to cause fatigue cracks can be developed by this method at frequencies of the order of one kilocycle per second.
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Damping capacity testing machine.

2012
http://archive.org/details ...
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The damping capacity of magnesium alloys

Metal Science and Heat Treatment, 1969
L. L. Rokhlin, V. V. Sheredin
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The effect of β′ precipitates on mechanical properties and damping capacity in the Mg–Gd alloy

Vacuum, 2023
Cong Dang, Jinxing Wang, Zihong Wang
exaly  

Damping capacity and dynamic modulus of hot pressed AlSi composites reinforced with different SiC particle sized

Composites Part B: Engineering, 2016
OSCAR Carvalho, D Soares, F S Silva
exaly  

damping capacity

2014
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Influence of alloy elements (Mo, Nb, Ti) on the strength and damping capacity of Fe-Cr based alloy

Materials Science & Engineering A: Structural Materials: Properties, Microstructure and Processing, 2016
Fu Wang, Qianfu Pan
exaly