Present Status of Damping Test Techniques for Magnesium Alloys

Tie Tian; Xing Zi Mao; Lin Mi

doi:10.4028/www.scientific.net/AMM.472.85

Paper Titles

The Consistency between MLP Method and Modified Method of Multiple Scales for Strong Nonlinear Primary Resonance of Duffing Equation Subject to Harmonic Excitation in Complex Number Field
p.62

Coupling Vibration of Tapered Rod
p.69

Study and Test of Coupled Axial and Transverse Vibrations on Drillpipe for Rotary Drilling Rig
p.73

Resonance Reliability Analysis of Aeroengine Compressor Rotor Blade
p.79

Present Status of Damping Test Techniques for Magnesium Alloys
p.85

Parameter Sensitivity Analysis of Gear Contact in Gear-Bearing-Rotor System Based on Romax
p.91

Investigation of Crack Line Offset of Fracture Splitting Connecting Rod
p.100

Near-Field Noise Prediction for Landing Gear Based on Detached Eddy Simulations
p.105

Fatigue Life Analysis of Auger Stem in Soft Coal Seam
p.111

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 472Present Status of Damping Test Techniques for...

Present Status of Damping Test Techniques for Magnesium Alloys

Abstract:

The present situation of damping capacity for magnesium alloys test techniques and its equipment were reviewed. Because there were many types of test equipment, So it pointed out the suitability of all testing equipment and schemes for damping testing of magnesium alloys. And based on the research results of dislocation damping mechanism of magnesium alloys. The author holds that test scheme for torsional deformation of torsion pendulum and test scheme for bending and shearing deformation of dynamic thermal mechanical analyzer meet high-precision test requirements for non-linear damping capacity of magnesium alloys. The study make great value for testing damping of magnesium alloys and reflecting their damping advantage.

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Periodical:

Applied Mechanics and Materials (Volume 472)

Pages:

85-90

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.472.85

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Online since:

January 2014

Authors:

Tie Tian, Xing Zi Mao, Lin Mi

Keywords:

Magnesium Alloy, Nonlinear Damping, Test, Vibration

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