The titled problem is studied numerically by finite element calculation. Attention is focused on the behavior of modal interactions when two modes are almost degenerate. In the case when the difference between the numbers of nodal diameters of these two modes is equal to a multiple of the number of the stationary load systems, the frequency loci may merge together (when one of these two modes is a reflected wave) or veer away (when both modes are non-reflected). Otherwise, the natural frequency loci simply cross each other and no instability is induced. When a backward wave meets its complex conjugate at the critical speed, it is found that divergence instability is induced when two times the number of nodal diameters is equal to a multiple of the number of stationary springs.

Issue Section:
Technical Briefs
Topics:
Rotating disks, Stability, Stress, Vibration, Waves, Finite element analysis, Springs
1.
Chen
J.-S.
, and
Bogy
D. B.
, “
Mathematical Structure of Modal Interactions in a Spinning Disk-Stationary Load System
,”
ASME Journal of Applied Mechanics
, Vol.
59
, No.
2
, Part 1, pp.
390
397
,
1992
.
2.
Huang
S.-C.
, and
Hsu
B.-S.
, “
Theory of Receptance Applied to Modal Analysis of a Spinning Disk With Interior Multi-Point Supports
,”
ASME JOURNAL OF VIBRATION AND ACOUSTICS
, Vol.
114
, pp.
468
476
,
1992
.
3.
Hutton
S. G.
,
Chonan
S.
, and
Lehmann
B. F.
, “
Dynamic Response of a Guided Circular Saw
,”
Journal of Sound and Vibration
, Vol.
112
, No.
3
, pp.
527
539
,
1987
.
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 by The American Society of Mechanical Engineers
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