Acoustic emission sensors were used to detect contact between a moving tape and the flange of a tape guide. The influence of tape drive operating conditions on the tape edge contact force was studied. A one-dimensional model was developed to predict the magnitude of tape/flange impact. The model fits the experimental data well.
Issue Section:
Technical Briefs
1.
Taylor
, R. J.
, Strahle
, P.
, Stahl
, J.
, and Talke
, F. E.
, 2000, “Measurement of Cross-Track Motion of Magnetic Tapes
,” J. Inf. Storage Process. Syst.
1099-8047, 2
, pp. 255
–261
.2.
Childers
, E. R.
, Imaino
, W.
, Eaton
, J. H.
, Jaquette
, G. A.
, Koeppe
, P. V.
, and Hellman
, D. J.
, 2003, “Six Orders of Magnitude in Linear Tape Technology: The One-Terabyte Project
,” IBM J. Res. Dev.
0018-8646, 47
(4
), pp. 471
–482
.3.
Lakshmikumaran
, A. V.
, and Wickert
, J. A.
, 1998, “Edge Buckling of Imperfectly Guided Webs
,” ASME J. Vibr. Acoust.
0739-3717, 120
, pp. 346
–352
.4.
Wang
, J. H.
, Taylor
, R. J.
, and Talke
, F. E.
, 2003, “Lateral Motion and Edge Wear of Magnetic Tapes
,” Tribol. Int.
0301-679X, 36
, pp. 423
–431
.5.
Doyle
, J. F.
, 1987, “Determining the Contact Force During the Transverse Impact of Plates
,” Exp. Mech.
0014-4851, 21
(1
), pp. 68
–72
.6.
Goldade
, A. V.
, and Bhushan
, B.
, 2004, “Tape Edge Study in a Linear Tape Drive with Single-Flanged Guides
,” J. Magn. Magn. Mater.
0304-8853, 271
, pp. 409
–430
.7.
Goldade
, A. V.
, and Bhushan
, B.
, 2003, “Measurement and Origin of Tape Edge Damage in a Linear Tape Drive
,” Tribol. Lett.
1023-8883, 14
(3
), pp. 167
–180
.8.
Bhushan
, B.
, Hinteregger
, H. F.
, and Rogers
, A. E. E.
, 1994, “Thermal Considerations for the Edge Guiding of Thin Magnetic Tape in a Longitudinal Tape Transport
,” Wear
0043-1648, 171
, pp. 179
–193
.9.
Taylor
, R. J.
, and Talke
, F. E.
, 2005, “High Frequency Lateral Tape Motion and the Dynamics of Tape Edge Contact
,” Microsyst. Technol.
0946-7076, 11
, pp. 1166
–1170
.10.
Yan
, T.
, and Jones
, B. E.
, 2000, “Traceability of Acoustic Emission Measurements Using Energy Calibration Methods
,” Meas. Sci. Technol.
0957-0233, 11
, pp. L9
–L12
.11.
Clough
, R. B.
, 1987, “The Energetics of Acoustic Emission Source Characterization
,” Mater. Eval.
0025-5327, 45
, pp. 556
–563
.12.
Hsu
, N. N.
, and Breckenridge
, F. R.
, 1981, “Characterization and Calibration of Acoustic Emission Sensors
,” Mater. Eval.
0025-5327, 39
, pp. 60
–68
.13.
Knigge
, B.
, and Talke
, F. E.
, 2000, “Contact Measurement Using Acoustic Emission Analysis and System Identification Methods
,” Tribol. Int.
0301-679X, 33
, pp. 639
–646
.14.
Matsumoto
, M.
, Iida
, A.
, and Hamaguchi
, T.
, 1993, “Measurement of Slider/Disk Collision Forces Using Acoustic Emission Source Wave Analysis
,” Tribol. Trans.
1040-2004, 36
(4
), pp. 736
–740
.15.
Senator
, M.
, 1970, “Existence and Stability of Periodic Motions of a Harmonically Forced Impacting System
,” J. Acoust. Soc. Am.
0001-4966, 47
(5
) (part 2), pp. 1390
–1397
.16.
Shaw
, S. W.
, and Holmes
, P. J.
, 1983, “A Periodically Forced Piecewise Linear Oscillator
,” J. Sound Vib.
0022-460X, 90
(1
), pp. 129
–155
.17.
Brach
, R. M.
, 1991, Mechanical Impact Dynamics—Rigid Body Collisions
, Wiley
, New York.18.
Popov
, E. G.
, 1999, Engineering Mechanics of Solids
, Prentice-Hall
, Englewood Cliffs, NJ.19.
Broese van Groenou
, A.
, 1991, “Tribology of Magnetic Storage Systems a Short Review
,” J. Magn. Magn. Mater.
0304-8853, 95
, pp. 289
–312
.20.
Raeymaekers
, B.
, Etsion
, I.
, and Talke
, F. E.
, 2007, “The Influence of Operating and Design Parameters on the Magnetic Tape/Guide Friction Coefficient
,” Tribol. Lett.
1023-8883, 25
(2
), pp. 161
–171
.Copyright © 2007
by American Society of Mechanical Engineers
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