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TECHNICAL BRIEFS

Influence of Air Temperature Change on Equilibrium Velocity of Pneumatic Cylinders

[+] Author and Article Information
Toshiharu Kagawa, Luis R. Tokashiki, Toshinori Fujita

Precision and Intelligence Laboratory, Tokyo Institute of Technology, 4259 Nagatsuda-chou, Midori-ku, Yokohama-shi, Kanagawa-prefecture, 226-8503, Japan

J. Dyn. Sys., Meas., Control 124(2), 336-341 (May 10, 2002) (6 pages) doi:10.1115/1.1470177 History: Received April 11, 2000; Online May 10, 2002
Copyright © 2002 by ASME
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References

The Japan Hydraulic and Pneumatic Society, 1989, Manual of Hydraulics and Pneumatics, Ohmu Ltd., Tokyo.
Ando, K., 1965, “Report on Characteristics of Pneumatic Systems in Resistance Welding Machines,” The Japan Welding Society.
Komiya, N., Kagawa, T., Fujita, T., 1993, “Characteristics of Temperature and Pressure Responses with Condensation in Pneumatic Chamber,” Proc. 4th Joint Symposium on Fluid Control and Measurement, pp. 1–6.
Kuroshita,  K., Takeuchi,  T., and Ichikawa,  T., 1985, “Study on the Temperature Characteristics of a Pneumatic Cylinder System,” J. Jpn. Hydraul. Pneum. Soc., 16, pp. 131–139.
Blackburn, J. F., Reethof, G., and Shearer, J. L., 1960, Fluid Power Control, Wiley, M.I.T. Press, New York.
Andersen, B. W., 1967, The Analysis and Design of Pneumatic Systems, Wiley, New York.
Otis,  D. R., 1970, “Thermal Damping in Gas-Filled Composite Materials During Impact Loading,” ASME J. Appl. Mech., 37, pp. 38–43.
Kagawa,  T., 1985, “Heat Transfer Effects on the Frequency Response of a Pneumatic Nozzle Flapper,” ASME J. Dyn. Syst., Meas., Control, 107, pp. 332–336.
Belforte,  G., Raparelli,  T., Velardocchia,  M., 1993, “Study of the Behavior of Lip Seals in Pneumatic Actuators,” Lubr. Eng., 49, pp. 775–780.
Tokashiki,  L. R., Fujita,  T., Kagawa,  T., 1999, “Stick-slip Motion in Pneumatic Cylinders Driven by Meter-out Circuit,” J. Jpn. Hydraul. Pneum. Soc., 11, pp. 22–29.
Tokashiki, L. R., Fujita, T., Kagawa, T., Takeuchi, M., 1997, “Air Temperature Measurement in Pneumatic Systems Considering the Thermocouple Dynamics,” Proc. 14th Sensing Forum of The Japan Society of Instrument and Control Engineers, Nagasaki, Japan, pp. 11–16.
Holman, J. P., 1992, Heat Transfer, 7th edition, McGraw-Hill, New York.

Figures

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Pneumatic cylinder system
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Experimental and simulation results when load mass is changed (Case A: M=21 [kg], Case B: M=6 [kg])
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Experimental and simulation results when initial pressure at the discharge side is changed (Case A: Pd ini=590 [kPa ], Case C: Pd ini=390 [kPa ])
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Shock absorber mechanism
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Comparison of velocity responses for Case A with different temperature responses

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