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Solid lubrication design methodology, phase 2 (1986)

Aggarwal, B. B. ; Wedeven, L. D. ; Pallini, R. A. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: The high temperature performance of solid lubricated rolling elements was conducted with a specially designed traction (friction) test apparatus. Graphite lubricants containing three additives (silver, phosphate glass, and zinc orthophosphate) were evaluated from room temperature to 540 C. Two hard coats were also evaluated. The evaluation of these lubricants, using a burnishing method of application, shows a reasonable transfer of lubricant and wear protection for short duration testing except in the 200 C temperature range. The graphite lubricants containing silver and zinc orthophosphate additives were more effective than the phosphate glass material over the test conditions examined. Traction coefficients ranged from a low of 0.07 to a high of 0.6. By curve fitting the traction data, empirical equations for slope and maximum traction coefficient as a function of contact pressure (P), rolling speed (U), and temperature (T) can be developed for each lubricant. A solid lubricant traction model was incorporated into an advanced bearing analysis code (SHABERTH). For comparison purposes, preliminary heat generation calculations were made for both oil and solid lubricated bearing operation. A preliminary analysis indicated a significantly higher heat generation for a solid lubricated ball bearing in a deep groove configuration. An analysis of a cylindrical roller bearing configuration showed a potential for a low friction solid lubricated bearing.

Keywords: URBAN TECHNOLOGY AND TRANSPORTATION

Type: NASA-CR-175114 , DOE/NASA/0323-2 , NAS 1.26:175114 , AT86D002

Format: application/pdf

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PLANETSYS, a Computer Program for the Steady State and Transient Thermal Analysis of a Planetary Power Transmission System: User's Manual (1981)

Ragen, M. A. ; Hadden, G. B. ; Sheynin, L. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: The material presented is structured to guide the user in the practical and correct implementation of PLANETSYS which is capable of simulating the thermomechanical performance of a multistage planetary power transmission. In this version of PLANETSYS, the user can select either SKF or NASA models in calculating lubricant film thickness and traction forces.

Keywords: COMPUTER PROGRAMMING AND SOFTWARE

Type: NASA-CR-165366 , NAS 1.26:165366 , SKF-AT81DO44

Format: application/pdf

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Multistage Planetary Power Transmissions (1986)

Kleckner, R. J. ; Ragen, M. A. ; Hadden, G. B. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: PLANETSYS simulates thermomechanical performance of multistage planetary performance of multistage planetary power transmission. Two versions of code developed, SKF version and NASA version. Major function of program: compute performance characteristics of planet bearing for any of six kinematic inversions. PLANETSYS solves heat-balance equations for either steadystate or transient thermal conditions, and produces temperature maps for mechanical system.

Keywords: MACHINERY

Type: LEW-14100 , NASA Tech Briefs (ISSN 0145-319X); 9; 3; P. 154

Format: text

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Research report: User's manual for computer program AT81y003 SHABERTH. Steady state and transient thermal analysis of a shaft bearing system including ball, cylindrical and tapered roller bearings (1981)

Hadden, G. B. ; Kleckner, R. J. ; Ragen, M. A. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: The SHABERTH program is capable of simulating the thermomechanical performance of a load support system consisting of a flexible shaft supported by up to five rolling element bearings. Any combination of ball, cylindrical, and tapered roller bearings can be used to support the shaft. The user can select models in calculating lubricant film thickness and traction forces. The formulation of the cage pocket/rolling element interaction model was revised to improve solution numerical convergence characteristics.

Keywords: COMPUTER PROGRAMMING AND SOFTWARE

Type: NASA-CR-165365 , NAS 1.26:165365 , SKF-AT81DO40

Format: application/pdf

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