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1

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EHD analysis of and experiments on pumping Leningrader seals (1986)

Eusepi, M. W. ; Walowit, J. A.

In: CASI

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Publication Date: 2019-06-28

Description: Analysis and design charts have been generated to provide design data for Pumping Leningrader Reciprocating Rod Seals. The analytical treatment divides the seal into three regions: an inlet zone, induced with the use of an expansion ring, a contact zone, and an exit zone. Complete solutions have been obtained by matching elasticity equations with hydrodynamic theory. Experiments, although of a limited nature, did demonstrate the ability of the seal design analysis to provide viable seals.

Keywords: MECHANICAL ENGINEERING

Type: NASA-CR-179570 , DOE/NASA/0343-1 , NAS 1.26:179570 , MTI-86TR33

Format: application/pdf

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2

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Performance of Oil Pumping Rings: An Analytical and Experimental Study (1986)

Pinkus, O. ; Eusepi, M. W. ; Holmes, P. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: A steady-state design computer program was developed to predict the performance of pumping rings as functions of geometry, applied loading, speed, ring modulus, and fluid viscosity. Additional analyses were developed to predict transient behavior of the ring and the effects of temperature rises occurring in the hydrodynamic film between the ring and shaft. The analysis was initially compared with previous experimental data and then used to design additional rings for further testing. Tests were performed with Rulon, carbon-graphite, and babbit rings. The design analysis was used to size all of the rings and to select the ranges of clearances, thickness, and loading. Although full quantitative agreement was lacking, relative agreement existed in that rings that were predicted to perform well theoretically, generally performed well experimentally. Some causes for discrepanices between theory and experiment are believed to be due to starvation, leakage past the secondary seal at high pressures, and uncertainties in the small clearances and local inlet temperatures to the pumping ring. A separate preliminary analysis was performed for a pumping Leningrader seal. This anlaysis can be used to predict the film thickness and flow rate thr ough the seal as a function of pressure, speed, loading, and geometry.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: NASA-CR-175083 , DOE/NASA-0256/1 , NAS 1.26:175083 , MTI-86TR17

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3

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An Experimental Evaluation of Oil Pumping Rings (1981)

Eusepi, M. W. ; Cohen, M. ; Walowit, J.

In: CASI

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Publication Date: 2019-06-28

Description: The design and construction of a reciprocating test vehicle to be used in evaluating hydrodynamic oil pumping rings are discussed. In addition, experimental test data are presented for three pumping ring designs that were constructed from Tin-Based Babbitt (SAE 11), Bearing Bronze (SAE 660), and Mechanical Carbon Graphite (Union Carbide Grade CNF-J). Data of pumped flow rate versus delivered pressure, as well as friction loss, are reported for the following conditions: frequencies of 10, 35 and 45 Hz; strokes of 25.4 mm (1.00 in.), 38.1 mm (1.50 in.) and 50.8 mm (2.00 in.) oil inlet temperature of 49 degrees (120 degrees); and pumping ring close-in pressures of 10.3 MPa (1500 lb/square inch. A 20W40 automotive oil was used for all tests. The maximum delivered pressure was 11 MPa (1600 lb/square inch. An analysis of hydrodynamic oil pumping rings was performed and the results of the analysis were compared to measured test data.

Keywords: MECHANICAL ENGINEERING

Type: NASA-CR-165271 , DOE/NASA/0119-81/1 , MTI-81TR3

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4

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Small, high-speed bearing technology for cryogenic turbo-pumps (1974)

Winn, L. W. ; Smalley, A. J. ; Eusepi, M. W.

In: CASI

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Publication Date: 2019-06-27

Description: The design of 20-mm bore ball bearings is described for cryogenic turbo-machinery applications, operating up to speeds of 120,000 rpm. A special section is included on the design of hybrid bearings. Each hybrid bearing is composed of a ball bearing in series with a conventional pressurized fluid-film journal bearing. Full details are presented on the design of a test vehicle which possesses the capability of testing the above named bearings within the given speed range under externally applied radial and axial loads.

Keywords: MECHANICAL ENGINEERING

Type: NASA-CR-134615 , MTI-74TR29

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5

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Development of a high speed parallel hybrid boost bearing (1973)

Winn, L. W. ; Eusepi, M. W.

In: CASI

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Publication Date: 2019-06-27

Description: The analysis, design, and testing of the hybrid boost bearing are discussed. The hybrid boost bearing consists of a fluid film bearing coupled in parallel with a rolling element bearing. This coupling arrangement makes use of the inherent advantages of both the fluid film and rolling element bearing and at the same time minimizes their disadvantages and limitations. The analytical optimization studies that lead to the final fluid film bearing design are reported. The bearing consisted of a centrifugally-pressurized planar fluid film thrust bearing with oil feed through the shaft center. An analysis of the test ball bearing is also presented. The experimental determination of the hybrid bearing characteristics obtained on the basis of individual bearing component tests and a combined hybrid bearing assembly is discussed and compared to the analytically determined performance characteristics.

Keywords: MACHINE ELEMENTS AND PROCESSES

Type: NASA-CR-2226 , MTI-72TR25

Format: application/pdf

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