Performance and Durability of High Temperature Foil Air Bearings for Oil-Free Turbomachinery

Performance and Durability of High Temperature Foil Air Bearings for Oil-Free Turbomachinery
Author :
Publisher :
Total Pages : 22
Release :
ISBN-10 : NASA:31769000632672
ISBN-13 :
Rating : 4/5 (72 Downloads)

Synopsis Performance and Durability of High Temperature Foil Air Bearings for Oil-Free Turbomachinery by : C. DellaCorte

The performance and durability of advanced, high temperature foil air bearings are evaluated under a wide range (10-50 kPa) of loads at temperatures from 25 to 650 deg C. The bearings are made from uncoated nickel based superalloy foils. The foil surface experiences sliding contact with the shaft during initial start/stop operation. To reduce friction and wear, the solid lubricant coating, PS 304, is applied to the shaft by plasma spraying. PS304 is a NiCr based Cr2O3 coating with silver and barium fluoride/calcium fluoride solid lubricant additions. The results show that the bearings provide lives well in excess of 30,000 cycles under all of the conditions tested. Several bearings exhibited lives in excess of 100,000 cycles. Wear is a linear function of the bearing load. The excellent performance measured in this study suggests that these bearings and the PS 304 coating are well suited for advanced high temperature, oil-free turbomachinery applications.

Performance and Durability of High Temperature Foil Air Bearing for Oil-Free Turbomachinery

Performance and Durability of High Temperature Foil Air Bearing for Oil-Free Turbomachinery
Author :
Publisher : Createspace Independent Publishing Platform
Total Pages : 34
Release :
ISBN-10 : 1721194568
ISBN-13 : 9781721194568
Rating : 4/5 (68 Downloads)

Synopsis Performance and Durability of High Temperature Foil Air Bearing for Oil-Free Turbomachinery by : National Aeronautics and Space Administration (NASA)

The performance and durability of advanced, high temperature foil air bearings are evaluated under a wide range (10-50 kPa) of loads at temperatures from 25 to 650 C. The bearings are made from uncoated nickel based superalloy foils. The foil surface experiences sliding contact with the shaft during initial start/stop operation. To reduce friction and wear, the solid lubricant coating, PS304, is applied to the shaft by plasma spraying. PS304, is a NiCr based Cr2O3 coating with silver and barium fluoride/calcium fluoride solid lubricant additions. The results show that the bearings provide lives well in excess of 30,000 cycles under all of the conditions tested. Several bearings exhibited lives in excess of 100,000 cycles. Wear is a linear function of the bearing load. The excellent performance measured in this study suggests that these bearings and the PS304 coating are well suited for advanced high temperature, oil-free turbomachinery applications. DellaCorte, C. and Valco, M. J. and Radil, K. C. and Heshmat, H. Glenn Research Center NASA/TM-1999-209187, NAS 1.15:209187, E-11697

11th International Conference on Turbochargers and Turbocharging

11th International Conference on Turbochargers and Turbocharging
Author :
Publisher : Elsevier
Total Pages : 497
Release :
ISBN-10 : 9780081000342
ISBN-13 : 0081000340
Rating : 4/5 (42 Downloads)

Synopsis 11th International Conference on Turbochargers and Turbocharging by : IMechE

The future market forces and environmental considerations in the passenger car and commercial vehicle sector mean more stringent engine downsizing is far more prevalent. Therefore, novel systems are required to provide boosting solutions including hybrid, electric-motor and exhaust waste energy recovery systems for high efficiency, response, reliability, durability and compactness. The current emission legislations and environmental trends for reducing CO2 and fuel consumption are the major market forces in the land and marine transport industries. The internal combustion engine is the key product and downsizing, efficiency and economy are the driving forces for development for both spark ignition (SI) and compression ignition (CI) engines in both markets. Future market forces and environmental considerations for transportation, specifically in the passenger car, commercial vehicle and the marine sectors mean more stringent engine downsizing. This international conference is the latest in the highly successful and prestigious series held regularly since 1978. These proceedings from the Institution's highly successful and prestigious series address current and novel aspects of turbocharging systems design, boosting solutions for engine downsizing and improvements in efficiency, and present the latest research and development in this growing and innovative area. - Focuses on boosting solutions including hybrid, electric-motor and exhaust waste energy recovery systems - Explores the current need for high efficiency, reliability, durability and compactness in recovery systems - Examines what new systems developments are underway

The Effect of Journal Roughness and Foil Coatings on the Performance of Heavily Loaded Foil Air Bearings

The Effect of Journal Roughness and Foil Coatings on the Performance of Heavily Loaded Foil Air Bearings
Author :
Publisher :
Total Pages : 30
Release :
ISBN-10 : NASA:31769000642911
ISBN-13 :
Rating : 4/5 (11 Downloads)

Synopsis The Effect of Journal Roughness and Foil Coatings on the Performance of Heavily Loaded Foil Air Bearings by :

Foil air bearing load capacity tests were conducted to investigate if a solid lubricant coating applied to the surface of the bearing's top foil can function as a break-in coating. Two foil coating materials, a conventional soft polymer film (polyimide) and a hard ceramic (alumina), were independently evaluated against as-ground and worn (run-in) journals coated with NASA PS304, a high-temperature solid lubricant composite coating. The foil coatings were evaluated at journal rotational speeds of 30000 rpm and at 25 deg C. Tests were also performed on a foil bearing with a bare (uncoated) nickel-based superalloy top foil to establish a baseline for comparison. The test results indicate that the presence of a top foil solid lubricant coating is effective at increasing the load capacity performance of the foil bearing. Compared to the uncoated baseline, the addition of the soft polymer coating on the top foil increased the bearing load coefficient by 120 percent when operating against an as-ground journal surface and 85 percent against a run-in journal surface. The alumina coating increased the load coefficient by 40 percent against the as-ground journal but did not have any affect when the bearing was operated with the run-in journal. The results suggest that the addition of solid lubricant films provide added lubrication when the air film is marginal indicating that as the load capacity is approached foil air bearings transition from hydrodynamic to mixed and boundary lubrication.

Design of an Innovative Bearing Arrangement Solution for Micro-GT

Design of an Innovative Bearing Arrangement Solution for Micro-GT
Author :
Publisher : VIDE LEAF
Total Pages : 68
Release :
ISBN-10 : 9788194466451
ISBN-13 : 8194466458
Rating : 4/5 (51 Downloads)

Synopsis Design of an Innovative Bearing Arrangement Solution for Micro-GT by : Fabrizio Stefani

Comparative Analysis of Bearings for Micro-GT: an Innovative Arrangement FEM Design of a Cutting-Edge Support System for Micro-GT

Research & Technology 2000

Research & Technology 2000
Author :
Publisher : DIANE Publishing
Total Pages : 211
Release :
ISBN-10 : 9781428918221
ISBN-13 : 1428918221
Rating : 4/5 (21 Downloads)

Synopsis Research & Technology 2000 by :

Bearing Technology

Bearing Technology
Author :
Publisher : BoD – Books on Demand
Total Pages : 122
Release :
ISBN-10 : 9789535131830
ISBN-13 : 9535131834
Rating : 4/5 (30 Downloads)

Synopsis Bearing Technology by : Pranav H. Darji

In the twenty-first century, bearings are expected to perform better in the form of various operating conditions, that is from low speed to extremely high speed and from low load to huge load applications. The expectations from the field of bearing technology are great. During the recent years, we have been witnessing the development of a new generation of mechanical systems that are highly miniaturized and very sophisticated, yet extremely robust. Technological progress creates increasingly arduous conditions for rolling mechanisms.