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Advanced Nondestructive Testing Methods for Bearing Inspection
ISSN: 0148-7191, e-ISSN: 2688-3627
Published February 01, 1972 by SAE International in United States
Annotation ability available
The principles of the magnetic-perturbation method of flaw detection and the Barkhausen noise residual stress measurement method are briefly reviewed. It is suggested that they provide very powerful tools for assuring improved ball bearing performance. The methods are applied for the evaluation of ball bearing races. Typical experimental results are presented along with metallurgical sectioning correlation.
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CitationBarton, J., Lankford, J., and Hampton, P., "Advanced Nondestructive Testing Methods for Bearing Inspection," SAE Technical Paper 720172, 1972, https://doi.org/10.4271/720172.
- Barton J. R. and Kusenberger F. N., “Magnetic Perturbation Inspection to Improve Reliability of High Strength Steel Components.” Paper 69-DE-58 presented at ASME Design Engineering Conference, New York, May 1969.
- Gardner C. G. and Barton J. R., “Recent Advances in Magnetic Field Methods of Nondestructive Evaluation for Aerospace Applications.” Paper presented at 35th Meeting of the Propulsion and Energetics Panel, Advisory Group for Aerospace Research and Development, London, April 1970.
- Pasley R. L., “Barkhausen Effect - An Indication of Stress.” Materials Evaluation, Vol. 28 (1970), p. 157.
- Gardner C. G., Matzkanin G. A., and Davidson D. L., “The Influence of Mechanical Stress on Magnetization Processes and Barkhausen Jumps in Ferromagnetic Materials.” Int. J. Nondestructive Testing, in press (1971).
- Bush H. D. and Tebble R. S., “The Barkhausen Effect.” Proc. Phys. Soc., Vol. 60 (1948), p. 370.
- Bloch R. J., “Application of Portable Magnetic Equipment to the Nondestructive Determination of Stress in Ferromagnetic Material.” Paper presented at Symposium on Advanced Nondestructive Testing Techniques, Army Materials and Mechanics Research Center, Watertown, Mass., June 1971. To be published in Int. J. Nondestructive Testing.
- Kittel C., “Physical Theory of Ferromagnetic Domains.” Reviews of Modern Physics, Vol. 21, No. 4 (October 1949).
- Bozarth R. M., “Ferromagnetism.” New York: D. Van Nostrand Co., Inc. 1951.
- Williams H. J. and Shockley W., “A Simple Domain Structure in an Iron Crystal Showing a Direct Correlation with the Magnetization.” Physical Review, Vol. 75, No. 1 (January 1949).
- Goodenough J. B., “A Theory of Domain Creation and Coercive Force in Polycrystalline Ferromagnetics.” Physical Review, Vol. 95, No. 4 (August 1954).
- Kittel C., “Theory of the Formation of Power Patterns on Ferromagnetic Crystals.” Letters to the editor, Physical Review, Vol. 76, No. 10 (November 1949).
- Bates L. F. and Neale F. E., “A Quantitative Study of the Domain Structure of Single Crystals of Silicon-Iron by the Powder Pattern Technique.” Proc. of Physical Society, Vol. 63.
- Graham, C. D. Jr. and Neurath P. W., “Domain Wall Orientations in Silicon-Iron Crystals.” J. of Applied Physics, Vol. 28 (July 1957).
- Stewart K. H., “Domain Wall Movement in a Single Crystal.” Proc. of Physical Society, LXIII, 7-A.
- Corner W. D. and Mason J. J., “The Effect of Stress on the Domain Structure of Cube-Textured Silicon Iron.” Proc. of Physical Society, Vol. 81 (1963).
- Dijkstra L. J. and Martius U. M., “Domain Pattern in Silicon-Iron under Stress.” Reviews of Modern Physics, Vol. 25 (January 1953).
- Barkhausen H., “Zwei mit Hilfe der neuen Verstarker entdeckte Erscheinungen.” Physik. Z. Vol. 20 (1919).
- Cummings H. N., Stulen F. B., and Schulte W. G., “Relation of Inclusions to the Fatigue Properties of SAE 4340 Steel.” WADC Technical Report 55-456, October 1955.
- Stulen F. B., Cummings H. N., and Schulte W. C., “Relation of Inclusions to the Fatigue Properties of High-Strength Steels.” International Conference on Fatigue of Metals, London, 1956.
- Cummings H. N., Stulen F. B., and Schulte W. C., “Relation of Inclusions to the Fatigue Properties of SAE 4340 Steel.” Trans. ASM, 1956.
- Cummings H. N., Stulen F. B., and Schulte W. C., “Fatigue Strength Reduction for Inclusions in High Strength Steels.” WADC Technical Report 57-589, August 1958.
- Cummings H. N., Stulen F. B., and Schulte W. C., “Tentative Fatigue Strength Reduction Factors for Silicate Type Inclusions in High Strength Steels.” ASTM, 1958.