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Thompson, N. andWadsworth, N. J., “Metal Fatigue,”Advances in Physics (Supplement to Phil. Mag.),7,72–169 (1958).
Alden, T. H., “Basic Studies of Fatigue Fracture in Pure Metals,” Rpt No. 62-RL-2923M, General Electric Rsch. Lab., (Feb. 1962).
Avery, D. H., andBackofen, W. A., “Nucleation and Growth of Fatigue Cracks,”in Fracture of Solids, ed. by D. C. Drucker andJ. J. Gilman, John Wiley & Sons, Inc., N. Y. (1963).
Grosskreutz, J. C., “A Critical Review of Micromechanisms in Fatigue,” Proc. 10th Sagamore Army Mtls. Rsch. Conf., in Fatigue—An Interdisciplinary Approach, ed. by J. J. Burke, N. L. Reed and V. Weiss, Syracuse University Press, 27–59 (1964).
Gerberich, W. W., “Plastic Strains and Energy Density in Cracked Plates. I. Experimental Techniques and Results,”GALCITSM 63-23, Graduate Aeronautical Labs., California Institute of Technology, Pasadena, Calif. (June 1963).
oppel, G. U., andHill, P. W., “Strain Measurements at the Root of Cracks and Notches,”Experimental Mechanics,4 (7),206–211 (1964).
Howie, A., andWhelan, M. J., “Diffraction Contrast of Electron Microscope Images of Crystal Lattice Defects,”Proc. Royal Soc. London,A263,217–237 (1961).
Grosskreutz, J. C., “Research on the Mechanisms of Fatigue,” Tech. Documentary Rpt No. WADD-TR-60-313, pt.II, Prepared under Contract No. AF 33(616)-7858 by Midwest Rsch. Institute (Dec. 1963).
Bassett, G. A., Menter, J. W., andPashley, D. W., “Moiré Patterns on Electron Micrographs, and Their Application to the Study of Dislocations in Metals,”Proc. Royal Soc. London,A246,345–368 (1958).
Lang, A. R., “Studies of Individual Dislocations in Crystals by X-ray Diffraction Microradiography,”Jnl. Appl. Physics,30,1748–1755 (1959).
Dash, W. C., “The Observation of Dislocations in Silicon,”Dislocations and Mechanical Properties of Crystals, John Wiley & Sons, Inc., New York, 57–67 (1957).
Hahn, G. T., and Rosenfield, A. R., “Local Yielding and Extension of a Crack under Plane Stress,” Battelle Memorial Inst. (1964).
Wood, W. A., Cousland, S. McK., andSargent, K. R., “Systematic Microstructural Changes Peculiar to Fatigue Deformation,”Acta Metallurgica,11,643–652 (1963).
Smith, R. W., Hirschberg, M. H., and Manson, S. S., “Fatigue Behavior of Materials Under Strain Cycling in Low and Intermediate Life Range,” NASA TN D-1574 (Apr. 1963).
Manson, S. S., and Hirschberg, M. H., “Fatigue Behavior in Strain Cycling in the Low and Intermediate Cycle Range,” Fatigue—An Interdisciplinary Approach, ed. by J. J. Burke, N. L. Reed and V. Weiss, Syracuse University Press, 133–173 (1964).
Manson, S. S., “Behavior of Materials Under Conditions of Thermal Stress,” Heat Transfer Symp., University of Michigan, June 27–28, 1952, University of Michigan Press. Also: Manson, S. S., “Behavior of Materials Under Conditions of Thermal Stress,” NACA TN 2933 (July 1953).
Manson, S. S., “Thermal Stresses in Design, Part 19—Cyclic Life of Ductile Materials,” Machine Design, 139–144 (July 7, 1960).
Laird, C., andSmith, G. C., “Initial Stages of Damage in High Stress Fatigue in Some Pure Metals,”Phil. Mag.,8,1945–1963 (Nov. 1963).
Coffin, L. F., Jr., “A Study of the Effects of Cyclic Thermal Stresses on a Ductile Metal,”Trans. ASME,76,931–950 (1954).
Weiss, V., “Analysis of Crack Propagation in Strain-Cycling Fatigue,” in Fatigue—An Interdisciplinary Approach, ed. by J. J. Burke, N. L. Reed and V. Weiss, Syracuse University Press, 179–186 (1964).
Palmgren, A., “Die Lebensdauer von Kugellagern,”ZVDI,68 (14),339–341 (Apr. 1924).
Langer, B. F., “Fatigue Failure from Stress Cycles of Varying Amplitudes,”Jnl. Appl. Mech.,4 (4),A160-A162 (1937).
Miner, M. A., “Cumulative Damage in Fatigue,” Ibid.Jnl. Appl. Mech.,12,A159-A164 (1945).
Grover, H. J., “An Observation Concerning the Cycle Ratio in Cumulative Damage,” Symp. on Fatigue of Aircraft Structures, ASTM, STP No. 274 (1960).
Manson, S. S., Nachtigall, A. J., andFreche, J. C., “A Proposed New Relation for Cumulative Fatigue Damage in Bending,”Proc. ASTM,61,679–703 (1961).
Manson, S. S., Nachtigall, A. J., Ensign, C. R., and Freche, J. C., “Further Investigation of a Relation for Cumulative Damage in Bending.” NASA Tech. Memo. TM X-52002 (1964).
Weibull, W., “The Effect of Size and Stress History on Fatigue Crack Initiation and Propagation,” Proc. Crack Propagation Symp., Cranfield, 271–286 (1961).
Richart, F. E., Jr., andNewmark, N. M., “An Hypothesis for the Determination of Cumulative Damage in Fatigue,”Proc. ASTM,48,767–800 (1948).
Kaechele, L. E., “Review and Analysis of Cumulative Fatigue Damage Theories,” The Rand Corp., RM-3650-PR (1963).
Corten, H. T., andDolan, T. J., “Cumulative Fatigue Damage,”Paper No. 2 of Session 3, Intl. Conf. on Fatigue of Metals,1,Inst. Mech. Engrs.,London (1956).
Freudenthal, A. M., andHeller, R. A., “Accumulation of Fatigue Damage,”Fatigue of Aircraft Structures, Academic Press, Inc., N. Y., 146–177 (1956).
Freudenthal, A. M., and Heller, R. A., “On Stress Interaction in Fatigue and a Cumulative Damage Rule: Part I—2024 Aluminum and SAE 4340 Steel Alloys,” WADC TR 58-69, 1958 (AD 155687).
Henry, D. L., “A Theory of Fatigue-Damage Accumulation in Steel,”Trans. ASME,77,913–918 (1955).
Gatts, R. R., “Application of a Cumulative Damage Concept to Fatigue,”Trans. ASME, Series D, Jnl. Basic Engrg.,83D (4),529–540 (1961).
Brown, G. W., andWork, C. E., “An Evaluation of the Influence of Cyclic Prestressing on Fatigue Limit,”Proc. ASTM,63,706–716 (1963).
Grover, H. J., “Cumulative Damage Theories,” Fatigue of Aircraft Structures, WADC Symp., WADC, TR 59-507, 207–225 (Aug. 1959).
Morrow, J., andJohnson, T. A., “Correlation Between Cyclic Strain Range and Low-Cycle Fatigue Life of Metals,”Mtls. Rsch. & Stds.,5 (1),30–32 (1965).
Peterson, R. E., “A Method of Estimating the Fatigue Strength of a Member Having a Small Ellipsoidal Cavity,” Intl. Conf. on Fatigue of Metals, Inst. Mech. Engrs., London, 110–117 (1956).
Ronay, M., “On Strain Incompatibility and Grain Boundary Damage in Fatigue,” Columbia Univ., Inst. for the Study of Fatigue and Reliability, Tech. Rpt. No. 9 (Aug. 1964).
McEvily, A. J., Jr., andBoettner, R. C., “A Note on Fatigue and Microstructure,”Fracture of Solids, John Wiley & Sons, N. Y., 383–389 (1963).
Wood, W. A., “Recent Observations on Fatigue Failure in Metals,” ASTM STP No. 237, 110–119 (1958).
Schijve, J., “Analysis of the Fatigue Phenomenon in Aluminum Alloys,” Natl. Aero- and Astronautical Rsch. Inst., Amsterdam, NLR-TR-M2122 (1964).
Forsyth, P. J. E., “A Two-Stage Process of Fatigue-Crack Growth,” Proc. Crack Propagation Symp., Cranfield, 76–94 (1961).
Laird, C., andSmith, G. C., “Crack Propagation in High Stress Fatigue,”Phil. Mag.,7,847–857 (1962).
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Manson, S.S. Fatigue: A complex subject—Some simple approximations. Experimental Mechanics 5, 193–226 (1965). https://doi.org/10.1007/BF02321056
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DOI: https://doi.org/10.1007/BF02321056