Abstract
Literature describing the Fe57 Mössbauer effect in metallic iron, steels, and ferrous compounds occurring in steels is reviewed and compared with new, computer-analyzed data obtained in 298°K measurements on metallic iron and carbon steels. Characteristics of Mössbauer patterns are sensitive to carbon content and therrnornechan history. Relative to standard sodium nitroprusside, the average effcctive magnetic field for three grades of recrystallized iron is 339 ± 2 kOe.
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References
R. L. Mössbauer, Naturwissenschaften 45: 538 (1958).
H. Frauenfelder, The Mtissbauer Effect (W. A. Benjamin, Ne)
K. Wertheim, Mössbauer Effect; Principles and App, Press, New York, 1964 ).
V. Goldanskii, The Mössbauer Effect and Its Applica ( Consultants Bureau, New York, 1964 ).
A. Abragam, L’Effet Mössbauer (Gordon and Bret ‘I, New York, 1964)
R. J. Weiss, Solid State Physics for Metallurgists (Addst 1963 ), p. 356.
J. J. Spijkerman, F. C. Ruegg. and J. R. DeVoe, Rev. Sci, hts
A. J. Bearden, M. G. Hauser, and P. L. Mattern, “Cara- Acceleration Mössbauer Spectrometer,” in: Mdssbauer Ejï Vol. 1, Ed. by I. J. Gruverman (Plenum Press, New)
P A. Flinn, “Constant Velocity Mössbauer Drive Sy)
E. Rhodes, A. Polinger, J. J. Spijkerman, and B. Lorentzian Least Squares Analysis of Mössbauer D,“ port, Washington, D.C. August, 1966.
W. C. Davidson, “Variable Metric Method for Minimization,” ANAL-5990, A.E.C. R and D Rpt., 1959.
J. R. Gabriel and S. L. Ruby, NucL Instr. Meth. 136:23 (Iç)
R. S. Preston, S. S. Hanna, and J. Herberle, Phys. R t07 (1962)
S. S. Hanna, J. Herberle, C. Littlejohn, G. J. Perlow, reston, and D. H. Vincent, Phi’s. Rev, Letters 4: 177 (1960).
S. S. Hanna, J. Herberle, G. J. Perlow, R. S. Preston, t I D. H. Vincent, Phys. Rev. Letters 4: 513 (1960).
S. Margulies, “The Miössbauer Effect in Iron-57,” Ph.D. Thesis, University of Illinois, October, 1961.
D. N. Pipkorn, C. K. Edge, P. Delrunner, G. DePasquali, H. C. Drickamer, and H. Frauenfelder, Phys. Rev. 135: A1604 (1966).
H. Shechter, S. Niedzwiedz, and R. H. Herber: Nod. tasty. Meth. -14: 268 (1966).
M. B. Stearns, J. App. Phys. 35: 1095 (1964).
C. E. Johnson, M. S. Ridout, and T. E. Cranshaw, Proc. Phys. Soc. (London) 81: 1079 (1963).
G. P. Huffman and R. M. Fisher, “Mössbauer Studies of Ordered and Cold Worked Fe-Al Alloys Containing 30 to 50 Atomic Percent Aluminum,” U.S. Steel Report PR 386, Bain Laboratory, Monroeville, Penn., August. 1966.
H. Yamamoto. Japanese J. App, Phys. 3:745 (1964)
C. E. Johnson, “Hyperfine Spectra of Iron-Silicon Alloys,A.I.”.E. Fall Meeting, Nov. 1966.
L. M. Epstein, “Some Applications of the Mössbauer Effect,- P of the Symposium on Physics and Nondestructive TestingiSot:w irch Inst., San Antonio, Texas, 1964), p. 166.
P. M. Gielen and R. Kaplow, Acta Met. 15: 49 (1967)
M. Ron, H. Shechter, A. Kidron, and S. Niedzwiedz, J. Appl. Ph r, i8: 590 (1967).
H. Marcus, L. Hf. Schwartz, and M. E. Fine, Trans. ASM 59: 4
B. W. Christ, J. J. Spijkerran, P. M. Giles, and F. C..Ruegg, stained Austenite in 10105 Steel Detected by Mössbauer Spectroscol NBS Internal Report, Washington, D.C., July. 1965.
C. W. Kocher, Phys. Letters 14: 287 (1965).
T. Shinjo, F. Itoh, H. Takaki, Y. Nakamura, and N. Shinkrono, J. Phys. Soc. Japan 19: 1252 (1964).
M. Ron, H. Shechter, A. A. Hirsch, and S. Niedzwidz, Physics Letters 20: 481 (1966).
G. Shirane, W. J. Takei, and S. L. Ruby, Phys. Rev. 126: 49 (1962).
Metals Handbook, 1948 Edition. American Society for Metals, p. 1182. 34, V. G. Paranjpe, M. Cohen, M. B. Beuer, and C. F, Floe, Trans. Met. Soc. AIME 188:261 (1950).
V. G. Paranjpe, M. Cohen, M. B. Beuer, and C. F, Floe, Trans. Met. Soc. AIME 188:261 (1950).
L. S. Darken and R. W. Curry: Physical Chemistry t003Ef. Metals (McGraw Hill, New York, 1953), pp. 372 and 396.
A. S. Keh, “Dislocation Arrangement in Alpha Iron. 003C =csring Deformation and Recovery,” in: Direct Observation of Imperfectior.r a:Crystals, Ed„ by J. B. Newirk and J. H. Wernick (Wiley, New York 1z=, o. 213.
C. S. Barrett, Structure of Metals, Second Edition, f McGraw Hill, New York, 1952 ), p. 442.
Ibid., p. 485.
Ibid., p. 359.
J. J. Spijkerman, F. C. Ruegg, and J. R. De,.ndarrhe Differential Chemical Shift for Fe57,“ Mössbauer tt ethoth ol. 1, Ed, by 1. J. Gruverman (Plenum Press, New York)
H. H. Ku, J. Res. NBS, C. Engineering and Instrum,1966).
J. J. Spijkerman, NBS Tech. Note 273, Ed. by J.
C. S. Barrett,,Structure of Metals, Second Edition raw a York, 1952), p. 395
W. B. Pearson, A Handbook of Lattice Spacings and Structure of Metals and Alloys ( Pergamon Press, New York, 1958 ), pp 1
P. M. Kelly, “The Structure and Hardness of tMartebsite,” in: Electron Microscopy and the Strength of Crystals, Ed. by G. Thomas and J. Washburn, (lnterscience-Wiley, New York 1962 ), p. 917.
C. S. Roberts, J. Metals 5: 203 (1953).
K. H. Jack, J. Iron and Steel Inst. 169: 26 (1951).
D. P. Antia, S. G. Fletcher, and M. Cohen: Trans. A.S.U.. ii 44).
E. Tekin and P. M. Kelly, in: Precipitation from Iron Bs gis, F4. by G. R. Speich and J. B. Clark (Gordon and Breach Science Pt York, 1965 ), p. 173.
M. Cohen, Trans. Met. Soc. AIME 224: 638 (1962).
H. R. Erard, “Simplified X-Ray Analysis of Retained Austenite,” Springfield Armory Tech. Rpt. No. SA-TR20–2409, October, 1964.
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Christ, B.W., Giles, P.M. (1967). Metallurgical Uses of the Fe57 Mössbauer Effect in Metallic Iron and Plain Carbon Steels. In: Gruverman, I.J. (eds) Mössbauer Effect Methodology. Springer, Boston, MA. https://doi.org/10.1007/978-1-4757-1547-7_3
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DOI: https://doi.org/10.1007/978-1-4757-1547-7_3
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