Literature Cited
V. A. Greshnikov and Yu. B. Drobot, Acoustic Emission [in Russian], Standartov, Moscow (1976).
G. Green, “Sources of acoustic emission during crack growth in ferritic steels,” Metal Sci.,15, No. 11/12, 505–513 (1981).
P. Fleischmann, D. Rouby, G. Malaprade, and I. Lanchon, “Localization of acoustic emission sources in tensile and specimens using a broadband aquisition technique,” Ultrasonics,19, No. 6, 259–264 (1981).
R. G. Liptai, D. O. Harris, R. B. Engle, and C. A. Tatro, “Acoustic emission techniques in materials research,” Int. J. Nondestr. Test.,3, 215–275 (1971).
J. C. Spanner, Acoustic Emission Techniques and Applications, Vol. 12, Intex Publ. Co., Evanston, Ill. (1974).
A. E. Lord, Jr., “Acoustic emission,” Phys. Acoust.,11, 289–353 (1975).
V. S. Boiko and V. D. Natsik, “Elementary dislocation mechanisms of acoustic emission,” in: Elementary Processes of Plastic Deformation of Metals [in Russian], Naukova Dumka, Kiev (1978), pp. 159–189.
D. Jaffrey, “Sources of acoustic emission (AE) in metals—a review,” Nondestr. Test., Austral.,16, No. 4, 9–18; No. 5, 9–17; No. 6, 19–28 (1979).
H. N. G. Wadley, C. B. Scruby, and J. H. Speake, ”Acoustic emission for physical examination of metals,” Int. Met. Rev.,25, No. 2, 41–64 (1980).
E. G. Smirnov, “Acoustic emission,” Itogi Nauki Tekh., Ser. Metalloved. Term. Obrab.,15, 111–159 (1981).
A. E. Lord, Jr., “Acoustic emission—an update,” Phys. Acoust.,15, 295–360 (1981).
O. V. Gusev, Acoustic Emission in Deformation of Single Crystals of Refractory Metals [in Russian], Nauka, Moscow (1982).
V. I. Ivanov and V. M. Belov, Acoustic Emission Inspection of Welding and Weld Joints [in Russian], Mashinostroenie, Moscow (1981).
P. Jax, “Schallemission bei plastischer Verformung von Metallen,” in: Schallemission: Anwendung bei Untersuchung, Prufung und Uberwachung metallischer Werkstoffe, Frankfurt am Main: Dtsch. Ges. Metallk. (1974), pp. 59–117.
R. B. Engle and H. L. Dunegan, “Acoustic emission: stress wave detection as a tool for nondestructive testing and material evaluation,” Int. J. Nondestr. Test.,1, No. 1, 109–125 (1969).
M. A. Hamstad and A. K. Mukherjee, “The dependence of acoustic emission on strain rate in 7075-T6 aluminum,” Exp. Mech.14, No. 1, 33–41 (1974).
E. G. Smirnov, O. V. Bukatin, and B. M. Medvedev, “A study of the property of liberation of acoustic emission in static deformation of aluminum alloys,” Izv. Akad. Nauk SSSR, Met., No. 5, 127–131 (1980).
R. M. Fisher and J. S. Lally, “Microplasticity detected by an acoustic technique,” Can. J. Phys.,42, No. 2, 1147–1159 (1967).
I. I. Averbukh and V. E. Veinberg, “The relationship of acoustic emission to deformation in different materials,” Defektoskopiya, No. 4, 25–32 (1973).
H. Imaeda, H. Kusanagi, and H. Kimura, “Acoustic emission characteristics during tensile tests of various metals with several types of crystal structures,” Central Research Institute of the Electric Power Industry, Energy and Environmental Laboratory, N E276003 (Oct. 1976), pp. 11–20.
D. R. James and S. H. Carpenter, “Relation between acoustic emission and dislocation kinetics in crystalline solids,” J. Appl. Phys.,42, No. 12, 4685–4697 (1971).
J. Kaiser, “Erkenntnisse und Folgerungen aus der Messung von Gerauschen bei Zugbeanspruchung von Metallischen Werkstoffen,” Arch. Eisenhuttenw.,24, No. 1/2, 43–45 (1953).
J. R. Frederick and D. K. Felbeck, “Dislocation motion as a source of acoustic emission,” ASTM STP No. 505 (1972), pp. 129–139.
E. Siegel, “Burst acoustic emission during the Bauschinger effect in FCC and HCP metals and alloys,” Acta Met.,25, 383–394 (1977).
V. P. Melekhin, R. I. Mints, and A. M. Kugler, “The influence of the plastic deformation mechanisms of zinc on acoustic emission,” Izv. Vyssh. Uchebn. Zaved., Tsvet. Met., No. 3, 128–131 (1971).
H. Hatano, “Acoustic emission and stacking-fault energy,” J. Appl. Phys.,48, No. 10. 4397–4399 (1977).
N. Kiesewetter and P. Schiller, “The acoustic emission from moving dislocations in aluminum,” Phys. Status Solidi (A),38, 569–576 (1976).
R. Bianchetti, M. A. Hamstad, and A. K. Mukherjee, “Origin of burst-type acoustic emission is unflawed 7075-T6 aluminum,” J. Test. Eval.,4, No. 5, 313–318 (1976).
D. Jaffrey, “Inclusions as acoustic emissions sources,” in: Ninth World Conference of Nondestructive Testing, Melbourne, 1979, 4J-1.
K. Ono and M. Yamamoto, “Anisotropic mechanical and acoustic emission behavior of A533B steels,” Mater. Sci. Eng.,47, No. 3, 247–263 (1981).
J. Eisenblatter, P. Jax, and H. J. Schwalbe, A Survey of Acoustic Emission Research in Europe and Investigations Conducted at Battelle Frankfurt, Battelle—Institut E. V., Frankfurt (1974) (Paper presented at the Second Acoustic Emission Symposium, Sept. 2–4, 1974, Tokyo, Japan).
S. Mintzer, R. Pascual, and R. M. Volpi, “Acoustic emission and grain size in plastic deformation of metals,” Scr. Met.,12, No. 6, 531–534 (1978).
K. Kuribayasi et al., “A model of the source of acoustic emission emitted in relaxation of local stresses,” Tokë daigaku utyu koku kénkyusë,16, No. 1, 781–788 (1980).
J. Baran and M. Rosen, “Effect of grain size on the acoustic emission generated during plastic deformation in copper,” Mater. Sci. Eng.,47, No. 3, 243–246 (1981).
C. D. Scruby, H. N. G. Wadley, and J. E. Sinclair, “The origin of acoustic emission during deformation of aluminum and aluminum-magnesium alloy,” Philos. Mag. A,44, No. 2, 249–274 (1981).
K. N. Tandon and K. Tangri, “Acoustic emissions during deformation of polycrystalline silicon-iron,” Mater. Sci. Eng.,20, No. 1, 47–54 (1975).
A. Ya. Krasovskii, N. V. Novikov, G. N. Nadezhdin, et al., “The correlation between acoustic emission, plastic flow, and fracture of iron in static loading in a broad range of temperatures and deformation rates. Report 1,” Probl. Prochn. No. 10, 3–7 (1976).
R. Frydman, R. Pascual, and R. M. Volpi, “Acoustic emission due to dislocations and grain boundaries,” Scr. Met.,9, No. 11, 1267–1270 (1975).
I. I. Papirov, E. S. Karpov, M. I. Palatnik, and M. B. Mileshkin, “The disappearance of acoustic emission in superplasticity,” Dokl. Akad. Nauk SSSR,256, No. 2, 392–395 (1981).
D. R. James and S. H. Carpenter, “The effect of sample size on the acoustic emission generated during tensile deformation of 7075 aluminum alloy,” Scr. Met.,10, 779–781 (1976).
H. Hatano, “Strain-rate dependence of acoustic-emission power and spectra in aluminum alloys,” J. Appl. Phys.,47, No. 9, 3873–3876 (1976).
P. Fleischmann, F. Lakestani, and J. C. Baboux, “Analise spectrale et energetique d'une source ultrasonore en mouvement. Application a l'emission acoustique de l'aluinium soumis a deformation plastique,” Mater. Sci. Eng.29, No. 1, 205–212 (1977).
D. Delipkumar, V. S R. Gudimetla, and W. E. Wood, “Amplitude distribution analysis of acoustic emissions,” Exp. Mech.,19, No. 12, 438–443 (1979).
J. Holt and D. J. Goddard, “Acoustic emission during the elastic-plastic deformation of low-alloy reactor pressure vessel steels. I. Uniaxial tension,” Mater. Sci. Eng.,44, No. 2, 251–265 (1980).
G. G. Martin, “The effect of strain rate on acoustic emission from aluminum alloys,” in: Ninth World Conference on Nondestructive Testing, Melbourne, 1979, 4J-4.
M. A. Hamstad, R. G. Patterson, and A. K. Mukherjee, “Acoustic emission generated in unflawed 7075-T651 aluminum under uniform biaxial loading,”ibid., 4J-10.
M. A. Hamstad, E. M. Leon, and A. K. Mukherjee, “Acoustic emission under biaxial stress in unflawed 21-6-9 and 304 stainless steels,” Met. Sci.,15, No. 11/12, 541–548 (1981).
G. Airoldi, “A533B and A508 steels: development of deformation processes with temperature as studied using acoustic emission,”ibid.,16, No. 3, 153–158 (1982).
K. H. Adams, B. R. Bass, J. E. Borhaug, et al., “An experimental investigation of delaved acoustic emission in beryllium,” Lawrence Raidation Lab., Livermore (1969) (Report UCRL: N 13402).
T. F. Brouillard (F. J. Laner (ed.)), Acoustic Emission: A Bibliography with Abstracts, IFI/Plenum Data Co., New York et al. (1979).
E. J. Siegel, “Kilocycle acoustic esmission during creep in lead, aluminum, and cadmium. I. Experimental,” Phys. Status Solidi (A),5, 601–606 (1971).
E. J. Siegel, “Kilocycle acoustic emission during creep in lead, aluminum, and cadmium. II. Theoretical,”ibid., 607–615.
J. Gilman, “The microdynamic theory of plasticity,” in: Microplasticity [in Russian], Metallurgiya, Moscow (1972), pp. 18–37.
R. T. Sedgwick, “Acoustic emission from single crystals of LiF and KCl,” J. Appl. Phys.,39, No. 3, 1728–1740 (1968).
Additional information
Scientific-Production Association of the Central Scientific-Research Institute for Machine Building Technology, Moscow. Translated from Problemy Prochnosti, No. 6, pp. 92–99, June, 1985.
Rights and permissions
About this article
Cite this article
Yudin, A.A., Ivanov, V.I. Acoustic emission in plastic deformation of metals (review). Report 1. Strength Mater 17, 842–851 (1985). https://doi.org/10.1007/BF01528739
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF01528739