Applied Biochemistry and Microbiology.
Vol. 36.
2000.
P. 101-108
Comparison of radiation damage and mechanical and tribological properties of α-Fe exposed to intense pulsed electron and ion beams
Using RBS, SIMS, AES, TEM and SEM techniques, formation of different point and linear defects has been found in iron as a result of intense-pulsed ion beam (IPIB) treatment. The close correlation between the average scalar dislocation density with microhardness magnitude has been proved both in near-surface layers and at great depths. The comparable analysis of structure-phase damage after IPIB and intense-pulsed electron beam (IPEB) irradiation is interesting for an explanation of different modified properties and in industrial application of such treatments.
Authors
Pogrebnjak A.D.1
,
Ladysev V.S.2
,
Pogrebnjak N.A.
3
,
Michaliov A.D.1
,
Shablya V.T.1
,
Valyaev A.N.2
,
Valyaev A.A.4
,
Loboda V.B.5
Journal
Publisher
Elsevier Science Ltd, Exeter
Number of issue
1
Language
English
Pages
45-52
Status
Published
Link
Volume
58
Year
2000
Organizations
- 1 Sumy Inst. for Surface Modification, Av. T. Shevchenko 17, 40030 Sumy, Ukraine
- 2 Technical University, 492010 USt-Kamenogorsk, Kazakhstan
- 3 People's Friendship University, 130240, Moscow, Russian Federation
- 4 Tech. Univ. of Electron. Eng. 103498, Moscow, Russian Federation
- 5 Sumy Pedagogical University, 40012, Sumy, Ukraine
Keywords
Auger electron spectroscopy; Electron beams; Ion beams; Irradiation; Microhardness; Radiation damage; Rutherford backscattering spectroscopy; Scanning electron microscopy; Secondary ion mass spectrometry; Transmission electron microscopy; Tribology; Wear resistance; Intense pulsed electron beam irradiation; Intense pulsed ion beam treatment; Structure phase damage; Iron
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Other records
Journal of Analytical Chemistry.
Vol. 55.
2000.
P. 142-145