Kawitacyjne niszczenie warstw ukształtowanych wiązką promieniowania laserowego

• Autorzy: Gireń B. B.
• Języki publikacji: PL

Słowa kluczowe

PL

lasery; stopy; erozja

• Wydawca: Wydawnictwo Instytutu Maszyn Przepływowych PAN
• Czasopismo: Zeszyty Naukowe Instytutu Maszyn Przepływowych Polskiej Akademii Nauk w Gdańsku
• Rocznik: 2006
• Tom: nr 541/1500
• Strony: 1--155
• Opis fizyczny: Bibliogr. 349 poz., rys., tab.

Twórcy

autor

Gireń B. B.

Bibliografia

• 1. K.Steller, Kawitacja - pojęcia podstawowe ze szczególnym uwzględnieniem pojęć dotyczących maszyn hydraulicznych, Zeszyty Naukowe Instytutu Maszyn Przepływowych PAN l40/1075, 1982
• 2. F.G.Hammit, Cavitation and liquid impact erosion, ASME Wear Control Handbook, New York 1980, 161-320
• 3. Cavitation of Hydraulic Machinery; ed. By S.C.Li, Imperial College Press,2001
• 4. W.H.Wheeler, Identation of metals by cavitation Transactions of the ASME, D-82, 1 (1960) 184-194
• 5. K.K.Shalnev, S.P.Kozyrev, Relmation hypotesis of cavitation erosion, Doklady Akademii Nauk SSSR Vol. 202, 5 (1972) 1057-1060
• 6. K.J.Kalestrup, I.Hansson K.A.Morch A simple model for cavitation erosion of metals, Journal of Physics D: Applied Physics Vol. 11, 6 (1978) 899-912
• 7. J. Noskievic, Dynamics of the cavitation damage, Joint Symp. on Design and Operation of Fluid Machinery, ASCE/IAHR/ASME, Colorado State University 1978,453-462
• 8. R.P.Veerabhadra, D.H.Buckley, Predictive capability of long-term cavitation and liquid impingement erosion models, Wear Vol. 94, 3 (1984) 259-274
• 9. L.Sitnik Mathematical description of the cavitation erosion process and its utilization for increasing the materials resistance to cavitation [in] Cavitation in Hydraulic Structures and Turbomachinery, Joint ASCE/ASME Mechanics Conference Albuquerque, New Mexico 1985, 21-30
• 10. V.G.Mevolin, On the kinetics of cavitation erosion, Trenie i Iznos Vol.8, (1987) 145-148
• 11. A.Karimi, W.R.Leo, Phenomenological model for cavitation erosion rate computation, Materials Science and Engineering Vol. 95 (1987) 1-14
• 12. G.Beckman A model of erosion of metals by liquid impact, Kernenergie Vol.32, 9 (1989) 376-380
• 13. F.Pereira, F.Avellan, Ph.Dupont, Prediction of cavitation erosion - an energy approach, Journal of Fluid Engineering, Transactions of ASME Vo1.120, 4 (1998) 719-727
• 14. N.Berchiche, J-P.Franc, J-M.Michel, A model for the prediction of the erosion of ductile materials by cavitation, Comptes Rendus del Academie des Sciences, Ser.II, Fasc.B Vol 328, 4 (2000) 305-310
• 15. L.Wilczyński, Stochastic modeling of cavitation erosion based on the concept of resonant energy absorption, Fifth Int.Symp.on Cavitation, Osaka, November 14 (2003) 1-8
• 16. N.Berchiche J-P.Franc, J-M.Michel, A cavitation erosion model for ductile materials, Transactions of ASME: Journal of Fluids Engineering Vol. 124, 3 (2002), 60l-60
• 17. S.Waring, H.S.Preiser, A.Thiruvengadam, On the role of corrosion in cavitation damage, Journal of Ship Research, December 1965, 200-208
• 18. G.M.Wood, L.K.Knudsen, F.G.Hammitt, Cavitation damage studies with Rotating disc in water, Transactions of ASME Vol. 89 (1967) 90-110
• 19. B.C.Rao, N.S.Rao, K.Seetharamiah, Cavitation erosion studies with venture and rotating disc in water, Transactions of ASME Vol 92 (1970) 563-579
• 20. B.R.Lazarenko et al., Effect of surface tension on cavitation erosion, Doklady Akademii Nauk SSSR Vol. 14, l0 (1970)
• 21. J.W.Tichler, J.B.van den Elseą A.W.J.deGee, Resistance against cavitation erosion on 14 chromium steels, Transactions of the ASME: Journal of Lubrication Technology, April l970, 220-227
• 22. Y.Mizutani, T.Ishiguro, K.Nakajima, The surface damage due to cavitation erosion in metals, Journal of the Japan Institute of Metals Vol. 35, 4 (1971) 319-323
• 23. Y.Suezawa, M.Matsumura, M.Nakajima, K.Tsuda, Studies on cavitation erosion, Transactions of the ASME, Ser. D: Journal of Basic Engineering Vol.94, 3 (1972) 521-532
• 24. K.Endo, Y.Nishimura, Fundamental studies of cavitation erosion, Bulletin of the JSME Vol. 16, 91 (1973) 22-30
• 25. K.Steller T.Krzysztofowicz, Z.Reymann, Effects of cavitation on materials in field and laboratory conditions ASTM Technical Publication 567 (1975) 152-170
• 26. B.Vyas, C.M.Preece, Stress produced in a solid by cavitation, Journal of Applied Physics Yol.47 (1976) 5133-5138
• 27. B.Vyas, C.M. Preece Cavitation erosion of FCC metals, Metallurgical Transactions A - Physical Metallurgy & Materials Science Vol. 8A, 6 (1977) 915-923
• 28. B.C.S.Rao, N.S.L.Rao, P.V.Rao, The role of incubation period in cavitation erosion, International Water Power & Dam Construction Vol. 29, 3 (1977) 22-27
• 29. I.Hansson, K.J.Klaestrup, K.A.Morch, The initial part of the incubation period of flow cavitation erosion on austenitic stainless steels, Journal of Physics D: Applied Physics Vol. 11, 6 (1978) 891-898
• 30. E.H.R.Wade, C.M.Preece, Cavitation erosion of iron and steel, Metallurgical Transactions A: Physical Metallurgy & Materials Science Vol. 94, 9 (1978) 1299-1310
• 31. A.P.Thiruvengadam, Mechanisms of formation of spheroids produced by cavitation erosion, Asle Transactions Vol.2l, 4 (1978) 344-350
• 32. D.R.Stinebring J.W.Holl, R.E.A.Arndt, Two aspects of cavitation damage in the incubation zone: scaling by energy considerations and leading zone damage, Joint Symp. on Design and operation of Fluid Machinery ASCE-IAHR-ASME, Colorado state University, Fort Collins, June 1978, 463-471
• 33. C.J.Heatcock A.Ball, B.E.Protheroe, Cavitation erosion of Co based stellite allays, cemented carbides and surface treated low alloy steels, Wear Vol.74, (1981) 11-26
• 34. C.J.Heathcock, B.E.Protheroe, A.Ball, Cavitation Erosion of Stainless Steels, Wear Vol. 81 (1982) 311-327
• 35. K.S.Janakiram, B.C.Syamala Rao, Erosion of jets with cavitation inducers, Water Power & Dam Construction, August 1982, 32-36
• 36. YK.Zhou, F.G.Hammit, Cavitation erosion incubation period, Wear Vol.86, (1983) 299-313
• 37. H.G.Feller, Y.Kharrazi, Cavitation Erosion of Metals and Alloys, Wear Vol.93, (1984) 249-260
• 38. T.Okada, Y.Iwai, N.Yamamoto, Cavitation erosion resistance of rimmed & killed steels, Japan Journal of Society of Materials Science, Vol. 33, 3666 (1984) 259-265
• 39. A.Y.Grinbert, L.K.Gordienko, V.E.Volity Behaviour of titanium and steels in cavitation conditions, Fizila I Khimiya obrabotki Materialov Vol.19, (1985) 119-123
• 40. I.Hansson, K.A.Morch The influence of cavitation guide vones on the collapse of cavity clusters and on the resulting erosion, Int. Assoc. for Hydraulic Research Symposium, Montreal 1986, paper 74,
• 41. A.Karimi, J.L.Martin, Cavitation erosion of materials, International Metals Review Vol.31, 1 (1986) 1-26
• 42. T.Ozaki,T.Onuma, Cavitation erosion behavior of stainless steel containing Co under a mild cavitation environment, Corrosion Engineering Vol. 36, 7 (1987) 413-418
• 43. A.Karimi, Cavitation erosion of a duplex stainless steel, Materials Science& Engineering Vol 86 (1987) l9l-203
• 44. T.Okada, Y.Iwai, Cavitation erosion, JSME International Journal Ser.l Mechanics Strength of Materials Vol. 33, 2 (1990) 128-135
• 45. B.Vyas, I.L.H.Hansson, The cavitation erosion-corrosion of stainless steel, Corrosion Science Vol. 30, 8-9 (1990) 761-770
• 46. S.M.Ahmed, K.Hokkirigawa, K.Kikuchi, J.Higuchi, R.Oba, SEM studies of particles produced by cavitation erosion, JSME Int. Journal Ser. B: Fluids & Thermal Engineering Vol. 36, 4 (1993) 517-523
• 47. C.T.Kwok, H.C.Man, F.T.Cheng, Cavitation erosion and damage mechanisms of alloys with duplex structures, Materials Science & Engineering A, Yol.242, l-2 (1998) 108-120
• 48. G.B.Jiang, Y.K.Zheng, Y.Y.Yang, H.S.Fang, Cavitation erosion of bainitic steel, Wer Vol. 215, 1-2 (1998) 46-53
• 49. S.N.Buravova Surface damage as a result of cavitation erosion, Zhurnal Tekhnicheskoi Fiziki Vol. 68, 9 (1998) 110-114
• 50. C.T.Kwok H.C.Man F.T.Cheng Cavitation erosion of duplex and superduplex stainless steels, Scripta Materialia Vol. 39, 9 (1998) 1229-1236
• 51. A.Akhtar, R.Salvi, V.K.Sikka, Cavitation erosion of NiAl, Metallurgical & Materials Transactions A Vol. 30,2 (1999) 335-343
• 52. Z.Yi, W.Zhechang, C.Yan, The cavitation behavior of a metastable Cr-Mn-Ni steel, Wear Vol.240, l-2 (2000) 231-234
• 53. W.Fu, Y.Zheng X.He, Resistance of a high nitogen austenitic steel to cavitation erosion, Wear Vol. 249,9 (2001) 788-79l
• 54. J.Hucińska, M.Głowacka, Cavitation erosion of copper and copper-based alloys, Metallurgical and Materials Transactions A: Physical Metallurry & Materials Science Vol-32A, 6 (2001) l325-l333
• 55. Z.Wang J.Zhu, Effect of phase transformation on cavitation erosion resistance of some ferrous alloys, Materials Science and Engineering A: Structural Materials Properties Microstructure & Processing Vol. A358, l-2 (2003) 273-278
• 56. K.K.Malnev, Opyt obsledovanija lcavitacyonnoj erozji turbin i nasosov bolszoj moszcznosti [ros.], Institut Mechaniki AN SSSR, Inżyniernyj sbornik tom XVII t 954, 3-30,
• 57. W.Hampton, Das Problem der Kavitationserosion in Flugzeughydrauliksystemen, Luftfahrttechnik-Raumfahrttechnik 13, I (1967) 9-l 4
• 58. GY.Sebestyen, F.Stvrteczky, Investigation of erosion characteristics of cavitation in pumps, 4th Conf. on Fluid Machinery, Akademiai Kiado, Budapest 1972, 1l95-l2l3,
• 59. Antonini, A,Giadrossi, Turbine behavior under cavitation conditions, Int. Water Power & Dam Construction Vol.33, 3 (1981) 25-28
• 60. R.Simoneau, The optimum protection of hydraulic turbines against cavitation erosion, Proc. IAHR Symposium, Stirling U.K. September 1984
• 61. G.A.Tulchinskii, G.A.Panlcatov, Experience of on-site investigations of the cavitation erosion of hydraulic turbines, Gidrotekhnicheskoe Stroitelstvo Vol.22,2 (1988) 40-42
• 62. W.K.Chan, Correlation between cavitation type and cavitation erosion in centrifugal pumps, Int. Journal of Heat and Fluid Flow Vol. ll,3 (1990) 269-271
• 63. Method to predict cavitation and the extent of damage in power plant piping Electric Power Research Institute, Palo Alto, California, December 1993, Vol.126
• 64. M.Maeda, I.Yamada, M.Tagawa, The prediction of cavitation erosion on pump impeller by measurement of cavitation bubble collapse impact loads, Int. Symposium on Cavitation Tokyo 1994,243-248
• 65. L.Bellet et al-, Cavitation erosion prediction on Francis turbines, Int. Journal on Hydropower and Dams Vol. 4, 3 (1997) 56-58
• 66. R.Hirschi, P.Dupont F.Avellan, J.N.Fewre J.F.Guelich E.Parkinson Centrifugal pump performance drop due to leading edge cavitation, Journal of Fluids Engineering: Transactions of the ASME Vol.l20 (1998) 705-711
• 67. Z.Reymann, K.Steller, ocena odporności materiałów na działanie kawitacji przepływowej, Prace Instytutu Maszyn Przepływowych, zeszyt 76, l978
• 68. A.J.Milne Cavitation erosion on a number of ceramic monolithic materials' coatings and metal platings, Int. Assoc. for Hydraulic Research Symposium, Montreal 1986, paper 85.
• 69. A.Thiruvengadarn, S.Waring Mechanical properties of metals and their cavitation damage resistance, Journal of Ship Research Vol. 10 (1966) 1-9
• 70. R.Garcia, F.G.Hammit, Cavitation damage and corelation with mechanical and fluid properties, Transaction of ASME Vol. 89 (1967)753-763
• 71. Y.Terauchi, H.Matuura, M.Kitamura Correlation of cavitation damage tests with residual stress measurements, Bulletin of the JSME Vol. 16, 102 (1973) 1829-1840
• 72. I.N.Bogachev, V.P.Korobeinikov, V.S.Litvinov, V.V.Poleva Features of cavitational surface failure of metals, Fiziko-Khimicheskaya Mechanika Materialov Vol. 10, 2 (1974) 17-21
• 73. K.K.Shalnev, S.P.Kozyrev, I.Varga D.Sebastyen Parameters affecting cavitation erosion experiments in the light of the relaxation hypothesis, Doklady Akademii Nauk SSSR Vol.2l9,6 (1974) 1348-11351
• 74. I.N.Bogachev, E.V.Savalei, T.D.Eismondt, The influence of martensitic transformations on the cavitation erosion resistance of unstable austenitic steels, Fiziko-Khimicheskaya Mechanika Materialov Vol 13, 6 (1977) 78-80
• 75. C.J.Heathcock, B.E.Protheroe A.Ball, The influence of microstructure on the cavitation erosion of materials, Proc. of 5th Int. Conference Strength of Metals and Alloys, pt.l, 219-224, NY 1979
• 76. S.Vaidya, S.Mahajan C.M.Preece The role of twinning in the cavitation erosion of cobalt single crystals, Metallurgical Transactions A: Physical Metallurgy & Materials Science Vol. 1lA, 7 (1980) 1139-1150
• 77. K.C.Antony, Wear-resistant cobalt-base alloys, Journal of Metals Vol-35, (1983) 52-60
• 78. J.Berger, M.Pohl, L.Sitnik, The cavitation resistance of cast irons, Praktische Metallographie Vol. 23, 11 (1986) 513-527
• 79. R.H.Richman W.P.McNaughton, Correlation of cavitation erosion behavior with mechanical properties of metals, Wear Vol. 140, 1 (l990) 63-82
• 80. R.H.Richman A.S.Rao, D.E.Hodgson, Cavitation erosion of two NiTi alloys, Wear Vol. 157, 2 (1992) 401-407
• 81. R.H.Richman, Deformation induced martensite and resistance to cavitation erosion, Journal de Physique IV, Vol.5, no C8, (1995) 1193-1198
• 82. V.A.Pugsley, C.Allen, Microstructure/property relationships in the cavitation erosion of WC-Co, Wear 233-235 (1995) 93-l03
• 83. W.Fu, Y.Zherg T.Jing M.Yao, Structural changes after cavitation erosion for a Cr-Mn-N stainless steel, War, Vo1.205, no l-2 (1997) 28-31
• 84. M.G.DiVernieri-Cuppari, F:Wischnowski, D.K.Tanaka A.Sinatora, Correlation between microstructure and cavitation erosion resistance of high chromium cast steels, Wear Vol.225-29 pt.l (1999) 517-522
• 85. W.Będkowski, G.Gasik C.Lachowicz, A.Lichtarowicz, T.Łagoda, E.Macha, Relations between cavitation erosion resistance of materials and their fatigue strength under random loading, Wear, Vol. 230 (1999) 20l-209
• 86. F.T.Cheng, P.Shi, H.C.Man, Correlation of cavitation erosion resistance with indentation - derived properties for a NiTi alloy, Scripta Materialia Vol. 45, 9 (2001) 1083-1089
• 87. Jin Ming A mechanical model on elastic cavitation in solid under hydrostatic tension, Mechanics Research Communications, Vol.28 (2001) 305-315
• 88. J.M.Hobbs, D.Rachman, Environmentally controlled Cavitation Test, ASTM STP 474, American Society for Testing and Materials, 1970, 29-47
• 89. H.Kato, A consideration on scaling laws of cavitation erosion, Int. Shipbuilding Progress Vol.22 (1975) 305-327
• 90. D.R.Stinebring, R.E.A.Arndt, J.W.Holl, Scalling of cavitation damage, Journal of Hydronautics Vol 11, 3 (1977) 67 -73
• 91. K.Steller et Bl., Comments on erosion tests conducted in an ASTM interlaboratory test programme, ASTM Journal Testing & Evaluation Vol.2, (1979) 7
• 92. F.G.Hammit, M.K.De Cavitation damage prediction, Wear Vol. 52,2 (1979) 243-262
• 93. Y.Lecoffre J.Marcoz, J.P.Franc, J.M.Michel, Tentative procedure for scaling cavitation damage, Cavitation in Hydraulic structures and Turbomachinery, ASME, FED Vol. 25,1985, Albuquerque l-11
• 94. K.Steller, J.Steller, on cavitation erosion prediction, 7th Int.Conference on Erosion by Liquid and Solid Impact, Cambridge 1987
• 95. M.Matsumura Y.I.oka, A.Sakamoto, Quantitative prediction of erosion damage to metallic material exposed to cavitation attack, Proc- 3rd Int. Conference on Cavitation Cambridge 1992, 81-85
• 96. J-P.Franc, J-M.Michel, H.N.Guyen, A.Karimi, From pressure pulses measurements to mass loss prediction, Int. Symposium on Cavitation II, Tokyo 1994, 231-236
• 97. H.Kato, A.Konno, M.Maeda, H.Yamaguchi, Passibility of quantitative prediction of cavitation erosion without model test, Int. Symposium on Cavitation Deauville May 1995, 289-296
• 98. F.J.Heymann Interlaboratory Test study for Revised Method G32 on Cavitation Erosion using Vibratory Apparatus, ASTM Research Report G02-1007, 1998
• 99. J.Steller, International Cavitation Erosion Test and quantitative assessment of materials resistance to ccvitation, Wear Vol. 233-235 (1999) 51
• 100. A.Yamaguchi, T.Kazama K.Inoue J.Onoue Comparison of cavitation erosion test results between vibratory and cavitating jet methods, Int. Journal of Fluid Power Vol.21 (2001) 25-30
• 101. Y.Meged, Modeling of the intial stage in vibratory cavitation erosion tests by use of a Weibull distribution, Wear Vol. 253 (2002) 914-923
• 102. H.Soyama, H.Kumarto, The fundamental threshold level - a new parameter for predicting cavitation erosion resistance, Journal of Testing and Evaluation Vol. 30, 5 QA0D 421431
• 103. X.Escalar, M.Farhat, F.Avellan E.Eguisquize, Cavitation erosion tests on a 2D hydrofoil using surface-mounted obstacles, Wear Vol. 254 (2003) 441-449
• 104. R.P.Veerabhadra, D.H.Buckley, M.Matsumura, A unilied relation for cavitation Erosion, Int. Journal of Mechanical Sciences Vol. 26,5 (1984) 325-335
• 105. A.Karimi, F.Avellan Comparison of erosion mechanisms in different types of cavitation, Wear Vol. 113, 3 (1986) 305-322
• 106. A.Kubota, H.Kato, H.Yamaguchi, M.Maeda, Unsteady structure measurements of cloud cavitation on a foil section using conditional sampling technique, Journal of Fluids Engineering - Transactions of ASME Vol. 111 (1989) 204-210
• 107. B.Belahadji, J.P.Franc, J.M.Michel, A statistical analysis of cavitation erosion pits, Transactions of the ASME: Journal of Fluids Engineering Vol. 113 (1991) 700-705
• 108. H.Luis, P.T.Tai, T.Wehlage, A.Yabuki, Evaluation and prediction of surface roughness due to cavitation erosion, Int. Symp. on Propulsors and Cavitation, Hamburg June 22-25, 1992, paper 2434
• 109. K.Zhao, C.Gu, F.Shen, B.Lou, Study of mechanism of combined action of abrasion and cavitation erosion on some engineering steels, Wear Vol.162-164, pt.B (l993) 811-819
• 110. R.Fortes-Patella J.L.Reboud ,A new approach to evaluate the cavitation erosion power, Int. Symposium on Cavitation, May 1995, Deauville, 233-240
• 111. S.Lavigne A.Retailleau, J.Woillez Measurement of the aggressivity of erosive cavitating flows by a technique of pits analysis. Application to a method of prediction of erosion, Int. Symposium on Cavitation, Deauville May 1995, 241-248
• 112. X.Escallar, P.Dupont, F.Avellan Experimental investigations on forces due to vortex cavitation collapse for different materials, Wear Vol. 233-235 (1995) 65-74
• 113. R.Fortes-Patella, J.L.Rebound, The new approach to evaluate the cavitation erosion power, Journal of Fluid Engineering Transaction of ASME Vol.l20, 2 (1998) 33s-344
• 114. S.M.Ahmed, Investigation of the temperature effects on induced impact pressure and cavitation erosion, Wear Vol. 218, 1 (1998) ll9-127
• 115. M..Kass et al., Nonlinear cavitation erosion of stainless steel in mercury versus applied power, Tribology Letters Vol. 5, 2-3 (1998)23l-234
• 116. P.B.Robinson, J.R.Blake I.Kodama, A.Shima, Y.Tomita, Interaction of cavitation bubbles with a free surface Journal of Applied Physics, Vol.89 (2001) 8225-8237
• 117. H.Soyama, P.Jung-Do, M.Saka, H.Abe, Improvement of residual stress in stainless steel by cavitation jet, Japan Journal of the Society of Materials Science Yol. 47,8 (1989) 808-812
• 118. H.Soyama M.Asahara, Improvement of the corrosion resistance of a carbon steel surface by a cavitating jet, Journal of Materials Science Letters Vol. 18, 23 (1999) 1953-1955
• 119. E.A.Brujan Collapse of cavitation bubbles in blood, Europhysics Letters Vol. 50, 2 (2000) 175-181
• 120. D.L.Sokolov, M.R.Bailey, L.A.Crum Use of a dual-pulse lithotripter to generate a localized and intensified cavitation field Journal of the Acustical Society of America Vol. 110, 3 (2001) 1685-1695
• 121. R.Aoyagi, R.Fujiwara T.Niita Possibility of metal processing using ultrasonic cavitation jet, Japanese Journal of Applied Physics Pt.l, Vol. 40 (2002) 3784-3786
• 122. Y.J.Chen, L.W.Huang, T.S.Shih, Diagnosis of oxide films by cavitation micro jet impact, Materials Transactions Vol. 44,2 (2003) 327-335
• 123. S.Zhu, F.H.Cocks, G.M.Perminger, P.Zhong The and cavitation in stone comminution in shock wave in Medicine and Biology Vol. 28 (2002) 661-671
• 124. A.Thiruvengadam, Prevention and cure of cavitation erosion, Reviews Vol.25, 5 (1972) 10-27 Naval Research
• 125. F.Siccardi, Cavitation control in pumps, Energia Elettrica Vol. 53, 4 (1976) 190-199
• 126. P.A.Lush, S.M.Selim, L.W.Studd, B.Angell, The relation between cavitation noise and erosion,5th Int. Conference on Erosion by Solid and Liquid Impact, Cambridge 1979,62/1-5
• 127. P.Courbiere An acustic correlation method for detecting cavitation erosion, Proceedings of 7th Conference on Fluid Machinery Vol. 1, Akademiai Kiado, Budapest 1983, 150-159
• 128. P.A.Lush B.Angell, Correlation of Cavitation Erosion and Sound Pressure Level, Journal of Fluids Engineering 106 (1984) 347-351
• 129. H.Krause, M.Mathias, Investigation of cavitation erosion using X-ray residual stress analysis Wear Vol.119, 3 (1987) 343-352
• 130. M.Farhat, F.Pereira, F.Avellan Cavitation erosion power as a scaling factor for cavitation erosion in hydraulic machines,4th Int. Symposium on Bubble Noise and Cavitation Erosion in Fluid Systems, New Orlean 1993, ASME Vol. FED 176,95-104
• 131. P.M.Villani, T.R.DaExaltacao, A SEM based method for the evaluation of the cavitation erosion behavior of the naterials, Materials Characterization Vol. 41 5 (1998) 193-200
• 132. A.Baldassana M.Delucialn P.Nesi, Real-time detection of cavitation for hydraulic turbomachines, Real-Time Imaging Vol. 4, 6 (1998) 403-416
• 133. B.Bajic, Intelligent cavitation diagnostics and monitoring of hydroelectric turbines,Int. Water Power and Dam Construction Vol. 53, no 5 (2001) 33-36
• 134. B.Bajic, Multidimensional diagnostics of turbine cavitation, Journal of Fluids Engineering - Transactions of ASME Vol. l24, 4 (2002)943-950
• 135. A.Thivengadam, D.Kenkermatb, Influence of cavitation erosion on adhesion strength of elastomeric coatings, Sea Technology Vol. 14,7 (1973) 30-32
• 136. A.P.Thiruvengadam, A.A.Hochrein The role of coatings in the prevention of erosion damage, Proc. 23rd Meeting on the Role of Coatings in the Prevention of Mechanical Failures, National Bureau of Standards 1976, 120-123, Washington
• 137. L.G.Voroshnin, A.Y.Khappalaev, M.M.Abacharaev, Cavitation resistance of chromium diffusion coatings on steels and cast irons, Metallovedenie i Termicheskaya obrabotka Metallov Vol. 23, 5 (1981) 59-61
• 138. A.Barletta, A.Ball, The cavitation erosion of coated and surface treated steels, Mechanical Behavior of Materials IV, Pergamon Vol. 1, 42l-428, oxford 1984 role of stress waves lithotripsy, Ultrasound
• 139. B.S.Mann, P.R.Krishnamoorthy, P.Vivekananda, Cavitation erosion characteristics of Ni-based alloy composite coatings obtained by plasma spraying, Wear Vol. l03 1 (1985) 43-55,
• 140. S.Muensterer, K.Kohlhof, Cavitation protection by low temperature TiCN coatings, Surface and Coatings Technology Vol. 74-75,1-32 (1995) 642-647
• 141. J.H.Boy, A.Kumar, P.March, P.Willis, H.Herman Cavitation and Erosion Resistant Thermal Spray Coatings, CPAR Program - US Army Corps of Engineers Technical Report 97/118, 1997
• 142. H.Hiraga, T.Inoue, H.Shimura, A.Matsunawa, Cavitation erosion mechanism of NiTi coatings made by laser plasma hybrid spraying, Wear Vol. 231,2 (1999) 272-278,
• 143. L.Boccanera, S.R.Barra, A.J.Buschinelli, R.Schwetzke, H.Kreya Cavitation erosion resistance of Co-alloyed stainless steel weld claddings as compared to thermal sprayed coatings, XXV Encontro National de Technologia da Soldagem, Belo Horizonte - MG, September 1999
• 144. S.Han, J.H.Lin J.J.Kuo, J.L.He H.c.Shih, The cavitation erosion phenomenon of chromium nitride coatings deposited using cathodic arc plasma deposition on steel, Surface & Coatings Technology Vol. 16l, 1 (2002)20-25
• 145. C.M.Preece C.W.Draper, The effect of laser quenching the surfaces of steels on their cavitation erosion resistance, Wear Vol.67, 3 (1981) 321-328
• 146. Z.Li, J.Zou, Z.Xu, Effect of laser processing on the cavitation erosion of Cr-Mo-Cu alloy cast iron, Wear Vol. 119, 1 (1987) 13-27
• 147. M.Hrabovsky, A.Koutny, S.Urbanec, Resistance to cavitation erosion by hard particles of some metallic materials after laser transformation hardening, Proc. of the 4th Int. Conf. on Lasers in Manufacturing Birmingham 1987, pp.22l-228
• 148. W.J-Tomlinson, R.T.Moule, J.H.Megaw, A.S.Bransden Cavitation wear of untreated and laser processed hardfaced coatings, Wear Vol. 1l7, l (1987) 103-107
• 149. W.J.Tomlinson, A.S.Bransden, Fabrication, microstructure and cavitation erosion resistance of a grey iron laser surface alloyed with 22% Cr Surface Engineering Vol. 4, 4 (1988) 303-308
• 150. W.J.Tomlinson, M.G.Talks, Cavitation erosion of laser surface melted phosphoric grey irons, Wear 129 (1989) 215-222,
• 151. W.J.Tomlinson, M.G.Talks, Laser surface processing and the cavitation erosion of a 16% Cr white cast iron, Wear Vol. 139, 2 (1990) 269-284
• 152. W.J.Tomlinson, A.S.Bransdety Laser surface alloying grey iron with Cr, Ni, Co and Co-Cr coatings, Surface Engineering Vol. 6, 4 (1990) 281-286
• 153. W.J.Tomlinson, M.G.Talks, Shot peening, laser surface melting and the cavitation erosion of an austenitic grey iron, Journal of Materials Science Vol. 26, 3 (1991) 804-808
• 154. W.J.Tomlinson, A.S.Bransden Cavitation erosion of laser surface alloyed coatings on Al-12%oSi, Wear Vol. 185 (1995) 59-65
• 155. C.T.Kwok, F.T.Cheng, H.C.Mat Laser surface modification of UNS S31603 stainless steel using NiCrSiB alloy for enhancing cavitation erosion resistance; Surface and Coatings Technology Vol. 107, 1998, p.3140
• 156. S.P.Gadag M.N.Srinivasan, Cavitation erosion of laser melted ductile iron, Journal of Materials kocessingTechnology, Vol.5l, no 1-4 (1995) 150-163
• 157. S.P.Gadag, M.N.Srinivasan Surface properties of laser processed ductile iron, Applied Physics A: Materials Science Processing Vol. A63, no 4 (1996) 409-414
• 158. D.Dube M.Fiset, R.Laliberte, R.Simoneau, Cavitation resistance improvement of IRECA steel via laser processing, Materials Letters Vol. 28 (1996) 93-99
• 159. C.T.Kwok, H.C.Man, F.T.Cheng Cavitation erosian & pitting corosion of laser surface melted stainless steels, Surface & Coatings Technology Vol. 99, 3 (1998) 295-304
• 160. C.T.Kwok H.C.Man, F.T.Cheng Cavitation erosion and pitting corrosion behavior of laser surface-melted martensitic stainless steel WS 542000 Surface & Coatings Technology Vol.126,2-3 (2000)238-255
• 161. C.T.Kwok F.T.Cheng H.C.Man Laser hardfacing of 1050 mild steel using NiCoCrB for enhancing cavitation erosion-corrosion resistance, 20th Int. Congress on Applications of Lasers and Electro0ptics, Orlando 2001, Congress Proceedings, 817 -827
• 162. C.T.Kwok, F.T.Cheng H.C.Man Laser-fabricated FeNiCoCrB austenitic alloy on steets; microstructures & cavitation erosion behavior, Surface & Coatings, Technology Vol. 145, 1-3 (2001) 194-205
• 163. C.T.Kwok, H.C.Man, F.T.Cheng Cavitation erosion-corrosion behavior of laser surface alloyed AISI 1050 mild steel using NiCrSiB, Materials Science & Engineering A: Structural Materials Properties Microstructures and Processing Vol. A303, l-2 (200l)250-261
• 164. K.F.Tam, F.T.Cheng, H.C.Man, Cavitation erosion behavior of laser clad Ni-Cr-Fe-WC on brass, Materials Research Bulletin Vol. 37, 7 (2002) l34l-135l
• 165. K.F Tam, F.T.Cheng, H.C.Man Laser surfacing of brass with Ni-Cr-Al-Mo-Fe using various laser processing parameters, Materials Science and Engineering A: Structural Materials Properties Microstructure & Processing Vol. A325, l-2 (2002)365-374
• 166. K.F.Tam, F.T.Cheng H.C.Man, Enhancement of cavitation erosion and corrosion resistance of brass by laser surface alloying with Ni-Cr.Si-B, Surface & Coatings Technology Vol. 149 (2002)36-44
• 167. F.T.Cheng, C.T.Kwok, H.C.Man, Cavitation erosion resistance of stainless steel laser-clad with WC-reinforced MMC, Materials Letters Vol. 57, 4 (2002) 969-974
• 168. K.H.Lo, F.T.Cheng H.C.Man, Cavitation erosion mechanism of S31600 stainless steel laser surface moditied with unclad WC, Materials Science and 133-134 Engineering A: Structural Materials Properties Microstructure & Processing Vol. A357, l-2 (2003) 168-180
• 169. K.H.Lo, F.T.Cheng, H.C.Man, Laser transformation hardening of AISI 440C martensitic stainless steel for higher cavitation erosion resistance, Surface and Coatings Technology Vol. 173, l (2003) 96-104
• 170. K.H.Lo, F.T.Cheng C.T.Kwok H.C.Man, Improvement of cavitation erosion resistance of A151316 stainless steel by laser surface alloying using fine WC powder, Surface & Coatings Technology Vol. 165, 3 (2003) 258-267
• 171. M. von Allmen, Laser beam interaction with materials, Springer-Verlag, Berlin 1989
• 172. J.Kusiński, Lasery i ich zastosowanie w inżynierii materiałowej, Akapit, Kraków 2000
• 173. Applied Laser Tooling ed. O.D.D.Soares, M.Perez-Amor, Martinus Nijhoff Pub. Dordrecht 1987
• 174. A.M.Prokhorov, V.I.Konov, I.Ursu, I.N.Mihailescu, Laser Heating of Metals,1Adam Hilger, Bristol 1990
• 175. D.Shuocker, High Power Lasers in Production Engineering, World Scientific Pub. 1999
• 176. W.M.Steen Laser Material Processing, Springer-Verlag 1996
• 177. D.Bauerle Laser Processing and Chemistry, Springer-Verlag 1996
• 178. K.Wissenbach A.Gasser, A.Gillner, E.W.Kreutz W.Amende, Surface alloying by high power lasers, Laser und Optoelektronik no.4 (l985) 376-384
• 179. M.Suzuki, M.Hashiura, T.Umino, Laser application in surface treatment, Journal of the Japan Society of Precision Engineering Vol. 55 (1989) 254-259
• 180. Y.Wang, J.J.Liu, Z.H.Yu, Effect of rare earth elements on microstructure and wear resistance of laser remelted iron alloy coatings containing metalloids, Surface Engineering Vol. 9, 2 (1993) 151-155
• 181. F.Kostrubiec, M.Walczak Thermal stresses in V and Mo surface layer following laser treatment, Journal of Materials Science Letters Vol. 13, l (1994) 34-36
• 182. H.W. Bergmann, K.Shutta, E.Schubert, A.Emmel, Laser surface processing of metals and ceramics for industrial applications Applied Surface Science 86 (1995) 259-265
• 183. M.Kutsuma, Laser suface processing of metals, Review of Laser Engineering Vol. 22,9 (1994) 746-761
• 184. R.C.Gassmann, Laser cladding with (WC+W/sub2/C)/Co-Cr-C and (WC+Wsub2/C)/Ni-B-Si composities for enhanced abrasive wear resistance, Materials Science & Technology Vol. 12, 1 (1996) 691-696
• 185. B.Major, R.Ciach R.Ebner, F.Jeglitsch, Laser microstructure modification of metallic materials, Acta Physica Polonica A Vol. 89,2 (1996) 171-182
• 186. Y.T.Pei, J.H-Ouyang, T.C.Lei, Laser cladding of ZrO2 - Ni alloy composite coating, Surface & Coatings Technology Vol. 81, 2-3 (1996) 131-135
• 187. A.Frenk, M.Vandyoussefi, J.D.Vagniere, A.Zryd, W.Kurz Analysis of the laser cladding process for stellite on steels, Metallurgical & Materials Transactions B: Process Metallurgy and Materials Processing Science Vol. 28B, 3 (1997) 501-508
• 188. L.Wei, G.Li, C.Li, Z.Gui, Experiment and analysis of cladding parameter and wear behavior for laser cladding, Journal of Mechanical Strength Vol. 19, 3 (1997) 39-41
• 189. Y.P.Kathuria, Laser cladding process: a study using stationary and scanning CO2 laser beams, Surface & Coating Technology Vol. 97, l-3 (1997) 442-447
• 190. B.Major, E.Ebner, Carbide and boride laser modification of steels, SPIE Proc. Vol. 3187 (1997) 15-26
• 191. J.Kusiński, Habilitation Thesis, Sci.Bull.of Academy of Mining and Metallurgy, Metallurgy and Foundary Practise, Vol-132 (1989)
• 192. Q.Ming, L.C.Lim, Z.D.Chen, Laser cladding of nickel-based hardfacing alloys, Surface & Coating Technology Vol. 106, 2-3 (1998) 174-182
• 193. W.Guo, A.Kar, Interfacial instability and microstructural growth due to rapid solidification in laser processing Acta Materialia Vol. 46, l0 (1998) 3485-3490
• 194. G.Nicolas et al., W laser surface processing of metalic alloys, Applied Surface Science 138-139 (1999) 169-173
• 195. X.Wu, Microstructural characteristics of TiC reinforced composite coating produced by laser synthesis, Journal of Materials Research Vol. 14, 7 (1999) 2704-2707
• 196. R.Vilar, Laser cladding, Journal of Laser Applications Vol. 1l, 2 (1999) 64-79
• 197. X.Wu, Rapidly solidified nonequilibrium microstructure and phase transformation of laser synthesized iron-base alloy coating, Surface & Coating Technology Vol. 115, 2-3 (1999) 153-162
• 198. J.Przybyłowicz, J.Kusiński, Laser cladding and erosive wear of Co-Mo-Cr-Si coatings, Surface & Coating Technology Vol. 125, 1-3 (2000) 13-18
• 199. C.K.Anthony, Wear resistant cobalt-base alloys, Journal of Metals, February 1983,52-60
• 200. R.Simoneau, Y.Mossoba, Cavitation resistant alloys, Hydro Review, February l989, 46-58
• 201. B.S.Mann Boronizing of cast martensitic chromium nickel stainless steel and its abrasion and cavitation erosion behavior, Wear, Vol. 208, no 1-2 (1997) 125-131
• 202. R.H.Richman, W.P.McNaughton, A metallurgical approach to improved cavitation-erosion resistance ASM Int, Journal of Materials Engineering and Performance Vol. 6, no 5 (1997) 633-641
• 203. W.T.FU, Y.B.Yang F.T.Ying, Y.Z.Zheng, M.Yao, The resistance to cavitation erosion of CrMnN stainless steels, Journal of Materials Engineering and Performance Vol. 7,6 (1998) 801-804
• 204. J.K.Kim, S.Y.Ahn Y.D.Kim, Y.K.oh, S.J.Kim, Cavitation behavior of Fe and Ni base hardfacing alloys for replacing Co-base stellite, Journal of the Korean Institute of Metals and Materials Vol. 36, 9 (1998) 1391-1395
• 2O5. D.J.Mills, R.D.Knutsen, An investigation of the tribological behavior of a high nitrogen Cr-Mn austenitic stainless steel, Wear Vol. 215, 1-2 (1998) 83-90
• 206. R.Simoneau, Vibratory, Jet and Hydroturbine Cavitation Erosion; FED-vo1.109, Cavitation and Multiphase Flow Forum, ed. By O.Furuya&H.Kato, ASME, Vol. G00597 (1991)
• 207. R.Menon, W.C.Moiser, J.B.C.Wr4 Cavitation Erosion Resistant Steel; US Patent 5,514,328, (1996)
• 208. P.March, J.Hubble; Evaluation of Relative Cavitation Rates for Base Materials, Weld overlays and Coatings, Report WR28-l-900-282, Tennessee Valley Authority Engineering Lab., Norris (1996)
• 2O9. Castolin Eutectic Corp. Inf. Proceedings, Charlotte NY
• 210. S.J.Pawel, E.T.Manneschmidt, Preliminary evaluation of cavitation resistance of We 3t6LN stainless steel in mercury using a vibratory horn, Journal of Nuclear Materials Vol. 318 (2003) 122-l3l
• 211. American Society for Testing and Materials (1967), Erosion by cavitation or impingement, ASTM STP 408
• 212. A.J.Acosta, and B.R.Parkin Cavitation inception - a selective review. J. Ship Res., Vol.19, (1975) 193-205
• 213. E.P.Rood, Mechanisms of cavitation inception. review. ASME J. Fluids Eng. Vol. l13, (1991) 163-175
• 214. J.Frenkel, Kinetic theory of liquids. Dover, New York, 1955
• 215. R.T.Knapp, T.W.Daily, F.G.Hammit, Cavitation McGraw Hill, New York 1970
• 216. I.S.Pearsall, Cavitation, Mills&Boon Ltd., pp.80, London 1972
• 217. F.G.Hammit, Cavitation and Multiphase Phenomena, McGraw Hill, New York 1980
• 218. G.L.Chahine, R.Duraiswami, Dynamical interactions in a multibuble cloud, ASTM Journal of Fluid Engineering Vol. 114 (1992) 680-686
• 219. R.Hickling, M.S.Plesset, Collaps and rebound of a spherical bubble in water, Physics Fluids Vol. 7 (1964)7-14
• 220. M.S.Plesset, A.Prosperdti, Bubble dynamics and cavitation Ann.Rev.Fluid Mech. 9, 1977,145-185
• 221. A.D.Piernik, Problemy kawitacji, Sudostrojenie, Leningrad 1966, 286-340
• 222. F.RYoung, Cavitation, McGraw-Hill 1989
• 223. E.S.Burka, Cavitation in hydraulic machinery, Transactions of the Institute of Fluid-Flow Machinery, No 1l0 (2002)7-13
• 224. M.Halrison Experimental study of single bubble cavitation noise Journal of Acoustics Society of America Vol. 24 (1952) 776
• 225. R.Hickling, Transient, high-pressure solidification associated with cavitation in water, Phys.Rev.Letters Vol. 73 (1994)2853-2856
• 226. S.Fujikawa, T.Akamatsu, Effects of the non-equilibrium condensation of vapor on the pressure wave produced by a collapse of a bubble in liquid, Journal of Fluid Mechanics Vol. 97 (1980) 481-512
• 227. G.L.Chahine, Interaction between an oscillating bubble and a free surface, ASTM Journal of Fluid Engineering Vol. 99 (1977) 709-716
• 228. A.Philip, C.D.Ohl, W.Lauterborn Single bubble erosion on a solid surface, Proceedings of Int. Symposium on Cavitation Deauville 1995,297-303
• 229. A.Vogel, W.Lauterborn R.Timm, optical and acoustic investigations of the dynamics of laser produced cavitation bubbles near a solid boundary, Journal of Fluid Mechanics Vol. 206 (1989) 299-338
• 230. F.Avellan, R.Farhat, Shock pressure generated by cavitation vortex collapse, Int. Symposium on Cavitation Noise and Erosion in Fluid Systems, San Francisco 1989, ASME Vol.FED 88, 119-125
• 231. N.I.Pylaev, A.A.Sotnikov, Udarnyje impulsy pri kavitacii v potokie, Energomaszinostojenie No.5, 1971
• 232. T.B.Benjamin, A.T.Ellis, The collapse of cavitation bubbles on the pressures thereby produced against solid boundaries, Phil. Trans. of the Royal Society, London, Ser. A Vol. 260 (1966)22l-240
• 233. J.Steller, A.Krella, J.Koronowicz W.Janicki, Towards quantitative assessment of materials resistance to cavitation erosion, II Int. Conference on Erosive and Abrasive Wear, Cambridge 22-25 September 2003
• 234. S.L.Ceccio, C.E.Brennen observations of the dynamics and acoustics of traveling bubble cavitation, Journal of Fluids Mechanics Vol 233 (1991) 633-660
• 235. Y.Tomita, A.Shima, on the behavior of the spherical bubble and the impulse pressure in a viscous compressible liquid, Bulletin of the Japan Society of Mechanical Engineering Vol. 20 (1977) 1453-1460
• 236. Cavitation in control valves - Technical Information Samson AG 3/1l (2003) l-64
• 237. C.T.Kwok F.T.Cheng H.C.Man Synergetic effect of cavitation erosion and corrosion of various engineering alloys in 3,5% NaCl solution, Materials Science & Engineering Vol. 290 (2000) 145-154
• 238. V.P.Morozov, Cavitation noise as ą train of sound pukes generated at random times, Sov. Phys. Acoust. Col. 14 (1969) 361-365
• 239. J.Steller, International Cavitation Erosion Test. Test facilities and experimental results, 2eme Journees "Cavitation"o Soc. Hydrotechnique de France, Paris 1992
• 240. Standard method for erosion of solid materials by a cavitating liquid jet, ASTM Standard G32-85, 1985
• 241. Standard method of vibratory cavitation erosion test, ASTM Standard G32-85, l985
• 242. F.J.Heymann on the time dependence of the rate of erosion due to impingement or cavitation, [in:] "Erosion by Cavitation or Impingement" ASTM Special Technical Publication no 408 (1966) 70-100
• 243. K.Steller, Nowa koncepcja odporności materiału na erozje kawitacyjne Prace Instytutu Maszyn Przepływowych PAN, zeszyt 76 (1978) 127-150
• 244. Erozja kawiticyjna. Badanie odporności materiałów metodą wibracyjną. Polska Norma PN-86/H-04427, 1986
• 245. Standard method of vibratory cavitation erosion test. ASTM Standard G32-85,1985
• 246. Standard terminology relating to wear and erosion ASTM Standard G40-88, 1988
• 247. O.Bologa, The parameter influence on the superficial layer in cavitation destruction, Annals of University of Galati Vol. VIII (2002), Tribology, pp. 38-50
• 248. H.Krause, M.Mathias, Appticability of X-ray residual stress analysis for early recognition of cavitation damage, Materialpruefung Vol. 28,6 (1986) 167-173
• 249. H.Hertz Uber die Beruhrung fester elastischer Korper, Gesammelte Werke, ed.P.Lenard, Bd. 1, J.A-Barth, Leipzig 1895, 155-173
• 250. B.Narendra, N.B.Dahotre A.Hunter, K.Mukherjee, Laser surface melting of W2 tool: effects of prior heat treatment; Journal of Material Science Vol.22, (1987) p.403-406
• 251. D.R.Rao, B.Ventakaraman M.K.Asundi, G.Sundararajan, The effect of laser ;surface melting on the erosion behaviour of a low alloy steel; Surface and Coatings Technology Vol. 58, 1993, p. 85
• 252. D.Y.Li, R.Liu, The mechanism responsible for high wear resistance of pseudo-elastic TiNi alloy - a novel tribo-material, Wear Vol. 225-229 (1999) 777-783
• 253. M.M.Oliveira, J.D.Bolton, High-speed steels; increasing wear resistance by adding ceramic particles, Journal of Materials Processing Technology Vol.92-93 (1999) 15-20
• 254. M.Mathias, A.Gocke, M.Pohl, The residual stress, texture and surface changes in steel induced by cavitation Wear Vol. 150, 1-2 (1991) 11-20
• 255. M.J.Stinger, L.A.Ortrnan, F.S.Pettit, G.H.Meier, R.Handoko, A.Vasinonta, J.Beuth, Measurements of interfacial toughness in thermal barrier coating systems by indentation AST Annual Program Review November 8-10 1999, Pittsburgh
• 256. R.Schwtzke, H.Kreye Cavitation erosion of HYOF coatings. [in:] Thermal spray: Practical solution for engineering problems, ed.C.C.Berndt, ASM International, Materials Park, OH, 1996
• 257. W.J.Tomlinson, M.G.Talks, Cavitation erosion of laser surface melted phosphoric grey irons, Wear Vol. 129 (1989) 215-222
• 258. M.W.Gabriel, C.M.Preece A.Staudinger, C.W.Draper, Cavitation erosion of laser quenched Fe-aluminium bronze, IEEE Journal of Quantum Electronics, vol.QE-17, 10, (1981) 2000-3
• 259. K.F.Tam, F.T.Cheng H.C.Man, Improvement of cavitation erosion resistance and corrosion resistance of brass by laser surface modification, Materials Research Society Symposia Vol. 617 (2000) J3.2.1-J3.2.6
• 260. International Cavitation Erosion Test, Preliminary Report, Pt.2, Experimental Data red. J-Steller, Institut Maszyn Przepływowych PAN, 20/98, Gdańsk 1998
• 261. P.L.Krapivsky, E.Ben-Naim, I.Grosse, Stable distributions in stochastic fragmentation Journal of Physics A-Mathematical & General, Vol.37, no.8 (2004)25
• 262. M.A.Makeev, R.Cuerno, A.L.Barabasi, Morfology of ion-sputtered surfaces, Nuclear Instruments and Methods in Physics Research B, Vol. 197 (2002) 185-227
• 263. S.Balasubramanijam, Computational modeling of the brittle impact computational mechanism, Ph.D.Thesis, West Virginia University 1998
• 264. J. Jaric, S.Golubovic, Configurational forces and couples for crack propagation, Theoretical and Applied Mechanics Vol.28-29 (2002) 185-203
• 265. R.O.Ritchie Mechanisms of fatigue-crack propagation in ductile and brittle solids, International Journal of Fracture Vo1.100, (1999) 55-83
• 266. K.Mogi, Earthquake prediction research in Japan, Journal of Physics of the Earth Vol.43, (1995) 533-61
• 267. D.Sornette, C.Vanneste L.Knopoff Statistical model of earthquake foreshocks, Physical Review E, Vol.45 (1992),8351-7
• 268. D.Sornette C.Vanneste Dynamics and memory effects in rupture of thermal fuse networks, Physical Review Letters, Vol.68, (1992) 612-15
• 269. X.Escaler, E.Egusquiza, T.Mebarki, F.Avellan M.Farhat, Field assessment of cavitation detection methods in hydropower plant, Proc.XXI IAHR Symp. on Hydraulic Machinery and Systems, Lausanne September 2002
• 270. W.J.Tomlinson S.J.Matthews, Cavitation erosion of structural ceramics, Ceramics International Vol. 20 (199 4) 201 -209
• 271. I.Malecki, A.Opilski, Charakterystyka i klasyfikacja sygnałów EA, [w] Emisja akustyczna: źródła, metody, zastosowania. Praca pod red. I.Maleckiego i J.Ranachowskiego, Wyd. Instytut Podstawowych Problemów Techniki PAN, Warszawa 1994
• 272. A.A.Griffith, The Phenomena of Rapture and Flow in Solids, Phil.Trans.Roy.Soc.A Vol.22l, (1921) 163 198
• 273. G.R.Irwin J.A.Kies, Critical energy rate analysis of fracture strength, Welding Research Supplement (1954) 193-l98
• 274. K.Sobczyk, Stochastic Models for Fatigue Damage of Materials, Advances in Applied Probability Vol.19 (1987) 652-673
• 275, K.Sobczyk, J.Trebicki, Modelling of random fatigue by cumulative jump processes, Engineering Fracture Mechanics, Vol.34, (1989), 477 -93
• 276. K.Sobczyk, S.Wędrychowicz B.F.Spencer, Dynamics of structural systems with spatial randomness, International Journal of Solids & Structures, Vol.33, (1996), 165l-69
• 277. K.Sobczyk, B.F.Spencer, Random microstructural effects on fatigue accumulation. International Journal of Fatigue Vol.17, (l995), 52l-30
• 278. T.Forster, Disc.Faraday Soc. Vol.27, 7 (1959) 1-18
• 279. Z.P.Bazant, M.Jirasek Nonlocal integral formulation of plasticity and damage, Journal of Engineering Mechanics, November 2002, p.1119-l148
• 280. W.W.Kostrow, I.A.Kunin, D.Rogula, Teoria defektów w ośrodkach stałych, Zakład Nar.im.Ossolińskich, Wrocław l973
• 281. S.Silling Peridynamic modeling of the failure of the heterogeneous solids, Computational Physics & Mechanics 1,29 (2002) l-22
• 282. Z.Jaeger, R.Englman, Thermodynamical Theory for Fracture in Heterogeneous Solids, [in:] Damage Mechanics in Engineering Materials, NY 1989
• 283. M.Ostoja-Starzewski, Damage in random microstructure: size effects, fractals and entropy maximization, [in:] Mechanics Pan-America 1989, ed. C.R.Steele, ASME NY 1989
• 284. O.B.Naimark, V.V.Silbershmidt, on the fracture of solids with microcracks, Europ. Journal of Mechanics A: Solids Vol. 10 (1991) l-13
• 285. V.R.Regel, A.I.Slutsker, I.Y.Tomashevskiy, Kinetic Nature of Strength of Solids, Nauka, Moskva 1974
• 286. A.I.Chudnovskii, on fracture of macrobodies, studies in elastics and plasticity No.9 (1973) 343, Leningrad University Press
• 287. Yu.I.Mescheryakov, A.K.Divakov, N.I.Zhigacheva, Role of mezostructure effects in dynamic plasticity and strength of ductile steels, Materials Physics and Mechanics Vol. 3 (2001) 63-100
• 288. P.D.Zavattieri, H.D.Espinosa, Grain level analysis of crack initiation and propagation in brittle materials, Acta Materialia Vol. 49 (2001) 4291-43ll
• 289. G.Carter, The physics and applications of ion beam erosion, Journal of Physics D: Applied Physics Vol. 34 (200l) 1-22
• 290. A.Carpinteri, B.Chiaia, P.Cornetti, A disordered microstructure material model based on fractal geometry and fractional calculus, Journal of Applied Mathematics and Mechanics Vol. 84 (2004) 128 - 135
• 291. Q.Y.Long, Li.Suquin, C.W.Lung Studies on the fractal dimension of a fracture surface formed by slow stable crack propagation, Journal of Physics D: Applied Physics Vol.24 (1991) 602-607
• 292. L.L.Mishnaevsky, Determination for the time-to-fracture of solids,International Journal of Fracture Vol.79 (1996) 341-350
• 293. T.Chelidze Y-Gueguen Evidence of fractal fracture, Int. Journal of Rock Mechanics & Mineral Science Vol.27 (1990) 223-225
• 294. R.E.Williford, Scalling similarities between fracture surfaces, energies and structure parameters, Scripta Metallurgica Vol.22 (l988) 197-200
• 295. L.L.Mishnaevski, A new approach to the determination of the crack velocity vs. crack length relation, Int. Journal for Fatigue & Fracture of Engineering Materials and Structures No.l0 (1994) 1205-1212
• 296. C.W.Lung, Fractals and fracture of metals with cracks, [in:] Fractals in Physics, ed. E.Pietronero, E.Tosatti, North-Holland, NY 1986
• 297. A.Carpinteri, Fractals nature of material microstructure and size effects on apparent mechanical properties, Mechanics of Materials 18 (1994) 89-101
• 298. B.Gutenberg, F.C.Richter, Seismicity of the Earth and Associated Phenomena, Princeton University, Princeton 1954
• 299. F.M.Borodich, Fractals and fractal scaling infracture mechanics, International Journal of Fracture Vol.95 (1999) 239-259
• 300. B.Fedelich, A stochastic theory for the problem of multiple surface crack coalescence, International Journal of Fracture Vol.91, (1998) 23 -45
• 301. B.Bhattacharya, Asynptotic independence of material failure at different scales - the role of small-scale fluctuations l5th ASCE Engineering Mechanics Conference, New York June 2002
• 302. K.Tuncay; A.Park, P.Ortoleva, A forward model of three-dimensional fracture orientation and characteristics, Journal of Geophysical Research, Vo1.105, no.B7 (2000) 16719-35
• 303. L.HolderU S.Sannan, H.Bungum, A stochastic marked point process model for earthquakes, Natural Hazards and Earth System Vol.3, (2003) 95-10l
• 304. E.F.Preston et al., Models of Earthquake Faults with Long-Range Stress Transfer, Computing Science & Engineering Vol.2, (2000) 34-41
• 305. D.Sornete, Predictability of catastrophic events: material rupture, earthquakes, turbulence, financial crashes, and human birth, Proc. Natl. Acad. Sci. USA Vol.99, Suplement 1 (2002) 2522-2529
• 306. C.P.Tsokos, W.J.Padgett, Random Integral Equations with Applications to Life Sciences and Engineering Mathematics in Science & Engineering Vol.108, Acad.Press, N.Y. - London 1974
• 307. Y.Meged, Modelling of Vibratory Cavitation Erosion Test Results by a Weibull Distribution, Journal of Testing and Evaluation Vol. 31 (2003) 1-12
• 308. R.P.Berton, Statistical distributions of water content and sizes for clouds, Annales Geophysicae Vol.l8 (2000) 385-397
• 309. Y.Meged An improved method for determination of the cavitation erosion resistance by a Weibull distribution Journal of Testing and Evaluation Vol. 32 (2004)373-382
• 310. R.Jendrzejewski, A.Conde J.Damborenea, G.Śliwiński, SPIE Proc. 4184 (200l) 603-606
• 311. P.L.Gruzin, O dyfuzji Co, Cr, W w żelazie i stali, Problemy metalovedenija i fiziki metalov, Metallurgizdat, 1955
• 312. P.B.Mikhajlov-Mikheev, Metal gazovych turbin, Maszgiz, Moskwa l958
• 313. H.Holleck, Designing advanced coatings for wear protection, Surface Engineering Vol. 7 (1991) 137-144
• 314. C.E.Campbell, G.B.Olson, System design of high performance stainless steels, Journal of Computer Aided Material Design Vol. 7, (2000) 145-170
• 315. P.B.Mikhajlov-Mikheev, Teplovaya chrupkost stali, Maszgiz, Moskwa 1956
• 316. W.Song, P.Zhu, K.Cui, Effect of Ni content on cracking susceptibility and microstructure of laser clad Fe-Cr-Ni-B-Si alloy, Surface & Coatings Technology Vol.80 (1996) 279-282
• 317. L.Salbut, M.Kujawinska: Grating microinterferometer for local in-plane displacement/strain fields analysis, Proc. SPIE, v. 3407, 490-494, 1998
• 318. K.Wissenbach, A.Gillner, F.Dausinger, Transformation hardening by CO2 laser radiation, Laser und Optoelektronik Nr.3 (1985) 291 296
• 319. M.Zhong W.Lieu, J-C.Goussain, C.Mayer, J.Fritz, Experimental research on cracking behavior during high power CO2 laser cladding, Proceedings of SPIE Vol. 3888 (2000) 307-311
• 320. R.Vilar, Laser alloying and laser cladding, Materials Science Forum, Vol.301 (1999)229-252
• 321. G.Abbas, W.M.Steen, D.R.West, Microstructures and crack formation studies of laser produced deposits, Proc. of the Laser Materials Processing Conf. ICALEO'98. Laser Institute of America, Vol.2 (1998) D150-159
• 322. E.M.Breinan, B.H.Kear, Rapid solidification laser processing at high power density [in:] Laser Materials Processing ed. M.Bass, North Holland Publishing Company, 1983
• 323. H.Holleck, Designing advanced coatings for wear protection, Surface Engineering Vol. 7 (1991) 137-144
• 324. M.C.Flemings, Solidification Processing, Mc.Graw-Hill; New York 1974
• 325. A.A.Wells, Effects of residual stress on brittle fracture, [in:] Fracture. An advanced treatise. Vol.4, Engineering Fracture Design, ed. H.Liebowitz Academic Press 1969, N.Y.-London
• 326. K.Dang-Van, Macro-micro approaches in high cycle multiaxial fatigue, [in:] Advances in Multiaxial Fatigue, ASTM STP 1191 (1993), Philadelphia, pp. 120-130
• 327. M.R.James, D.S.Gnanamuthu, R.J.Moores, Mechanical state of laser melted surfaces, Scripta Metallurgica Vol. 18 (1984) 357-361
• 328. C.S.Richard, J.Lu, G.Beranger, F.Decomps. Study of Cr/sub 2/O/sub3/ coatings. II. Adhesion to a cast-iron substrate. ASM Journal of Thermal Spray Technology, vol.4, no.4, Dec. 1995,pp.347-52
• 329. A.Bylica, S.Adamiak, Laser hardening of laser based alloys, SPIE Proceedings, Vol. 3187 (1995) 65-75
• 330. G.Rabczuk, M.Sawczak Control of high power cw Co2 laser output beam properties by using an adaptive intracavity mirror, Proceedings of SPIE, Vol.5777 (2005) 733-736
• 33l. M.R.Stoudt, R.C.Cammarata R.E.Ricker Suppression of fatigue cracking with nanometer-scale multilayered coatings, Scripta Materialia, vol.43, no.6, 28 Aug.2000, pp.49l-6
• 332. H.Berns, Microstructural properties of wear-resistant alloys, Wear Vol.181-183 (r9es) 271-279
• 333. S.Atamert, J.Stekly, Microstructure, wear resistance and stability of Co based and alternative iron based hardfacing alloys, Surface Engineering Vol. 9 (1993) 231-240
• 334. D.Yang, X.Zhang, Friction and wear of metals modifted by a continuaous wave CO2laser, Surface & Coatings Technology Vol. 63 (1994) 43-48
• 335. A. Seager , Dislocations & Mechanics Properties of Crystals; ed. J. C. Fisher Willey (1957) p.243
• 336. D. Kuhlmann - Wilsdorf ; Work hardening in Tension & Fatigue, ed. A.Thompson; AIME (1968) p.97
• 337. S.Marcus, J.E.Lowder, D.L.Mooney, Large-spot thermal coupling of CO2 laser radiation to metallic surfaces, Journal of Applied Physics Vol. 47, 7 (1978) 2966-2968
• 338. L.Remy, A.Pineau, Observation of stacked layers of twins and epsilon martensite in a deformed austenitic stainless steel Metallurgical Transactions A-Physical Metallurgy & Materials Science vol.5, no.4, April 1974, pp.963-5
• 339. H.Schumann, Grundlagen das Festigkeitsverhaltens von Metallen Akademie Verlag 1965, cit.in: [35]
• 340. H.D.Espinosa, S.Lee, Advences in micro scale modeling of foilure mechanisms in ceramics and fiber composities, The First Sino-US joint Symp. on Multiscale Analysis in Materials Sciences & Engineering Beijing China, June 2002
• 34l. J.W.Simons, T.H.Antoun, D.R.Curray, A finite element model for analyzing the dynamic cracking response of concrete; VIII Int.Symp.on Interactions of the Effects ofMunitions with Structures, McClean, USA, April l997
• 342. P.A.Rehbinder, E.D.Shchukin, Surface phenomena in solids during deformation and fracture process, [in:] Progress in Surface Science Vol,3, Pt.2, Pergamon Press 1972, Oxford
• 343. S.Ciliberto, A.Guarino, R.Scorretti, The effect of disorder on the fracture nucleation process, Physica D Vol. 158 (2001) 83-104
• 344. B.Bhattacharya, B.Ellingwood, Continuum damage mechanics-based model of stochastic damage growth, Journal of Engineering Mechanics, ASCE, Vol.l24, (199S) pp. 1000-1009
• 345. V.E.Robsman N.V.Ershova, Vibration inspection method to detect flaws and evaluate bearing strength of construction, XIII Session of the Russian Acoustical Socioty, Moskwa 2003, 332-336
• 346. B.B.Kimia, A.R.Tannenbaum, S.W.Zucker, Shape, Shocks & Deformations, International Journal of Computer Vision, Vol.15, (1995) 189-224
• 347. T.Chelidze, Y.Gueguen Pressure-induced percolation transitions in composites, Journal of Physics D-Applied Physics, Vol.31, (1998) 2877-85
• 348. A.V.Levy, Erosion and erosion-corrosion of metals. Corrosion, Vol.5l, (1995), pp.872-83
• 349. J.Weiss, Self-affinity of fracture surfaces and implications on a possible size effect on fracture energ, Int. Journal of Fracture Vol. 109 (200l) 365-381