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112. Birkhoff G. Hydrodynamics, a study in logic, fact and similitude. 2nd ed.-Princeton University Press, 1960 (Биркгоф Г. Гидродинамика, методы, факты, подобие.- М.: Изд-во иностр. лит. 1963. 244 с).

113. Blum an G. W., Cole J. D. Similarity methods for differential equations.-New York, Heidelberg, Berlin, Springer Verlag, 1974, 332 p.

114. Bose E., Bose M. Ueber die Turbulenzreibung Verschiedener Flussig-keiten.-Physikalische Zeitschrift, 1911, Bd 12, No 4, S. 126-135.

115. Bose E., Rauert D. Experimentalbeitrag zur Kenntnis der Turbu-lenten Flussigkeitsreibung.-Physikalische Zeitschrift 1909, Bd 10, No 12, S. 406-409.

116. В rid gm an P. W. Dimensional analysis. Yale University Press, New Haven, 1931 (Бриджмен П. В., Анализ размерностей.-ОНТИ, 1934, 120 с).

117. Budiansky В., Carrier G. F. The pointless wedge.-SI AM J. Appl. Math., 1973, vol. 25, No 3, p. 378-387.

118. С a r о t h e r s S. D. Plane strain in a wedge.-Proc. Roy. Soc. Edinburgh., 1912, vol. 23, No 2, p. 292-306.

119. Carslaw H. S., Jaeger J. C. Conduction of heat in solids. 2nd ed.- Oxford, Clarendon, 1960. 510 p.

120. Cole J. D. Perturbation methods in applied mathematics.- Toronto, London, Blaisdell, 1968, (Коул Дж. Методы возмущений в прикладной математике.-М.: Мир, 1972, 274 с).

121. Coles D. е.. Hirst е. А. (ed.) Proceedings of Computation of Turbulent Boundary Layers.-AFOSR-IFP-Stanford Conference, Stanford University Press, 1969, vol. 11, 519 p.

122. Collins R. E. Flow of fluids through porous materials.-N. Y., Rein-hold, 1961, (Коллинз P. Течения жидкостей через пористые материалы.-М.: Мир, 1964. 350 с).

123. Corino е. R., Brodkey R. S. А visual investigation of the wall region in turbulent flow.-J. Fluid Mech., 1969, vol. 37, P. 1, p. 1-30.

124. Daniel 1 P. J. The theory of flame motion.-Proc. Roy. Soc, 1930, vol. A 126, No A802, p. 393-402.

125. Dry den H. L. A review of the statistical theory of turbulence.- Quart. Appl. Math., 1943, vol. 1, No 1, p. 7-42.

126. Einstein H. A., Ning Chen. Effects of heavy sediment concentration near the bed on the velocity and sediment distribution.- University of California MRD Ser., Report No 8, 1955, 77 p.

127. Fisher R. A. The wave of advance of advantageous genes.-Annals of Eugenics, 1937, vol. 7, p. 355-369.

128. Gad-el-Hak M., Corrsin S. Measurements of the nearly isotropic turbulence behind a uniform jet grid.-J. Fluid Mech., 1974, vol. 62, P. 1, p. 115-143.

129. Gardner C. S., Green J. M., Kruskal M. D., Miura R. M. A method for solving the Korteweg-de-Vries equation.-Phys. Rev. Lett., 1967, vol. 19, № 19, p. 1095-1097.

130. G 0 1 d s t e i n S. A. A note on the boundary layer equations.-Proc. Cambr. Phil. Soc, 1939, vol. 35, P. 2, p. 338-340.

131. Goldstein R. V., Vainshelbaum V. M. Material scale length as a measure of fracture toughness in fracture mechanics of plastic materials.- Internat. J. Fracture, 1978, vol. 14, No 2, p. 185-201.

132. Gossard E. E., H о о к e W. H. Waves in the Atmosphere.-New York, Elsevier, 1975. 456 p. (Госсард Э., Хук У. Волны в атмосфере.-М.: Мир, 1978. 532 с).

133. Griffith А. А. The phenomenon of rupture and flow in solids.- Philos. Trans. Roy. Soc. London, Ser. A, 1920, vol. 221, p. 163-198.

134. Gu der ley G. Starke kugelige und zylindrische Verdichtungsst5sse in der Nahe des Kugelmittelpunktes bzw. der Zylinderachsc-Luftfahrtforschung, 1942, Bd. 19, Lfg, 9, S. 302-312.

135. Hafele W. Zur analytischen Behandlung ebener, starker, instationarer Stosswelle.-Zs. fur Naturforschung, 1955, Bd 10a, H. 9/10, S. 693-697.

136. Ha in K., Horner S. V. Instationare starke Stossfronten.-Zs. fur Naturforschung, 1954, Bd 9a, H. 12, S. 993-1004.



137. Н а n j а 1 i с К., Launder В. Е. А Reynolds stress model of turbulence and its application to thin shear flow.-J. Fluid Mech. 1972, vol. 52, P. 4, p. 609-638.

138. H i n z e J. O. Turbulence. An introduction to its mechanism and theory.- New York, Toronto, London, McGraw-Hill. 1959. (Хинце И. О. Турбулентность.- М.: Физматгиз., 1963, 680 с).

139. Hinze J. О. Turbulent pipe-flow.- In: Mecanique de la turbulence. Ed. du Centre Nat. Rech. Sci.-Paris, 1962, p. 63-76.

140. Inglis C. E. Some special cases of two-dimensional stress and strain.- Trans. Inst. Naval. Archit., 1922, vol. 64, p. 253-258.

14 L Irwin G. R. Fracture dynamics. In: Fracturing of Metals.- Cleveland, Ohio, ASM, 1949, p. 147-166.

142. Irwin G. R. Fracture. In: Handbuch der Physik, Bd VI. Springer, 1958, Berlin, p. 551-590.

143. Irwin G. R. Fracture mode transition for a crack traversing a plate.- Trans. ASME; ser. D, 1960, vol. 82, p. 417-425.

144. Irwin G. R., Kies J. A., Smith H. L. Fracture strengths relative to onset and arrest of crack propagation.- Proc. Am. Soc. Test. Mater., 1959, 58, p. 640-657.

145. Jeffrey A., Kakutani T. Weak non-linear dispersive waves: a discussion centered around the Korteweg-de-Vries equation.- SIAM Rev., 1972, vol. 14, No 4, p. 582-643.

146. Kao T. W. Principal stage of wake collapse in a stratified fluid: two-dimensional theory.-Phys. Fluids, 1976, vol. 19, No 8, p. 1071 - 1074.

147. Karman Th., von. Ueber die Turbulenzreibung verschiedener Flussig-keiten.-Physikalische Zeitschrift, 1911, Bd 12, No 8, S. 283-284.

148. Karman Th., von. Aerodynamics.-Ithaca, New York, Cornell University Press, 1957, 203 p.

149. Karman Th., von, Howarth L. On the statistical theory of isotropic turbulence.-Proc. Roy. Soc, 1938, vol. A 164, No 917, p. 192-215.

150. Keller L. V., Friedman A. A. Differentialgleichungen fur die tur-bulente Bewegung einer kompressiblen Flussigkeit.- Proc. I Intern. Congress Appl. Mech., Delft, 1924, S. 395-405.

151. Kim H. Т., Kline S. J., Reynolds W. C. The production of turbulence near a smooth wall in a turbulent boundary layer.-J. Fluid Mech., 1971, vol. 50, P. 1, p. 133-160.

152. Kistler A. L., Vrebalovich T. Grid turbulence at large Reynolds number.-J. Fluid Mech., 1966, vol. 26, P. 1, p. 37-47.

153. Kline S. J., Reynolds W. C, S с h r a u b F. A., R u n s t a d 1 e r P. W. The structure of turbulent boundary layers.- J. Fluid Mech., 1967, vol. 30, P. 4, p. 741-774.

154. Koch H., von. Sur une courbe continue sans tangente obtenue par une construction geometrique elementaire.- Arkiv for Matematik, Astronomi och Fy-sik, 1904, vol. 1, p. 681-704.

155. Kolmogorov A. N. A refinement of previous hypotheses concerning . the local structure of turbulence in a viscous incompressible fluid at high Reynolds number.-J. Fluid Mech., 1962, vol. 13, P. 1, p. 82-85.

156. Kovasznay L. S. G., Kilens V., В lack welder R. F. Large-scale motion in the intermittent region of a turbulent boundary layer.- J. Fluid Mech., 1970, vol. 41, P. 2, p. 283-325.

157. Lagerstrom P. A., Casten R. J. Some basic concepts underlying singular perturbation techniques.-SIAM Rev., 1972, vol. 14, No 1, p. 63-120.

158. Laufer J. The structure of turbulence in fully developed pipe flow.- Rep. NACA, 1954, No 1174.

159. Lax P. D. Integrals of non-linear equations of evolution and solitary waves.-Communications on Pure and Appl. Math., 1968, vol. 21, No 5, p. 467-490.

160. Liebowitz H. (ed.). Fracture. An advanced treatise.-Academic Press, New York, London. 1968, vol. I, p. 579, vol. II, p. 759. (Либовиц Г. (ред.). Разрушение, т. I, М.: Мир, 1973, с. 616, т. II, М.: Мир, 1975, с. 763.)



161. Linden P. F. The deepening of a mixed layer in a stratified fluid.- J. Fluid Mech., 1975, vol. 71, P. 2, p. 385-405.

162. Ling S. C, Huang T. T. Decay of weak turbulence.-Phys. Fluids, 1970, vol. 13, No 12, p. 2912-2920.

163. Ling S. C, Wan C. A. Decay of isotropic turbulence, generated by a mechanically agitated grid.-Phys. Fluids, 1972, vol. 15, No 8, p. 1363-1369,

164. Mandelbrot B. B. Fractals. Form, chance, and dimension.- San Francisco, W. H, Freeman and Co., 1977, 365 p.

165. Meyer F. Zur Darstellung starker Stossfronten durch Homologie- Losungen.-Zs. fur Naturforschung, 1955, Bd 10a, H. 9/10, S. 693-697.

166. Miles J. W. On the stability of heterogeneous shear flow.-J. Fluid Mech., 1961, vol. 10, P. 4, p. 496-508.; 1963, vol. 16, P. 2, p. 209-227.

1G7. Moffatt H. K. Viscous and resistive eddies near a sharp corner.- J. Fluid Mech., 1964, vol. 18, P. 1, p. 1 - 18.

168. Moffatt H. K., Duffy B. R. Local similarity solutions and their limitations.-J. Fluid Mech., 1980, vol. 96, P. 2, p. 299-313.

169. Munk W. Abyssal recipes.-Deep-sea research., 1966, vol. 13. p. 707-730.

170. Murray J. D. Lectures on non-linear differential equation models in biology. Oxford, Clarendon Press, 1977, 370 p.

171. Newman B. G. Some contributions to the study of the turbulent boundary layer near separation. Austr.-Dept. Supply Rep. ACA-53, 1951.

172. Nikuradse J. Gesetzmassigkeiten der turbulenten Stromung in glat-ten Rohren. VDI Forschungsheft, 1932, No 356 (Никурадзе И. Закономерности турбулентного движения жидкостей в гладких трубах.- В кн.: Проблемы турбулентности. М., Л.: ОНТИ. 1936, с. 75-150).

173. Oboukhov А, М. Some specific features of atmospheric turbulence.- J. Fluid Mech., 1962, vol. 13, P. 1, p. 77-81.

174. Of fen G. R., Kline S. J. A proposed model of the bursting process in turbulent boundary layers.-J. Fluid Mech., 1975, vol. 70, P, 2, p. 209-228.

175. Oppenheim A. K., Kuhl A. C, К am el M. M. On self-similar blast waves headed by the Chapman-Jouget detonation.-J. Fluid Mech., 1972, vol.55, P. 2, p. 257-270.

176. Oppenheim A. K., L u n d s t r о m E. A., Kuhl A. C, К a m e 1 M. M. A systematic exposition of the conservation equations for blast waves.-J. Appl. Mech., 1971, vol. 38, No 4, p. 783-794.

177. О p p e n h e i m A. K., L u n d s t r о m E. A., К u h 1 A. C, К a m e 1 M. M. A parametric study of self-similar blast waves.-J. Fluid Mech., 1972, vol. 52, P. 4, p. 657-682.

178. Orowan E. Fracture and Strength of Solids.-Rep. Progr. in Phys. Soc. London, 1949, v. 12, p. 185-232.

179. Perry A. S., Scho field W. H. Mean velocity and shear stress distribution in turbulent boundary layers.- Phys. Fluid, 1973, vol. 16, No 12, p. 2068-2074.

180. Phillips O. M. The generation of clear-air turbulence by the degradation of internal waves.- В кн: Атмосферная турбулентность и распространение радиоволн. М.: Наука, 1967, с. 130-138.

181. Phillips О, М. Energy loss mechanisms from low-mode waves. Report on the Soviet-American Conference on Internal Waves, Novosibirsk, Dec. 1976.

182. Phillips O. M. The dynamics of the upper ocean. Second edition.- Cambridge University Press, 1977, p. 336.

183. Prandtl L. Meteorologische Anwendungen der Stromungslehre.-Bei-trage Phys. fur Atmosph., 1932, Bd 19, No 3, S. 188-202.

184. Rao K. N., N a r a s i m h a R., В a d r i Narayanan M. A. The bursting phenomenon in a turbulent boundary layer.-J. Fluid Mech., 1971, vol. 48, p. 339-352.

185. Reynolds O. On the dynamical theory of the incompressible viscous fluids and the determination of the criterion.- Phil. Trans. Roy. Soc. London, 1895, vol. 186, P. 1, p. 123-161,



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