SCIENTIFIC ABSTRACT FEDOROV, M.F. - FEDOROV, M.V.

BOV/96-59-6-4/22 Integral Rato-of-Flow Characteristics of the Blading of Certain Nozzle Profiles conventional rate of flow coefficient. Both characteris- tics depend only on the blading geometry, which is particularly convenient when it is required to express the results of, tests on blading In terms of these characteristics. The experimental equipment that was used to make the tests has beer. fully described in a previous article by the same author In Toploenergetika, 19582 Nr 8. A number of turbine blades are assembled in a straight row and arrangements are made to guide the incoming flow of working substance, With this set-up blading arrangements can be altered very easily provided that the blade assembly is suitably designed. The operative part of the equipment. with blading7 is shown in Fig 1. A number of detailed recommendations are made about experimental conditions. As will be seen from the graphs given inFig 3, the amount by which the panel on which the blades are mounted overhangs the ends of the blades influences the rate of flow coefficient, and Card 3/7 accordingly a -stLitable value of this overhang must be selected. The results of experimental determination of  SOV/96-59-6-4/22 Integral Rate-of-Flow Characteristics of the Blading of Certain Nozzle Profiles the rate-of-flow characteristics of blading with three types of nozzle profiles 5-1, TN-2 and TN-2 (II) are then considered. T4e tests were made with Reynolds numbers of 3 or 4 x 10) and a Mach number of about 0.4. The experimental variables were: the blade pitch, the angle of blade installation, and the ratio of blade length to blade width. Ora hs of the rate-of-flow characteristics are given in Fig &. The abscissae are the ratios of the narrowest section between blades to the pitch at the outlet edge as functions of the angle of installation of the blades. It will be seen that the ratios have an important influence on the rate of flow through the blading. A good idea of the nature of the influence of blading arrangement and geometry on the flow characteris- tics is given by the graph plotted in Fig 5, from which It will be seen, as was to be expected, that the ratio of the narrowest section to the pitch.at the exhaust edge is not a general parameter by which to characterise the flow Card 4/7 rate of bladin The experimental results are discussed and formula (Tis derived for the conventional  SOV/96-59-6-1+/22 Integral Rate-of-Flow Characteristics of the Blading of Certain Nozzle Profiles rat4r-of-flow coefficient. Curves of 'he factor m 6ntering Into formula (7) as a function of the pitch ratio are gi-ien in Fig 6 for blade profiles S-1 and TN-2 (II) whilst curves of the conventional rate-of-flow coeffictent lalcailated from formula (7) for the latter profile are given in Fig 7. This graph also includes experimental. points, and it will be seen that agreement is satisfacto--y. The relationships so far described were obtained with a ccnstant ratio of blade length to width for each type of bladingg ranging from 1.5 to 1.8 for different types. Investigation of the influence of the relative length of blade on the values of the ratr,..of- discharge coefficient showed that the Telationship is practically linear, as will be seen from the results plotted in Fig 8. It is then shown how the integral value of the outlet angle may be calculated from formula (8), which for practical purposes may be simplified to the form of exp.-ession (9). Graphs of outlet angles calculated by Card 5/7 this formula for profile S-1 are plotted in Fig 9, which gives for comparison experimental values determined by the  BOV/96-59-6-4/22 Integral Rate-of-Flow Characteristics of the Blading of Certain Nozzle Profiles pneumatic method and also angles calculated from.simple blading arrangement geometry by formula (5). For pitch ratios of 0.7 to 0.8 and angles of installation of about 400, the outlet angles determined by the integral method are greater than those determined pneomometrically by 10 which corresponds to a reduction in discharge area of about 10%. This is the order of the difference of steam discharge rate that was observed in turbines type VR-25 of the KhaAov Turbine Generator Works using blade profiles 6-1. The procedure used to determine the rate of flow through blading is then eonsidered, and graphs Showing the relationship between the conventional rate- of-flow coefficient and the Reynolds number are plotted in Fig 10. It is concluded that the pneumatic method, which is based on investigation of flow structure, is useful in developing now types of profiles and sufficiently reliable for measurements of energy losses in blading. However, the poor reliability of the Card 6/7 pneumatic method of determining outlet angles makes it  SOV/96-59-6-V22 Integral Rate-of-Flow Characteristics of the Blading of Certain Nozzle Profiles necessary to determine these angles by the integral method. The investigation described in this article indicates that hitherto the possibilities of the integral method.have been underestimated. There are 10 figures and )+ Soviet references. ASSOCIATIONs Kharlkovskiy politekhnicheskiy institut (Rharlkov Polytechnical Institute) Card 7/7  S/587/60/029/002/001/008 D262/D302 2 /.2 AUTHORS: Fedorovq M. F. and Fogorelov, Yu. I. TITLE: Investigating the efficiency of profile gratings used in diaphragms with narrow blades SOURCE: Khar1kov. Politekhnicheskiy institut. Trudy. v.29, no. 2, 1960. Parovyye i gazovyye turbiny, 7-18 TEXT: A number of experiments was carried out with three different profiles of blades considered to be the most economical and known as(---4,T-M-l fi, (S-1, TN-2 and D). The results are recorded in form of graphs and analyzed. The graphs are: Efficiency --h ratio, efficiency - Y2 ratio for various 1 and .1 ratios, efficiency b b b Reynold's number R 0 where (b - chord, 1 - height of blade, t distance between blades, Y2 - distance from the trailing edge plane to the plane where measurements are taken). Efficiency curves for Card 112  S/587/60/029/002/001/008 Investigating the efficiency ... D262/D302 3 different types of diaphragms, 2 of which are of modern design with shorter chords, are also shown. The results indicate that nozzle efficiency can be improved by 1 - 2% by reducing the chord and maintaining the same height of the blade. Profile TH-2 appears to be most suitable for application in diaphragms with reduced ohords. There are 8 figures and 6 references: 5 Soviet-bloc and 1 non-Soviet-bloc. The reference to the English-language publication reads as follows: Carter, The Institution of Mechanical Engineers, Proceedings, 1948, no. 41. Card 2/2  S 07 60/029/002/002/008 11262/11302 AUTHOR., Fedoroy,--M. F-W __aL~ TITLE: Investigating the flow characteristics in the gratings SOURCE: Kharlkov. Politekhnicheskiy institut. Trudy. v. 29, no. 2, 1960. Parovyye i gazovyye turbiny, 19-37 TEXT: An integral method of investigating flow characteristics in the blade cascade is discussed. The following characteristic func- tions are introduced: and X = ,u sin&_ = GVfYol mq p 01 ntl (4) x Xt (5) Card 1/3  32015 S/587/60/029/002/002/008 Investigating the flow ... D262/D302 (A = A- t G is the quantity of working medium actually passing G t through the cascade and G t the quantity which would pass through it in an isentropic expansion process; T and p pressure and tem- 01 0 (f2 perature of full braking at the inlet, m = 0.3965, f PO n = number of channels in the cascade, t and 1 = pitch and height V( of blades respectively,et= stream outlet angle = arc sin a, a t size of the channel at the narrowest section, C = chord, 8 b = angle between the chord and a line parallel to the axis of the cascade). A typical experimental installation of the cascade is described in detail and methods of eliminating distortions at the border of the cascade by introducing compensating ducts are analyzed. Results of the experiments with 3 typical nozzle profilesC-4 TH-2 jTh-2(-f4) Card 2/3  111/58'618/029/002/002/008 Investigating the flow.... D262"7D!3,02 (8-1$ TN-21 TN-2(11)) at R e - 3 - 4 x 105 and M = 0.4 are recorded in form of graphs showing variation ofU MA for different values of the geometrical parameters t I A I i and B , and also variation X . ; S t b b ofoC~ = arc sin (angular characteristic), where I is the cas- cade efficiencyl for different values of The results are ana- b lyzed and compared with those obtained by different methods. It is concluded that by this method more accurate values for effective outlet angles can be obtained. There are 15 figures and 7 referen- ces: 6 Soviet-bloc and 1 non-Soviet-bloc. The reference to the English-language publication reads as follows; D. G. Ainley, "Per- formance of axial flow turbines", Proc. J. Mech. E., 1948, no. 41. Card 3/3  M62/62,/OC0/Ol7/OOl/O03 1007/1207 AUTHORSt Fedorov, M.P., and Garkusha, A.V. TITLE: Investl6rution of the flow pattern in the gap between the blade rows, and energy losses in the turbine stage nozzles at varying chord si7ea of stator blades PERIODICAL: Referativny 7hurnal, otdelInyy vypusk. 42. 5ilovyye ustanovki, no. 17, 1962t 23, abstract 4217161 ("Tr. Khrtrlkovsk. politekhn.. in-ta" 1961, 180-191) TEXT: Investigutions were carried out on a single stage air-turbine with a rotor diameter Dmean- 475 mm, no7zle blade length 1 - 25 mm and with the following stage parameters: 1/b - 1.2; 1.22 ; 0.'61 and 0.305; t/b 0.758; --~l= 111031!; Fbl/Fnoz = 1.48 and 1.78 with M., - 0-36 nnd Re bal/9 = 5.8; 2.9 and 1.45. lo5. Here Card 1/5  S/262/62/000/017/001/003 1007/1207 Investigation of the flow psttern... b and t chord and pitch of stator blades; -3e1 = flow divergence- angle; F area of.blade and no7zle opening cross-section. The magnitude b of the closed section of the gap between `3 w "3/ the blade rows, was aloo changed during the investigntions. The profile of nozzle (stator) blades was C-1, of rotor blades T-1-25-21. The ratio u/cO (peripheral to isentropic velocity) corresponded to the maximum stage-efficiency. As shown by the investigation results, the static pressure p, at the external radius of each chord, some- what increases with the increase of ~3 0 4t The curves,,6 Z~,, u C/,- calculated according to the actual values of Cl,, and r only slightly depend on b,-- > and r3. The pressure gradient, measured alonj3 the radius increaoee with the chord size, and with I/b 0.305 approaches IJ r0 The discrepancy r Card 2/5  S/262/62/000/017/001/003 1007/1207 Investigation of the flow pattern... between the.predicted and iner%sured values of the pressure gradient may be explained by the nppearance of radial-acceleration due to flow twisting. The majpitude of PL at the blade root almost does not depend on the value of b, The deg-ree of p'eripheric reaction in the stages with narrow stator '31ades is smaller than in the case of broad blades. The flow divergence angle ce, in the flow core and at all values of 1/b and Fbl/Fnoz Is close to UP which is in good ae-reement with 1-ata on flow about a flat cascade. At the disc periphery and with a stage with 1/b 1.22, the angle Cq decreases by 2-30 whereas with a 1/b ratio 0-3059 it incroases by 1-1-50. At a l/b ratio - 0.61, the angle oelappears to be dis- tributed over the radius as in the case of straight-blade cascades. I~ all cases, the vplue oe"',sharply drops at the surfaces that Card 3/5  S/262/62/000/017/001/003 1007/1207 Investi~;ation of the flow pattern... limit the glow. The axial component Cl. decreases almost over the wholeblade length with the increase in ~-, , and particularly sharp at all values of 1/b And 93 for cylindrical walls. Despite the favorable cascade geometry for the stall from the stator-blade roots, the flow about them turned out to be laminar. The grr-phs for the square of velocity coefficient ~ 2 = f (r) Rre asymmetricalf and almost do not depend on t~e degree of reaction an Id sta~,,e seal-, ing. The no7vle efficiency e= calculated with due account of the discharg ,e velocity component, decreases with the increase in &z-----~the more, the greater is the chord size. with 63 = 0-05, and 1/b - 1.22 the nozzle efficiency is smaller 'by 4.5% than the cascade efficiency, and with a 1/b ratio a 0.305 it is smaller by .3%. The function )has a maximum at Xard 4/5 L  S/962/62/000/017/001/003 1007/1207 Investigntion of tile flow p,-tttern.-. b/1 - 1.5 for 0.05 to .0.10. With the -increase in the magnitude of the maximum ~PI drops and shifts toward smaher Gy values of b/1. The decrease of the chord sine' does not lead to a continuous increase of the no-mle efficiency. The chord size of stator blades affects the stage efficiency by reducing the norzle efficiency and the degree of peripheric reaction. There are 9 fi~;ures and 5 references. ~Abstracterls note: Complete translr%tion Card 5/5  8/096/61/000/004/003/007 E194/E255 AUTHORS: __Fedorov, M. F.1, Candidate of Technical Sciences and Gair~sha, A.'V.,, Engineer TITLE: The Influence of Guide Blade Width on the Character- istics of Turbine Stages PERIODICAL: Teploenergetika, 1%1,~No. 49 PP. 3?-41 TEXT: Diaphragms with narrow guide vanes are widely used in turbines although little work has been published to confirm their advantages. The possibility of improving the turbine efficiency by using this kind of diaphragm is generally based on considerations applicable to individual blades, usually without allowing for factors that alter the structure of the dynamics of the flow in the gap between the rims when the width of the guide vanes is reduced. Inthe Turbine Laboratory of the Khar1kov Polytechnical Institute an investigation was made of various stages having a constant ratio of mean diameter D = 475 mm to height Z of guide vanes D/4 - 19. The guide vanes were of three widths, B, and the len h to-breadth ratios were 0.305; 0.61 and 1 .22. Profile type C-1 rs_l) was used. All the guide vanes were made up with the same nominal flow area Card l/ 5  8/096/61/CIOO/004/003/007 E194/B255 The Influence of Guide Blade Width on the Characteristics of Tur- bine Stages reckoned from the dimensions of the channels bo.tween blades at the narrowest sections. Each set of guide vanes was tested with three runners of different flow area, which was achioved by altering the angle of installation of the blades and keeping their number the same. The runner blade profiles were Type T-1-25-21, the relative pitch was 0.664 and the blade height 28-5 mm. The ratio of the flow area of the runner blades to that of the nozzles for runners Nos. 1, 2 and 3 was 1.48, 1.76 and 2.04, the values being chosen tc obtain positive, mixed and negative stage reaction over the height of the blades. The tests were made on an air turbine illustrated schematically in Fig. 1. The discs contained no pressure-equaliz- ing apertures. Further details are given about the experimental conditions. Fig. 2 is a typical curve of test results of stage efficiency (allowing the discharge velocity energy to be dissipat- ed). The efficiency is plotted against the velocity ratio for runner No. 1 with three different sets of guide vanes whose length- to-breadth ratios were 1 - 1.22; 2 = 0.61; and 3 = 0.305. It is Card 215  S/096/61/000/004/003/007 E194/E255 The Influence of Guide Blade Width on the Characteristics of Tur- bine Stages seen that as the blade width is reduced the efficiency is increase4 but the amount of increaBedepends on the blade breadth and on the velocity ratio. The increase in efficiency that results from making the blades narrower also depends very much on the values of the clearance. Wheal No. 2 which has a greater ratio of -area of runner blade to that of nozzle blade. In this wheel there is zero reaction at the mean section only when the guide vanes are relatively broad. As the breadth was reduced, tho degree of reaction became negative over the whole height of the blade. With a runner of this kind it should be borne in mind that with broad and medium blades the stage works with leaks under the shrouding, and if the blade is narrow air may be drawn into the gap between the rims from the space beyond the wheel at the blade periphery. In the case of runner No. 3 the relative areas of runner blades and nozzles were such that the runner always worked with negative reaction over the blade height. In this case the efficiency with wide blades is higher than for runner No. 2 and there are indica- tions that the use of still more negative reaction would invert Card 3/5  8/096/61/000/004/003/007 E194/E255 The Influence of Guide Blade Width on the Characteristics of Tur- bine Stages the previous influence of blade width on stage efficiency. The results of the efficiency investigations show that for a stage with small positive reaction at the blade roots the nozzle blade length-to-breadth ratio should be increased to 0.6-0.8. The efficiency is thereby raised by .1.5-2% and reaches its highest value. If the reaction is mixed over the height of the blade narrower blades may be used. The test results also show that whilst on transition from wide to narrow blades the reaction at the periphery diminishes considerably, that at the blade roots alters comparatively little. Thus, the main cause of the change in reaction at the periphery is the influence of the breadth on the radial pressure gradient. There are 9 figures and 4 Soviet references. ASSOCIATION: Kharlkovskiy politekhnicheskiy institut (Kharlkov Polytechnical Institute) Card 4/5 21r~ 4'0  S/096/61/000/004/003/007 E194/E255 The Influence of Guide Blade Width on the Characteristics of Tur- bine Stages Fi g. 1 4 L - qs o~ H + ~ R 4-11 l Ops 0,40 4/15 4SO K\\ A l Nc. 2. thmemenne K. rl, JL CTYnCHH 9 33MICHMOCT970T Ule, npll pmC. r_xems npoTOq11OA qaCTN' pammux yAmmemnx msnpanAxm= itortaTOK AAX Kozeca No 1. CTynemm. 1.22; 2-0,51: J-006. Card 5/5  3/11463/000/004/002/005 A0047A127 AUTHORSt Shnee, Ya.I., Doctor of Technical Sciences, F_!_d&rov,'M.F.P Candidate of Technical Scienoea, Garkusha, A.V., EnginFer TITLE: Selecting the closed axial clearance in the bandaged turbino St("qe PF,RIODICAL: Energomashinostroyeniyo, no. 4, 1963, 18 - 22 TEXT: ~The authors prosenVa generalized analysis on the various fa(,tors to be considered in the'closed axial clearance in bandaged_turbin.e S. Wages, based on teats with an experimental air turbine at the KhPI laborat- ory and on the generalized test results of some other organizations. Nine stdges with bandaged runners with differeat guide blade extensions were tested. A del-ailed table of the main des'ign aad test data of thexriz(icapi), BIMI k'BIT11) and UKTH (TsKTI) turbine stages is given. The authors present reco=iandations on the.optimum clearance and state that, based on investig- ations carried out, it can be said that for stagen with a amall relative extension of the guide blaies it is expedient, from the efficiency of the staGes viewpoint, to chooaa minimum closed olearanceatl1sae Ue5tga s I table* Card 1/; j,  GARRED, A.V., kand. tekhn. nauki FEDOROV, M.F., kund. telft. nauk -Comparison of the officipncy of a tur~Ane stage with different methods of changing t1he upper ceiling. Teploenergetika n no.1101-34 N 164. (PIRA M12) 1. KharIkovskiy politekhnicheakiy institut.,  .-- - . - - . 1 7 - -, ~- - - um I . ~ I .. . . .. - , . " - -- 1:~-,: - T - I? I. , -st it., gb Vill 61q~f. a--- + , dk-~i-l _-_a - - --- -I-,- U w- M ~ W - i I ~ -, t"-- 2 ~,  -v--- - - - ~nF- i -- ra~gmt fillicia of --rbw r,.M;Eln - . . -  7.=.' -. -; -,a n-c 1. fl-- I , -, -.1-1 --I~ - fll!~. fl~ I ryn C. Er-I C~mz MFV . V%JV - Q r.%?V cl CAW ~. L--L~ I " ,  SOKOLOVSKIY G.A.p kand.tekhn.nauk; - k, -2. nauk I _EF-DIIPOV M.I~- 1-and.tt, I,- j _ Testing the last stage of the K--3CC--21,0 turblne davel.)ped by the S.M.Kirov Tubogenerator Factory in Iffiarkov. Teploenergetilm 12 no.5150,-62 My 165. (Y-IRA 18:5) 1. Kharlkavskiy politekhnichaskiy inatit-ut.  FEWROY 14 Go$ insh. Data for upsetting bolts with long shanks on a friction or cra,12: press. Mash,BeL no.5:47-49 158. (1419A 12:11) (Bolts and nuts) (Dien (Metalworking))  7M)ORDV,.,M,.I. (yedaran, X-I-L kand. eel I skokhozyays tvannykh nauk Wfoot of forest soil drainage onike anatomical structure and phy'sicomechanical properties of pine woods Vestel AN BSSR.Ser. biial.nav. no.4:95-101 159. (MIPA 13:4) (Wood) (Boll moisture)  FEDOROV, M. I. "Optimum Correction Conditions in Bar Roller Straightening Machines." Cand Tech Sci, Ural Polytechnic That, Sverdlovsk, 1954. (RZhMakh; Jan 55) Survey of Scientific and Technical Dissertations Defended at USM Higher Educatiotal Instiutions (12) Sos Sum. No. 556, 24 Jun 55  dotsent, kanestekhnpnauk; PALIMOV9 Ye.V., prof., doktor tekfin.niuk Cooling rolled sections with a refrigerator, Trudy Ural.politekh,,~ inst. no*10lt45-53 160. (HIRA 140) (Rolling (Metalwork)-Cooling)  PALIMOV) Ye.V., prof.,doktor tokhn.nauk; FEDOROV, M-Lf dotsent, kand.tekbn.nauk; SABUROV, A.M.p In2h. Residual stresses in rolled sections. Trudy Ural. politekh.inst. no. 78 s 74-N 160. (MIRA 14: 5) Rolling (Metalwork)) Strains and stresses) i  0 VOLIF, V.F.;,EEDORO K&Jj GRIGORIYEV, G.G.p red.; YETON., L.L.p red. ~ ~_vva;: VAKHTINA, Ye.F.p tekhn. red. [Instructions on mechanical drawing in course and diploma projects foi.studeAts of the specially "Mechanical equipment of plants ih -ferrous and nonferrous metallurgy") Rukovodstvo po vypolneniiu obertezhel kursovykh i diplomrykh proektov dlia studentov spetsiallnosti "Mekhanicheskoe oborudovanie zavodov chermoi-i-tovetnoi metallurhii." Izd.2. Pod red. G.G.Grigorleva* Sverdlovskj, Izd-vo Urallskogo politekbtd- cheskogo in-ta, 1962. 68 p, (MIRA 17:3)  VYDRIN, V.N.,., kand.takhn.nauk- BEREZIN, U.N., inz)i.,- KHIKICH, G.L.; y THETIYAKOV, A.V.; FEDOROV, M.I.; VASHCHENKO, Yu.I. "Mechaniaal~eqaipment of rolling mill.3" by A.A. Koroleva, Re- vieved by V.N. Vydrin and others. Stall 22 no.1:61-63 Ja 1~2. (MIPA 14:12) 14- Chelyabinskiy politekhn1oheskiy institut (for Vydrin, Beresin). 2. Nauchno-issledovatel'skiy konstruktorsko-takhnologicheskiy institut tyazhel9g9mashinostroyeniya Uralmiashzavoda i Urallakiy politekhaichookiy inotitut (for Khimich, Tretlyakov., Fedorov), (Rolling mills-Equipment and supplies) (Koroleva, A.AJ  FEDOROV~ M. I., kand. tekhn. nauk, dotsent; Prinimal uchasti,,-4: MAIJUIM9 A. Me. assistent Pressure on the rollers of straightening machines an' the power conmmed to str6ighten large-size shaped secti:- ..i. Trudy Ural'. politekh. inst. no.119t46-49 162. (YIDA 16: 1) (Straightening machines)  ,=84V$_ ]~. I. j kand. ~ . nauk, doteent StraightmAng of large-size shaped sections on roller straighteners.' trudy Ural'. politekb. inst. no.119:3~45 162, (MIRA 16:1) (StraighteNIng machines)  /0099/0 ACC M AP6024641 SOURCE C h761f0l /611/00i 104 AUTHOR: Kafe puz, N. L.; Fedorov, M. L 7, ORG: none .TITLE: High frequency pressure oscillations in beat transfer with dlisopropylhexane SOURCE: Inzhenerno-fizicheskiy zhurnal, v. 11, no, 1, 19G6, 99-k04 TOPIC TAGS: heat transfer, heat transfer fluid, forced flow, pressure effoct, oscillation ABSTRACT: This article gives the results of an experimental study of high-frequency pres- sure oscillations In beat transfer with diisopropylhexane under conditions of forced movement in a tube at both precritical and suporcritical pressures. Diisopropylhexane (C12H24) is an organic liquid similar to kerosene in Its thermophysical properties. Its specific gravity Is 8030 N/m3, critical pressure 1. 96 mN/n2, and critical temperature 6500K. In a special set- up (electrically heated liquid supplied by a ge!~r-and-vinlon pumpl6d piezoelectric two-beam indicator of Hungarian manufacture for measuring frequency and amplitude) were conducted the diisopropylhoxane experiments which established that transition from ordinary convective beat transfer to surface boiling (at p pcr) is accompanied by L.~ard UDC: 536,244 J,  high-frequency oscillations of pressure. It Is shown that oscillation amplit.ude Increases with heat flux. It is assumed that shook waves forming during attenuation (condensation) of vapor or gas bubbles cause the pressure oscillations. It is concluded that the hirb-frequency pres- sure oscillations which occur may be harmful both to strength and operational stabiRty of beat exchange equipment. Orig. art, hut 1 formula and 2 figures., SUB CODE: 20/MM DAM 28Nov66/ O1UG REP: 003/ OTH REF3 002 Card 2/2  FEDOROV, M. I. "The Question of the Direct Cause of Death Due to Ranging.' Cani Med, Sci, Central Ins't for the Advanced Training of Physicians, Min Health USSR, Moscow, 1954. (KL, No 1, Jan 55) Survey of Scientific and Technical Dissertations Defended at USSR Higher Educational Institutions (12) SO: Sum. No. 556, 24 Jun 55  USSR / Pharmacology. :~TOIXI00109Y- ,Abe Jour : Ref, Zhur..-Biologiyaj No,3) 1959.. 14086 Author : Fedorov, M.I.; Talantov, V.Y. Inst Title ,A Case of,P.hotodeveloper Poisoning. Orig Pub :Kazansk. med. zh., 1957, No. 2-3., 112-114 Abstract :A case of developer (metol;I) poisoning is des- cribed which confirms that I is a heraolytic, mothomoglobin-forming poison which induces a number of clinical and pathomorphologic diseases nauser- vomiting he-dcche, oyanosis, increased ftood viscosity, iouc~oy"tosis, jaundice, blood coagulation In the vos6cle, chanGe8 of orythro- oyte pigmentation, hemolysis of blood in the vessels and hemorrhages)* According to its ohem- ical structure, I is similar to aniline dyes; Gard 1/2  YMMOV, M.I., (Z"an') - Noblem of the cause of death in mechanical asphyxia (strangulation). Pataisiol; L eksp;terap; 2 no*'4&4" JI-Ag 158 (XIRA 3-1:22) 1; Is kafedry normaluoy fiviologii lasnaskogo seditsinakogo instituta (save chlon-korrespondent AMR SSSR A.Ts' 11byakov); (STWGUIATICN, cause of death in cats (Rue))  FEDOROVi M.I.,, kand.med.nauk (Yazan') ---------- - Diagnostic significance of perivasoular hemorrhages in the fundus of the fourth ventricle forthe diagnosis of asphyetio deatho Kaze made shur, no,608-59 H-D 160. - -- (KEM 13:12) (BRAIN-HEKORRHAGE) (A�PHYXIA),  Fa-ORDV9 M.I. (Kazan') Sudden death from acute hemorrhagic pancroonearcoia following intoxication6 Kaz. m~d, shur. no. 21l.07-108 Mr-Ap '61. (MIRA 14:4) (PANMWS-DISSASES) (ALCOHOLISM) (DEATH-CAUSES)  FEDCROV, M.I.., karid.mad.nauk (&man') Sudden death in trachaotomized patients. Kaz. med. zhur. no.1:75-76 Ja-F .162.. (KIRA 15:3) (TRiCHFA-SURGERY) (DEATH-CAUSES)  FEDOROV, M.I., kand.mod.nauk Sequelae of a near drowning. Xaz.med.zhur. no.3:43-47 MY-Je 162. (MIRA 15:9) .1. Kafedra psikhiatrii (zav. -,prof. M.P.Andreyev) Kazanskogo meditsinskogo instituta. (DROWNING, RESTORATION FRQM)  a-'7. i 14-0 AUTHORs TITLEs PERIODICALt 44829 /001/001. '046/63/063/001. 4B1 441IB1 86 Pedorov, M. Clinical and morphological charactuTiatics of acute anoxaemia Zhurnal nevropatologii i paikhiatrii, v. 63, no.-1, 1963, 19-26 7. TEXTs The changes brought about in the nervous system by strangulation and 10 published cases. The main symptoms were studied in.4 own in indi- viduale surviving asphyxia,(aome hours to 20 days) were unconsciousness,,,'! tonic and clonic spasms, decerebration rigidity, rigidity of the muscles'~ of limbs and occiput, increased muscular tone, hy-perkinesis, periodic contrac- .tion and dilatation of the-pupil, and hypeihidrosis. The time of survival had a marked effect on the morphological'ohanges in the brain, which were,,: the more severe the longer the person survived strangulation. Owing to disturbances of the circulation and-to the acute anoxia during the strangu-, lation, irreversible ischemic necroses were observedt mainly in the cerebral cortex, which explains that most patients did not regain consciousness. The iubcortical formations and the cerebellum were less affectedl the stem, Card 1/2  63/063/001/001/001 Clinical and morphological B186 B144/ resistant the pons Varoli and the myeledbephalon proved the most parts. This-is consistent with the 61inical observation that restoration of the respiratory and cardiovasculif functions did not save the patient's life,.. if the unconsciousness lastedlonger than I day. Often death was due to, complications which could not be controlled beca~oei of the damaged function,.~, of the cortex. The motor dietttrbances result from the failing inhibition'-i of subcortical centers, diencephalon and mesencephalop, by the cerebral cortex.: There are 7 figures. ASSOCIATIONs Kafedra nervnykh bolezney (zav. prof. L. I. Omorokov') Kazanskogo meditsinskogo instituta (Department of Nervous Diseases*(Head Prof. L. 1. Omorokov) of the Kazan' Medical' Institute)' SUBMITTEDs September 22, 1961 Card 2/2  FEEDORCV, M. 1. Period of the development and duration of the healing of the rope imprints in persons revived after hanging. Nauch. trudv Kaz. r,as. med. inst. 14:307-308 164. Determination of the duration of strangulation according to the clinical picture. Ibid.:309-310 (MIRA 18:9) 1. Kafedra sudebnoy meditsiny (zav. - dotsent M.I.Fedorov) Kazanskogo meditsinskogo instituta.  nDDWV, K.K. , inzhen6r. Concrete heater with,device for heating imflowing air..Rate. i izebr. predl. v strei. no.124:18-20 155. (MM 9:7) (Wiant heating)  LIBER. I.$.; FOCROV, N.K.; MRAYSTO N.A., inshener, nauchnyy redaktor; KARPOV, V.V., radAttor lzdatelletya; PULIKIKA, Te.A., takhniehaskiy redaktor [Concrete sanitary engineering blocks and heating installations] Betonnya sanitarno-takhnichookie bloki i nagravatellays pribory. Leningrad. Goa. izd-vo po stroit. L arkhitakture. 1956. 65 p. (Concrete blocks) (MMA 9:10) (Heating)  Fmdorov, M. K., Antonov, V. S., Doronina, 11. A., Gidrologiya rek Sovetskoy Arktiki. (Hydrology of the rivers of the Soviet Arctic), Leningrad Morsk. Transport TbFaR-ne Transport), 1956, 96 pages OZhGeofiz 11/57-9884 K) (Book)  %loration of river estuaries in northern Siberia. Probl. Arkt. i.Antarkt. no. 4:38-51 l6o. (MMA 13:12) (Siberia--Estuaries)  a KLYUYZVA,, M.L.; )aSHCH19NKOt X.P*; Solubility of pioric acid in mathyl aloohol in the temarat-irs ranp frm 50 to.501. Trudy LTI no*61t47-51 f6o. (Km 150) I (Florio acid) (Solubility)  5.31100 77664 SOV/80-33-2-59/52 AUTHORS: Klyuyevaj M. L.) Misffichenko, K. P., Fectorov, M. K. TITLE: BrieV Communications. Vapor Preasure of Methanol From 5 to 500 PERIODICAL: Zhurnal prikladnoy khimll, 1960, Vol 33, Nr 2, pp 473-475 (USSR) ABSTRACT: Vapor prensure of purified methanol was carefully measured. The water content in methanol was not over, 0.1% (Fisher). There are 2 tablesi and 11 references, 4 Soviet, 4 German, 2 U.S., I U.K. The U.S. and U.K.! references are: G. W. Thoinson, Chem. Rev., 38) 1 (1946)j W. 11amsay, S. Yoting, Phil. Trans, 0. F. Tower, and A. F. Germann, (A), 178, 313 (1887) ~ J. Am. Chem. Soc., 3 , 2449 (1914) SUBMITTED; July 2, 11959 Card 1/2  Brief CommunicationG. Vapor Presoure of MethanolFrom 5 to 50 0 Card 2/2 77664 SOV/80-33-2-39/-52 Table 1. Key to Table 1; (a) temperature (in 0 C); b) pressure P (in nun); (c) test series nimber; ~d') average for two Beriesj (e) calculated; (f) P calculated--P found (in mm);(g)= " P (in P f oun b CL C P .. - . r r zr e- 11.9 62.07 02.28 62-2 61.97 -0.23 14.69 72.63 72.57 72.6 72.57 -0.03 17.72 85.67 85.96 S5.8 85.84 +0.04 22.06 107.80 108,32 108A 10&40 -1-0.30 24.93 12.5. 9 t 126.75 126.3 MAX) -0.30 '10.45 toi.45 165.22 164.8 164.20 -O.CA) 34.59 203.50 204.55 204.0 21Y.J.90 --0.10 37.60 2:33.70 236.04 234.9 .1().50 : 9.76 1 258.73 -16011,48 259.6 ~ Ok-0 " 2.69 ~ 297.M 298-n9 297.9 297.70 - 0. L ~, 45.39 :137.:P) 337.53 :137.4 1390) -1.40 $8.53 " 386.00 387.37 386.7 .385.1K) -0.811 ).21 ~ 412.32 414.28 113-:1 4150) - I t.70 -0.37 -0.04 +(),()5 -+0.,-.9 --0.24 -0.36 -0.0S '. o.21 1 ON 0'.07 i ().A I  MISHCHRIKOO LP.; FEDOROV, M.N. Activities of the solvent in methanol solutions of ploric acid in the temperature range.froM 50 to 500, Zhur,prikl, kbim. 34 no.8:1889-1891 Ag 161. (MIU 34: 8) acid) -.(Methanol)  C i- ~ FEDOROV. M.K. The technique of short-range water Iml forecasting at the mouUn of the ludigirkm an& No3im aiywse Tru4 AAaI 213tnz-163 161. (Indigirka River Estuary-Aydrology) (MM 14:6) (Kolyma River Estuary-lydrology)  HISMIMIKOp K.P.; FMOROV, M.K* 0--~- ---, - Structure of piorio acid solutions in methan 1, Zhur.strukt.khim, 3 no,,2:15-20 Ja-F 062. OOM 25:3) 1. Leningradakiy tekbnologicheakiy institut imeni Lensoveta. (Picr1c acid) (methanol)  FEDOROV,,.MSx*__.. Effect of the exploitation of power on t~a Yenisey on the level of its lower reaches, Probl, Arkt, i Antarkt. no.12tl3l-133 163. (HIRA 160) (Tenisey River--Hydrology)  DIBROVp I.A.; MASHOVETS., V.P.; FBDOROVj K. Method of measuring the saturated vapor.pressure and density of aqueous a lutione at temperatures up to 3500C and pressures up to 200 kg CmI. Zhur.prikl.khim. 36 no.6sl250-1253 Js 163. (MIRA 160) 1. Laningradakiy takhnologicheskiy institut imeni. Lensoveta. (Solution (Chemistry)) (Vapor pressure)  MMOV,9,M,, gorWy inshener, alaktromekhanik " Principles of mine hoisting machinery controls Ugoll 30 no.9: 25-30 B'55. (MLPA 8:12) 1. Trost StRlinshRkhtostroymontash (mine hoisting)  DOR ylovich.,-, ILI ICHRY. A.S. radoktor (deceased); KffOK1=Y1UjF'~-jL*1*-&W1fflMidst takhnichaskikh nauk. radaktor; KUCMOV..P.St, rodaktari 2ZDOMA, Z.K.., kandidat takhalchask%kh nauk, rsdaktor;.KDKH2WO,A.1., doktor tekhnicheskikh nauk, redaktor: IRYZHANOVS]CIT. O.K.,kandidattekhnicheskikh usuk# redaktor SATIN. G.N., akadsolk, otyetstvanVy redektor; ZILIBAN, X.3.0 reds kto.z.. Indatell stva t RAKkL11A, M.P., takhnicheskty redaktor [Selected works in two volumes) lxbranve trudy; v dvukh tomakh. Xiev. Ixd-vo Akedo nauk USSR. Vol.l. 1937. 274 p. MRA io:6) 1. Akadeziya muk USSR (for Sevin), 2*Clen -korreopondent Akadamii nauk SSSR (for Ill-tchev). .3. Chlen-korrespondent-Akadenii nauk.USSR (for lucherov) (mine hoistIng)  YEMOT, R-M-,inzh. Adjusting hoisting machine speed-limiting devices, Shakhts stroi, noo4t2l-26 'Ap 159o (MIRA 12:5) (Hoisting machinery--Brakes)  Mikhail Mikhaylovich; KROMITSVICH, X*I.# kand.takhn.nauk# rsd.toma:-X1UJJ1VR(W, P.S., red.; KUKHTINK0. A.I., doktor tekhn. neukb red.; FMROVAP Z.K., kand#tekhn.nauk, red.; KRT2HA- HOVSKITj O.M., kandat0khn-UaUkv red.; ZILIBAN# H.S., red,1zd-va; MATYETCHUK, A.A., tekhn.reds (Selected works in two volumes] Isbrannye trudy v drukh tomkh. liev, Izd-vo, Akad.nsuk USSR, Vol.2. 196o. 462 p. (MIRA 13:7) 1. Daystvitellnyy chlen AN USSR (for Fedorov)# 2. Chlen- korrespondent AN USSR (for Ilucherov). (Mining machinery)  "WROV, M.M., gornyy insh.; VASIMSM. MJ.. kandotekhn.nauk; TRAMM, ~.., ~-nzh. Automatic control of hoisting machines vith asynchronous drive, Gor. zhur, no&22:38-43 D 160*'~ (YMA 13:12 ) 1. Giproniselektroshakht, Stalino (for Vasilev:kiyo Traube). (Hoisting machinery-Xectric driv a) (Automatic dontrol)  BELTY, V.D., prof.; IrEMOV, M.N., In2h. ------- Affect of the shoe material on the brhking system design. Isy. uchebe save; gore shur. no.12:129-134 160, (KIRA 14:1) 1. Donetskiy ordena-Trudovogo Krasnogo Znameni politekhnicheakiy institut imeni N.S. Khrushcheva. Rekomendovana kafedroy soprotiv- leniya materialov DDuetekogo politekhnicheskogo instituta. (HDisting mehinery-Brakes) (Mine hoisting)  JZDOROTj M.K.p insh*; KIPTILTr, A~AO, inshe ......I AdJustivg Rutomatio skip hoisting equipment. Shakht.stroi, 4 no.9sl2-14 8 160, (XM 1318) 1. Donetskaye kontrollao-m^ladochnoys otdoloniye. (Mine hoisting) (Automatic control,  IZBF.DINSKIY., MUchail Aleksandrovichl.FMROVy M.M.9 red.; YERTJTIN.. Mop red.1 VORONINj K.P., tekbn. red, (Toobnology of the production of e4ectronic vacuum devices] Tekbno- logiia slaktroyakumnogo proizvodotva. Pod red, H.M.Fedorova,, Mo- skyap Goo. energ. izd-,Yo. Pt. 1. 1961. 479 p. (nU 1010) (Electronic apparatus wA appliances)  M FEDOROV, M.M. ----------- Using dynamic breaking in the automation of hoisting systems. Ugoll Ukr. 5 no.llil8-22 V t61. (MIRA 14:11) (Mine hoisting) (Automation)  Y, lo ighmi i mi-khUlovioh. Prinimal uchastiye HAKSIMDV, L. T. I . inzh.; DIYAKOVA, G.B..'red.izd-va; OVSICYENKO, V.G.,, takht. red.; SHKLYAR, S.Ya., tekhn. red. (Adjusting hoists during installationNaladka. montiruemykh pod"emnykh mashin. Moskva, Goagortakhizdat 1963. 343 P. WRA 16:4) 'Nine hoisting)  PMXROV, Phys-Lath Sci- (dir~~) "Study of smoke pollution of 4-;70- -~),L tho air nid itn Offoot clu'.11rce. ilitridi,,.tion ~nd licht rv-imaS of an induntrial city(Zaporozhlye)." Dnc-pron--trovp:~. lQ53'. 15 the Mic,propetrovsk.. stato U%4v im 300th Anniverccry of lul 906&A Of/Ukrldno wawqd Russia) , 120 conien (IM,43-58-114)  Effect of smoke on light conditions in cities [with su- In Bnglish] Gig* I nano 23 no;8114-18 Ag 158 (KIU 1119) U Is Kafedrjr fisW Saporoshokogo podagogichookogo Instituta; (among off* on light in cities (Bus))  AUTHOR: Fedorov, M. M. 20-118-4-18/61 TITLE: The Distribution of Dust and Smoke Particles According to Their Size in a Modern Industrial Town (0 raspredelenii po razmeram chastits pyli i dyma v vozdukhe industriallnogo goroda) PERIODICAL: Doklady Akademii Nauk SSSRj 1958, Val. 118, Nr 4t pp. 691-693 (USSR) ABSTRACT: From 1951 the author investigated the dust and smoke content of the atmosphere in the twon of Zaporozhlye. The final conclusions on the size distribution of the particles cah be drawn on the basis of the conducted measurements of the concentration of the particles suspended in air. These measurements were conducted with an Ovens counter for the precipitation of dust. The particles precipitated into a cylinder were counted in a microscope and classified into four groups according to their diameter.: Small particles with a diameter of less than 5P, medium-sized particles with 5 - 10 ji and with lo - 2oV, and large particles with a dia- Card 113 meter exceeding 2op. The number of particles in each group  The Dietribution of Dust and Smoke Particles According to 20-118-4-18/61 Their Size in a Modern Industrial-Town was counted in the measurements. The present communication employs the results of measurements in the new parts of the town at a distance of 3 km from the main sources of industrial amoke production. The samples were taken at a height of 3, 13 ,and 26 m above the ground. The formulae for the elaboration of the experimental results are given and discussed. The results of the elaboration of the observations are illustrated by a table and by a diagram. According to them, the distribution of the particles to the dimensions is logarithmically normal even in an heterogenous aerosol - in the lower atmospheric strata of an industrial town. The data obtained here permit the computation, of the mean geometrical radius r. of the particles for every levelo and of the mean quadratic devAation of the logarithm of the radii. The computations furnish the values 396; 394 and 3,0v for r at the heights of 3; 13 and 26 m above the ground. The degrease of r with increasing height speaks in favour of a reduction of fhe number of big particles in the higher strata of the atmosphere and also furnishes a quantitative characteristics of this reduction. The data obtained here are also well approximated Card 2/3 by ~he normal logarithmic distribution law. There are 1 1  FEDOROVO M,M, (Zaporozhlyo) Appa-r-atus for measuring the size of dust particles. Fiz.v shkole 22 no.6s49-50 N-D 162o (KMA 16:2) (Measuring inalruthents) (Dust)  SYVOROTKIN, G.S.; DMITPJMA, Ye.A.; FEDOROVp M.M. Use of fertilizers for nuraery-grown woody plants. Trudy TSNT-1 MPS no.204sl5l-153 160. (MM 14t4) (Treea-Fertilizert and manures)  OBLIVALIM, F,A.; LUSHIN, L,A,j.51DOROV, Replacing the floor under the central p&rt of the treatment channel. Stek,i ker, IS 1 W.8:37 Ag 161. (KMA 14:8) (Glass furnaces).  FEDOROVO M.N.; IAGERT, I.K. Use of cysteine in differentiating the bactericidal and bacterio-* ' static effects of mercury preparations. Zhur.mikrobiol., epid.i immun. 33 no.8:49-51 Ag 162. (MMA 15 110) 1. Iz Leningradekogo nauchno-issledovatellskogo instituta, anti- biotikov. (MMCURY COMPOUNDS) (CYSTEINE)  Y~-M,J.j SPRERANSKAYAj V. N., SIYANITSKIYj F. M., SHUSTROV, A. K.; FEDORO --AL14;~ii~DROV, P. Ho) KLEVANXIN, Vo 'N., BORISKIN, M. H.t LILIF, G. M., ZILIBERNINTSl I. V.0 GUDNEVAj 0. A., POPOV, S. C., DENISFIIKOI V. X., KOROVIN, F. T., GUTSEVICH, A. V.,,FEREFILTYEV, P. P. and POGODINA, E. A. "The Effectiveness of a Chemical Method for Combatting Arthropods over Large Areas from Airplanes." Tenth Conference on Parasitological Problems and Diseases with Natural Reservoirs, 22-29 October 1959, Vol. II, Publishing House of Academy of Sciences, USSR, Moscow-Leningrads 1959* (Leningrad - Moscow)  nDCROV, M.N. Imborstory fasts on the simultaneous extermination of rodents and their ootoparosites [vith summary in Znglish), Kad,peras.1 parez. bol. 26 no.1:40-42 J*-P '57- (MIaA 10:6) (RODBNS simultaneous off. of DDT on rodents & their otopernattem) (W~ off on rodents & their ectoparesites, simultaneous extermination)  FEDOROV, M.N. Block Uning of the furnaces and brickwork of heating boilers made of heat-resistant concrete and reinforced concrete. Sbor. trud. MIST no.'AW7-33 363. (MIRA 17i10)  1. MOROT, ~20 SSSR (600) 4, Gates 7, Selecting construction types for gateg uwWr & heavy lead. Mr. strol. 21 No. 10, 1952 9. M nthly List. of Russian Accessions, Library of Congress, jebrua'" 1953. Unclas3ified.  t Operating welded. double-wing sluice gates. Kor.i rech.flot 13 20-1:23-24 )1y '53. WRA 6:10) (Looks (Hydraulic engineering))  FEEDOROV, M.N., inzh.; ALTS'"'WI&II, B.A., kmnd.tokhn.nauk Fire-raoistant r6inforcod conci,ete block facing for beating boilarr,. Gor. khoz. Mosk. 35 no.2s44-45 P 161. CUAA 14:2) 1. Nauchno-issledovatol'ski-Y institut santeldmiki Akader-ii stroitelstva i arkhitektury (for Fedorov). 2. Nauehno-is3ledematel'ski:r institut betona i zhelezobatona Akademii ctroitel'stvvt i (for Alltqhuler).  ADAMOVICH,, P.V.; BATURIN, V.V.; VAMAKIIOV, G.G.; VAYNUUZ, L.G.; VnMSKI19 YeJaq GMRG~ Palusl DAVYDOVt Tu,3,; LWIS, YeJe.) KU2MTSOVA. Z.I.; KOPtYEV, S.F.; LIVCHH, I.F.; LOBACHEVI P.V.1 INVO G.M.; NCTXIN,, Ye.M.; PIRUMOVp A.I.; POLIKA,RPOV,, V.P.'j-PROTOPOPOV,, A.P.j REPINp N.N.; SLADKOV., .S.P.) TALIYEV9 V.N.; TROITSKAYA,, F.B.; FEDOROV9 M.N.; SHEVEIZV,, F.A.; SHKABELINIKOVA,, L.P.; Hftwu P -1. 1.; - SKIRNOVp LoI*j inshop nauchrq7 redo; 9MOVA, A.Pe, red* izd-va; MOCHALINAq Z.S.,, tekbn. red.; RODINOVA, V.R.., tekhn. -red. (Present level and prospects for the development of sanitary engineering and the production of sanitary engineering equip~- ment] Sovremenryi uroven' i perepektivy razvitiia sanitarnoi teklmiki i proizvodstva sanitarno-tekhnichookogo oborudova- niia. Moskva, Goostroiizdat, 1962. 283 p. (MIRA 15:8) 1. Akademiya stroitelletva i arkhitektury SSSR. Institut sanitarnoy tekhnild, (SANITAHY ENGDWMBG)  DZHAMALOVp O.B., doktor ekon. nauk, GUSEV., Yuriy Livavich, dots.,, -lawdo takhn, nauki KOFIYEV, Bergey Yedotovich, prof,O doktor tekhn. nauk; AIEKSANDRDVICH, Yu. B. , retsenzent; JjDjMj,_HN..,, starshiy insh.,, retsenzent; OSENKO, L.M., red. Izd-va; RODIONOVA, red. (Boiler systems and thermal networks]Kotellnys ustanovki i top- lovye seti. Moskva,, Goestroiizdat, 1962. 310 p. (MIRA 16:1) 1. Gosudarstvennyy komitat Soveta, Rinistrov WgR po delam stroitalletva (for Alsksandrovioh). 2. Nauchno-iseledovatell- skiy Institut sanitarnoy tekhniki Akadsmii stroitel'stva i ar- khitektury SSSR (for Fedorov). (Boilers) (Heati,ng from central stations)  OLESOVA, T.5h., inzli.; EAKSITA, T.N.,p ipzh. , red.; _n~01110V, M.P., kand. tekhn. nauk., red. "------ (Collection of Soviet and foreign inventions; welding] Sbornik otechestvennykh i inostranxVkh izobretenii; sva- rochnaia tekhnika. Moskva, TSentr. nauctno-issl. in-t patentnoi informatsil i telhniko-ekon. issledovaniJ (FIRA is:') :L964. lo6 P. 3 1. Russia (1923- U.S.S.R.) Komitot po delam izobreteniy i otkrytiy.  FEDOROV9 M.N., lnzh. Installation of the hydraulic equipment of the basic structures of the Kremenchug power system. Energ.stroi, no.23 :71-78 161. (MM 15:1) 1. Nachal'nik uchastka tresta "Gidromontazh". (Kremenchug Hydroelectric.Power Station-Aydraulic equipment)  AGALINA, H.S., insh.; AKUTIH, T.K., in2h.-, APRNSOV, A.M., inzh.: ARISTOV, B.S., kand.iekhn. nauk,; BELOSTOTSKIT, O.B., inzh.; BMMIN, A.To,,inzh.; BISSKIY, X.A., insh.; BLTUM, A.M*q lnzh.; BRAUN, I.Y., inzh.; BRODSKIY, I.A., inzh.; BURAKAS A.I.,inzh.; VATHMAN, I.Z., inzh.; VARSHAVSKIT, I.Y.,inzh.; VASIL'Ylgh, A.A.,inzh.; VORONIN, S.A..inzh.,; VOYTSMOVSKIT, LjK., lnzh.; VHUBLEVSKIT, A.A.,insh.; GHRSHKANt SaGe, inzh,; GOLUBYATNIKOV. G.A.,insh.; OOHLIN, M.Th., inyh.-, GRAKKATIKOV. A.N., inzh.; DASHEVSKIY, A.P.,inzh.;DIDKOYSKIY. I.L.. inzh.; DOBROVOLISKIT. R.L.,inih.; DROZDOV. P.P.,kand. takhn. muk.; KOZLOVSKIY,A.A.,insh.; KIRILENKO, Y.G.,Inzh.; KOPBLYANSKIT, G.D.,kand. takha. nauk,; KORETSKIY, H.M.,inzh.; KUKHAROMM, I.N,,inzh.; XUCHER, X.G.,Inzh.-. MMZITAK, M.T..inzh.; MIRONOV, V.V.,Lnsh.; NOVITSKIY. G.V..inzh.; PADUN, N.M..inzh.; PAMATIYZV, N.B.. Insh.; PARKHOKINK0. Y.I.,Icand. biol. nauk,; PINSKIT. Ya,A,,Lnzh,; P011OXYT, S.A., insh.; PORAZHEMO, Y.F.,inzh.; PUZANOV, I.G..inzh.; MIN. I.P.insih.: NMIK. I.S.,kand. tekhn. nauk,; HOGOVSKIT, L.V,,inzh.;'RUMNRMAN. A.G.,in2h.; RIBALISKIT. V.L.insh.; SADOVNIKOV. I.S..insh.; PVERITANOV. N.N.,kand. takhn. nauk,; SWSHKO, A.T..inzh.; SINKINO A*lh.. inzh.-. SURDUTOVICH. I.N.,iazh.; TROPIKOV, V.I.,inzh.: FXM, K.M..in2h.; FIALKOVSKIT. A.M..in2h.; FRISHKAN, H.S., inzh.; CHMSHNEV, V.A., insh.; SHESTOV, B.S.0 inzh.; SHIFMAX, H.I., insh.; SMMYATSKIY, A.F.,Inzh.; SHCHERRA OV, V.I..inzh.. STANCHENKO, I.I., oty. red.; LISHIN, G.L.,inshi,red.: XRAVTSOV*TeP,j. insh.,rad.; GRIGOROYST, G.V.,rad.; XMINSKIY, D.N.,red.; KRASOVSKIY. I.P..red.;.LETTKAH. L.Z., rad.Edacaasedj.; GUREVICH. U.S..insh..red.; DANLUTSKIT, AsS.1insh.,red.; DEMIN, A.M., inch.,red.; XAGAIIOY# B.I.,inzh.,red.; KAUFMAN, B.N., kand. takhn. npuk, red:.LISTOPADOT, N.P.,Wh.,red.; KENDILEVICH, I.R., inzh. red.(decessedj; Icuntivued on next card)  AGALINA, (continued) Card 2, pjM2KOVSKIT, J.I.,fAzh.,rqd.; ROZZRBZRG, B.M.,insh.,red.; SAM, D.S. inxh. red ..insh. red ; TSUBAL. A.T.,insh.,red,; SHMOV, M.0 ~.-dZ.4.4--2!'V.&-.;"PROZOROikKLYOA, T.L., takhn. red. EKiuing ; an encyclopedic handicok] Gornoo delo; entalklopedichookii spravochnik. Moskva, Gen. nauchno-takhn. isd-vo lit-ry p* UgollnbP promyshl. Val. MOrganization of planning; Construction of surface buildings and strucItureel Organizatsila preektireveniia; Stroitalletya sdanii i soorushanii na peverkhnesti, shakht. 1958. 497 P. (HIRA 11:12) (Kining engineering) (Building)  SOV/86-58-9-39/42 AUTHOR: Fedorov, M. R. TITLE: Float Gyroscopes (Poplavkovyye giroskopy) PERIODICAL: Vestnik vozdushnogo flota, 1958, Nr 9, pp 89-91 (USSR) ABSTRACT: This is a critical review of the book "Float Gyro- scopes and Their Use (Poplavkovyye giroskopy i ikh primeneniye), by G. A. Slomyanskiy, and Yu. N. Pryadilov, State Publishing House of the Defense Industry, Moscow, 1958, 244 pages. Card 1/1  VCDOPIYANOV) I.L.p insh.; VOLCHEK, V.I.p ins Wj H.T.,, insh. k. I JW Reliability or jaw-type crushing machines. Stroi, i dor. mash, 10 no.10,30-31 0 165. (MMk 18 110)  AP0032476 SOURCE COVE: UR/0056/66/051/003/0795/0803 AUTHOR:-Fedoroy, M. V. ORG: Physics Institute im, P, N.'Lebedev Academy of Sciences SSSR (Fizicheskiy institut Akademil nauk 6 TITLE: Stimulated bremostrahlu I ffect In the relativistic*'region SOURCE: Zhurnal eksperimentallnoy I teoreticheskoy (Wki, v. 51, no. 3, 1966, 795-803 TOPIC TAGS: bremastrahbing, relativistic electron, stimulated emission, photon, stimulated bremostrahlung effect ABSTRACT: The stimulated bremostrahlung effect on relativistic electrons is considered. An expression for. the cross section for stimulated emission from a photon Is derived for the case of scattering on isolated tons. Its asymptotic' form for high energies is derived. The case of electron scattering in a crystal is considered. The conditions for negative absorption are derived. Numerical estimates are presented. It to demonstrated that, W principle, aq electro- magnetic wave amplification factor a r%j 3102 cm-1 can be obtained for narrow ird 112  AP6032476 beams of ultrafast electrons (60 04% 11"o > 4 00 xs 0) scattered in a crystal. The ai athor expresses his sincere gratitude'to F. V. Bunkin for suggesting the problem and for discussions. Orig. art. has: IF-formulas. [Author's abstract] SUB CODE: 20/: SUBM DATE: MdcSSJ~. -,t)RIG REF-. 002/,' OTH REF: 004/ f V 2121yo, =-77  7-73MOV, N.V., inzhener. Ringing signal for damage in 35 kv substations not having an attendant. 31ok.sta. 28 no-9:92-93 S 157. (MIRA 10:11) (Blectrio substations)  ZHURAVLV, A.M., arkhitektor; PXMOV, M.V., kancl.arkhitaktury Housing development and the new way of life. Nauka i shisn' 27 no.9:19-22 3 1609 (MMA 13:9) (City planning)  FEDOROV, M.V. DECEAMD 1S62/5 C, 10,61 SEE ILD  KIRSANOV, I.T.; OGORODOV, N.V.;. FEDOROV, M-V.; CHIRKOV, A.M. Stute of the &ir-Askiy Volcano in 1960-1961 and the products of its eruption. Blul.vulk.3ta. no-35:9-21 164. (MIRA 17:10)  IVANOV, B.V.; FE ~ROV,M.V. 4 - -- "Qiii~, Eruption of the Karymskiy Volcano In 1962. Biul. vulk. sta. no.360-16 064. (MIRA 17:9) , 1. . - ~. -- ,,, 7  ZUBIN, M.I.; FEDOROV9 M.V.; GHIRKOVP A.M.; SHTEYNBERG, Go-'@ - ___- Crater of the Avacha Volcano and its status in the su er of 1961, Biul. vulk. eta. no-36s24-36 164. (KIRA 170)  FFDOROV, H.V,.; WINA, TA. Utiligation of humic acid by eoil actinolveetes as tile sole source of car~nn and nitrogen. Mik~obiologiia,32 lo.2:2W- 276. Mr-Ap 163,,. (KRA 17:9) 1. Moikovskaya sel'skokhozyaystvennaya akadamiya imeni K.A. Timiryazeva i InatAtut mikrobiolo'gii.AN SSSR.