L 36504-65 1 ACCESSION HR' AP5003985 _hW a *It"f ="raln IM.&VL& Er v t-ul On-th hull ax I t. Lenin-ad "Kil!"-ary-Melic-al Lanin ccrda.- FNGL SUB CODE: PH, DF NR RLT SOV: 000 OTM., 005 Card 212  Y~W, HO v ) V. A. Transrn!galon tirse of a proprioceptivP Impulse to the cert-=al wrtex in ran. Fizlcl.zhur. 51 no.4:420-423 Ap 1~5. (MJRA 28%6) 1. Voyenno-meditsinqkAya akedemiya imeni Kirovap Leningrad.  L 11378-67 WD(1) SCTB DD/GD ACC NRi AT60~650i SOURCE CODEs UR/0000/66/000/000/0070/0071 AUTHOR: Bondarov, Ze V.; Gurvich, G. -L; QEbwaaarova- To To Yagoray, Vo ALL_ 9_0 Jfarlshchuk, V*,L,; Rasevol V hkurdoda, Ve A* ORGt nona TITLE: Problem of the -functional Interaction of analyzers (visual# audito;:!y, and tactile) In flight crWa during long flights SOURCE: Konferentalys po problemam kosmicheskoy meditsinyp 1966o Problemy', Rosmicheakoy moditsinys (Problems of space medicine); materialy konferentr'll, Moscowt 1966, 70-71 70PIC TAGSt visual analyzerp auditory analyzerp proprioceptionp human physJoloSylp space physiology ABSTRACTt The input capacities of visual, auditory, and tactile *.analyzers were .investigated in 24 crew members during nine long flights. Tests were conducted on a special apparatus which supplied light, sound and tactile stimuli in random order, to which the subject responded by pressing the appropriate button as quickly as possible. The following. :indices of analyzer function were used: time of a simple motor re- I 1 /3  L L 11378-67 A ACC NRt AT6036 1%2 action, time of a reaction with choice, number of errors, amouni of Information processed, Input (or traffic) capacity,. and lime required 'for processing one unit of information. It was found that the input capacity of the visual analyzer increased gradually in the first 9 hrs of flight, and then decreased by the 15th hr. ilowever, the input capacity t of the auditory analyzer decreased regularly during th6 entire flight. The input capacity of the tactile analyzer increased (with some varia- tions) until the 12th hr,. and then decreased to initial ldvels.... The gradual increase in input capacities observed in visual and 'tactile analyzers in the first 9-12 hra of flight is probably due to .pdaptation of the organism to new conditions, With increased analyzer lability. The subsequ3nt decrease in input capacity is caused by -fatigue, first noticed in crew commanders. The high noise level in the aircraft contributed strongly to the decrease in auditory analyzer input capacity. Characteristically, the greatest shifts in auditory function were observed in commanders and radio operators, who are responsible for external and internal radiocommunications. The visual analyzer is kept in a continual state of stress by the necessity* for constant monitoring of many instruments. In the auditory 'analy. ~pr inhibitory Processew are develo ed in the cortex due'to .-P Card 2/3  ACC NRo AT6036502 ~negativo induction. The tactile analyzer showed signs of fatigue later than the other two, which suggests expanded use of this analyzer to,. pr,n,-,-ss necessar information during long fl4ghts, NeAe Noe 22; ATD Report SUB CODE 1 06 SuBH IDATcl 0OHay66 Card 3/3 egk P OF V or E:  ,no-ROVY _V-11- I Evening errors according to the results of astronomical lorgit;ude determinations at first-order points. Trudy MUIGAIK no-45:133"-136 1610 (MIRA 14:7) 1. Moskovokiy institut inzhenercrr ipodeziip aerofotos"yenki I kartografii, geodezicheskiy fakulltat. (Astronomy, Spherical and practical) W ~"T-5 MUNKI I  FMIIN, G.M.; KHROMOV, P.I.; RYABCHIKOVA, O.A.'. REVZIIIA, F.S4 XEGOROV, V.D. 0 Now wire rope.construction for skip hoisters on blast furnaces of the Magnitogorsk Metallurgical Combine. MetaLlurg 6 no.10:31-33 0 161. (MIRA 14:9) 1. Magnitogorskiy 1,Alibrovochnyy zavod i Nauchno-issledovatell- okly institut motiznoy promysholnnosti. (Magnitogorsk-Blast furnaces--Equipment and supplies) (are rope)  MIROMOV, P.I.; REVZINk, F.S.; RYABCHIKOVAt O.A.; TEGOROV, V.D. Use of ropus on excavators with linear contact of the wires in trand a Clorozhuro noo5241-42 YT 162, OAM 16 s 1) Magnitogorskiy kalibra7ochrq7 zavod (for Khromov,, Revzina, Ryabohikova). 2. Nauahno-lasledovatellokV inatitut, metiznoy prouqohlennosti (for Yegorov). (Wire rope) q, --v Ng ~Jj  -.YEGOROVY V.D., Jnzh.; KHROMOV, P.I., inzh.; PFVZINA, F.S., inzh. Using polymer materials in the production of steel wire- ropk-. Stall 25 no.3;278-280 Mr 165. (M-TPA 18:4) 1. Nauchno-1331edovatcllskly instItut metiznoy proiVshlennost! i Magnitogorskly kalibrovochnyy zavod.  TZGOROV# V9D* Recombination of charge carriers in semiconductors with largo (!Oncen- trations of trapo. Fiz.tver.t6la 1 no-5:832-833 MY 159, (Mnu -2:4) 1. 7ixichookly- fakul'tet i kafedra fisiki poluprovodnikov Mosk(~Yskogo goeudnretvonnogo univ6roitata im. HeVo Lomonosova. (Semiconductors)  r,1030J6310031003100',1007 Bio7/Bia6 AWHORS s Thiessen, F,., Yegorov, V. D., and Jungk, G. TITLEi Kinetics of photoconduction in SiC PERIODICAL: Yhysica status solidi, v. 3, no. 3, 1963# 529 534 TEXT: The unsteady photoccnduction in cc-SiC was studied, the steacy chiracteristics for the specimens investigated being published elsiphore (G. Jungk, K. Thiessen, and F. Witt, phys. stat. sol., now. printinj)~ Additional charge carriers were excited by light from a mercury lac p in long-tiae build-up and decay processes ~.nd by light flashes in shoit-time decay processes. The experimental results show that the photocondi ction in SiC is due almost exclusively to rAjority carriers (holes),. Pioofs for the adhesive effect of the minority carriers (electrons) arei (1) The decay processes consist of several components among which the shorl-time component plays a-role only with high light intensities (saturatioz, of sitea of adhesion). (2) The ti-te constE:nt of the build-up process increases with decreazin3 intensity. .(3) Tho ind(!Vcndence of long-time proctases of .,the tezting voltage shows the absence of a minority carrier extraclion. The measured lifetimes.of the m1nority carriers are unexpectedly high. It Card 1/2  G/030/63/003/003/007/007 Kinetics of photoconduction in SiG 3107/B186 seems that the Iifatimes in pura SiC crystals compare well with those measured for germanium and silinzon. There,are 5 figures. ASSOCIATION: Physikelisch-Technische3 Ir.-stitut der Deutschen Akademie der ~7isOensehaften zu Berlin (I;hysicotechnical Institute of the German Academy of 3cionces in Berlin )(K. Thiessen, G. Jungk); Physikalische Fakultdt der Staatlichen Lomonoosow-UniveraitUtp Moskau (.Department of Physics of the Moscow State University V_ _ L-- L-'-- - :6 - - - ---- - --- -- omonosov YeSorov) Sb`BMITTBD:, December 27, 1962 Card 2/2  ACCESSION NR3 AP4034920 9/0181/64/006/005/1406/1412 AUTHOR: Vavilov, V. So; Nolle, E. L.;_Xegorovq~V* Do; Vintovkin, TITLEt Radiative recombination in cadmium telluride as a result of excitation by fast electron pulses .SOURCE: Fizika tvardogo tela, v. 6, no. 5, 1964. 1406-1412 TOPIC TAGS: radiative recombination, cadmium telluride, CdTe, laser-, material, stimulated emission, semiconductor ABSTRACT: The recombination radiation spectrum of CdTe excited by fast electrons was investigated in th photon energy interval from 0.7 to 1.6 ev and at temperatures betteen 10 and 300K. The p-type samples with resistivity of lu 10 ohm-cm were excited by 1 Hev elec- tron pulses of 2.5 jisec duration from an electrostatic generator. The repetition flreaquency was 10 cps, and -the current density per electron pulse varied betweeen 0.3 and 0.5 mA/cm. Since a 30 hr exposure to this type of ir-radiatLon did not affect the recombination-'-- Lc~ri 1/ 3  ACCESSION NRt AP403-4920 radiation spectrum, it.was assumed that the effect of the formation of radiation defects could be neglectedo It was found that at 10K the recombination radiation spectrum consists of three intense bands: *~U_ith maxima at photon energies of 1.05 + Olp 1.47 + 0.01, and 1,59 + 0.01 ev. The short-wave emissiZ band is l;cated in the region of the fundamental absorption band, Analysis of the dats, shows that vertical transitions with emission of optical phonons with zero momentum occur in CdTe and that the probability of such processes is high,' According to criteria developed in: Basov,. N. G., 0. N. Krokhin, Yu. N. Popov. ZhETF, v. 4, 1961, p. 1203,-Lt may, therefore, be possible to obtain laser action in CdTe at lofi temperatures when the nonequilibrium charge carrier conenntratioa is considerably smaller than that corresponding to the dtkgenarat~x state# Origo art* hast 6 figures, ASSOCIATIONs Fizicheskiy institut Lmani Po No Lebedav&AN SSSR (Physics InsiltutelAN SSSR) Calrd 2/1 .7  CCES--S,IO-"N-,-N--R-s-AP-4034-92.0------ A SUBMITTEDi 20NOV63 DATE ACQs 2OMay64 ENCLs SUB CODEj pN NO REF SOVI 004 4~ v, g", NTRM,00--thf pmv -"o  934-936 M ftq wn;g ong-gwy., W1, RN - M,  7rI R ff I'M - ~A i itz~;: lo, i g- 5 A.- wptOf mil" I 41A P R MVI  L-157- 8-66 -- Evrr( 1) 1EV.?-(6)Aw(4 /ETC (WkV-dW-/TX*(t) /E",WP(b) IJP(c) JDIJGI 3- ACC NH: AP6000900 SOURCE CODE: UR/0161/65/007/0121~T02/37011 AUTHORS: Golubev; rov. V. D. G -.P- ORGI Physics Inst1tute im. P. N. Lebedev.AN SSSR, Moscow (FilAche a inctitut-AN 553H) TITLE: Energy of lonization by means of electrons' ln.g2rmanium and 15-111conl carbide Fr;kstals SOURCE: Fizika. tverdogo tela,, v. ~ 7,. no. 12,, 1965) 3702-3704 TOPIC TAGS: silicon carbide, germanium, Ionization, electron bombard ment, forbidoen band, excitation energy ABSTRACT: The purpose of the investigation was to determine by mans of a new procedure the Ionization energy under conditions whete the excitation is not confined to the surface region. It is shown briefly that the latter circumstance resul-ts in certain errors. The I.oniza- tion. energy was determined from the change in the voltage drop, and consequently from the change in conductivity, resulting from irradi- ,-_Iating a crystal with electrons from a 150-keV accelerator. IF mula AcMd .1/2.  L -15738-M ACC NR: AP6000900 relating the voltage drop with the Ionization energy is writtei under the assumption that the concentration of the nonequilibrium ca--;.,riers varies linearly with the time after turning on the excitation, and that the current density of the incident electrons is sufficiently small and uniform over the entire surface of the sample. The iieasure- ments were made on n-type Ge~and a-SiC measuring 4 x 6 x 1 and 2 x 4 x 5 mm res eatively, The ionization energies were found to be 9:0 + 0.7 and 2N + 0.2 ev for the silicoq carbide and germanium resl:ective- ly. In the jase of silicon carbid6'--, the results agree with the as- that the Jonizatlon ~_nerg~ is approximately itriple tht! width of -the forbidden band. In the case of germanium the results agree with data obtained by x-ray and gamma-ray excitation,' but are lower than the value obtained for alpha-particle excitation, probably 'he track.- because of recombination losses in the plasma inside t Authors thank B. M. 10 E. L. Nolle and 0. N. Galkin for help with the work and a discussion of the resultst Orig. art. ban: 1 figure., 1 table.,'and 1 formula.- SUB. CORMI 20/ SUBM DATE:126JU165/,-. ORIG 'REPS, 007/ OnI REF: W 2 2/2 Card 777  L 40050-66 _EWT(1)JT 1JP(c)---, AT ACC NRiAP6022024 SOURCE CODE: UR 0120/CQ-0'60/0-(5~/6-i~~~-/67il5F7I AUTHOR: Vavilov, V. S.; Nolle, E. L.;-Yegorov,.V-.-D-.; Golubey, G. P.; Hashtakov, V. So' ORG: Institute of Physics, AN SSSR, Moscow (Fizi che akiy institut AN SSSR) ~47 i TITLE: Outfit for studying the recombination radiation of electron-excited semiconductors 11~/ It _FSOURCE: Pribory i tekhnika eksperimenta, no. 3, 1966, 176-179 TOPIC TAGS: semiconductor research, recombination radiation ABSTRACT: Connected with the outfits described by C. Benoit at al. (Physics of Semiconductors, Paris, Danod, 1964),an improved outfit developed by the authors is capable of exciting semiconductors by 150-kev electron pulses that have a current density of 3 amp/cm2; pulse duration, 0.25--10 (,%seal repetition rate, up to 30 cps. Stimulated radiation of cadmium telluride was achieved in this outfit for the first time. An electron tube with a constant high voltage and a pulsed grid modulation is used for high-power electron excitation of semiconductors; a 20-section steatite tube has been actually used. A block diagram of the outfit, principal circuits of the pulse generator and synchronous detector, and the pulse shape of the electron beam are shown. A He cryostat permits studying the recombination radiation of semiconductors at temperatures down to 10K. "The authors wish to thank-S. I. Vintovkin. V. S. Ivanov, and B. D. KoRylovskiy for their valuable advice connected with the development of the outfit." Orig. art. has: 4 figures. [031 SUB CODE: 20, 09 SUBM DATE: 25Nay65 ORIG REF: 004 OTH REF: 002 Card  A&-kj AP5028610 SOURCE CODES W06:63-377 0036A037 AUTHORs Yogorov, V. De; Mamrkina, E. M,; Jammov, F,, I.; Rovzinap ro Be ORG: 'NIIm'otiz - MKZ TITLE: Use of polymeric materials for steel cable coatings SOURCEt 1~rbnoyo khotyayst-ro, no* 11, 1965# 36-37 TOPIC TAGS: protective coatings polycaprolactam resins wire products connecting cable LK-0 connecting cable, TIC connecting cable t J.'r ,ABSTRACTo The results of tooting steel cabloalwith coatings m&d* of mr?n material- (polycaprolactam resin and fiber) are pro-a-enRod. The beat results were U-tained with ~coating film of up to 0.7-mm, thickness formed on steel cablo corcs of up to 6-mm at tom- poraturon of 230, 240, 255 and 260 0. It is montioned thnt parkorizod core wires have the beat adhesive properties (40 ka/sq cm) while vitrified wires have the lowest adhesion. (12 kdsq cm). The effects of various core temperatures (150 to 600 C) on the adkesive and mechanical properties of capron films wore studied and a temperature of about 400 0 is recommended for preheatin f The cables made of coated strands shown the beat rj 0 cores* endurance (3o3 times greato 0 The toot proved that a 0.5-ma film produced a 2 to 3 times increase in cable endurance. A further increase of the film thickneagAad little affect on the cable endurance. We steel cables with coated strands of jg=qPtype (6 x 19 + 7 x 7,, d = 25 mm) and of TK -type (6 x 37 + 1 core; d = 15 mm) were prepared and nuccessfully used on fie1ling ships. Their orose-eactions are shoyas Orig, art, bus 2 figuros. SUB CODPh 11, 13/ WBk DAM None Card 2/1  Accelerated nsthcd for cold smoking of fish. Hyb. k-hcz . 28 no. 7, 19512. 2 9. Monthly List of Russian Accessions, Library of Congress, November 1956. Unclassified.  Geoiogy See ILC  YNGOROV. Y.G. ,f ui;r-Cid-o-els of the stomach ancl duodeaum, Probl,tub, )4 no,6 supplement:42-43 N-D 156, (MIJU 10:2) Is Is khimrkichookogo otdoleniya (tay. - kandidat meditainakikh nank N.S.Yepifaaov) Kirovekoy oblaetuoy bolluitsy (glavnyy vrach zaaluzhannyy vrach IBYSR N.K.Popov) (STONAM-TUBMUIoOSIS) (DUOMNWtL-TUMCULOSIS)  MIGOROVt T.G. Turaors of the masentexT of the small intestine, Testokbir, -85 llool0t=-.323 0 160. (MA 13M) I, Is khirurgicheakogo otdeleniya (sav. - kand.med.n&uk N.S. Tepirancy) Kirovskoy oblastuoy bollnitay. oj ;q  YMROV, V.G., elelctromekhanik; PONICHEV, G.F,, alektromakhanik Changing the supply circuit of intermediate points of dispatcher communications. Avtom., telem. i aviazi 2 no.10:28 0 058, (MIRA 11:10) l.Krasnoyarska.va distantsiya signalizataii i evyazi Krasnoyarokoy dorogi. (Railroads--Communication systems)  Penetration of a conifer needle from the inteatineD Jnto the peritoneum; abstract. V.G. Egorov* Kaze med, zhure noel: 111-112 J6L-J'61 (HIBA 16:11) 777777.  YEGOROV. V G, and KOZNOV, N. A. (Oblast' Veterinary Bacteriological Iaboratory, %olensk Oblast' and Candidate of Veterinary Sciences) "Concerning the epizootiology, diagnosis and therapy of leptos- pirosis of calves" Veterinariyap Vol. 38, no. 7, July 1961, pp. 39 0 V  KOZNOV) N*A*j kand*veterinar.nauk; YEGOROV; V.G. LeptespirosIB in calves. Veterinariia 40 no.9s2O-21 S 161. (WRA 171 -1) 1. Smolenskaya oblaotnaya vetorinarnaya laboratoriya, 2, Zaveduyushchiy apizootolog.laheakim otdelom Smolenskoy oblastnoy veterinarnoy labora- torii (for Yegorov). Al  YEGOROVy V. "Stability Of'Sollitions of Systems of Fquations in Full Fifferentia.19.11 Min Iligher Education USSR# Ural Stato U imeni A. M. Gorlkiy., Sverdlovsk., 1955. (Dinsortation for the Dogree of Candidate in Physical and Mathematical Sciences) SO: M-955; 16 Feb 56 0  USSR/14athematica Total- diff. equations Gard Pub. 22 5153 Authors I Yegorov, V. G. I Title I Stability of the solutions of the systems of equations in total differentials -Nrlodical- s- --Dok-. AN SS,91t 102/4-1 677-680, June 1. 1955 Abstrd(lt A proof is presented of the stability of solutions of a system srif equations in total differentials such as the follawing: dx, = Ps(u,,xi,x2, - - -.1 xn)du Qs(vjxlpx2j . . . jxn)dv (s 1,2, n).. where the function P (u,x,)xOt. xn) and Q. (v, x ). j X 1 2 n) are determined together w'1th theIr derivatives in a certain region H, and satisfy the conditions of their integrability in the region. S'-.x references: 1 USA and 5 USSR (1934-1952). ---In-stitUtio-n--t--The7S-.M4 Kirov UralBkiy Polytechnical Institute Presented by Academician I. G. Petrovskiy., March 1, 1955  Call Nr: AF 21,11)8825 Transactions of the Third All-union Mathematical Congress (Cont. Y-OBC74f, Jun-Jul '56, Trudy( 56, v. 1, Sect. Rpts., lzdatellstvo AN SSSR, Moscaw, 1956,11,237 P-P. Yegorov, V. 0. Sverdlovsk). The Stability of Solution of a 5ystem of Equ tions Given in a Form of Total DIfferentialso !j52-53 I I Zhantykov, 0. A. (Alma-Ata). On the Construction of the Integral of Partial Differential Equations of the First Order for the Equation Integrals for a Calculated Countable Set of Independent Variables. Zagorskiy, T. Ya. (L'vov). Some mixed Problems of Parabolic Systems. Kim, Ye. I. (Rostov-na-Dona). On a Class of Singular Integral Equations. Koshelev, A. I. (IAningrad)., Bounde,dness of Generalized Solutions of Elliptic Equations. Mention is made of Bernshteyn, S. N. Card 17/80 -54 1A-55 55 1-:6  -HM ~l UNA Z- !IR3401-11 X:i',F~ TV. lpt~ag a v A  f AUTHOR YEGOROV V G. 20-1-2/061~ ':i Solutions of the Periodical Systems of Equations with TIT-LE -iia- ~ilit;~ Total Differentials. (Ustoychivost' resheniy periodicheskikh sistem v polnykh diffo.,rents- ialakh -Russian) PERIODICAL Doklady Akademii 11auk SSSR,19579VOI 114,Nr lppp 11 -13 (U.S.S.R.) ABSTRACT Let a system of equations with total differentials of the kini dx. M p~u)xdu + q(v)xdv be given,with x denoting a line matrix, p(u) and q(v are quadratic matrices which are continuous and limited and which also satisfy the Integrability condition p(u)q(v)-q(v)p(u) for all u-;;,O, v ~/,O.(In this context,u and v denote parameteria). In it is known,this system then has a uniform solution satisfying the initial conditions given# The quadratic matrix, X(UVV) - 11x1k(u'v)jjj,the columns of which are the n indepenaent solutions of this system,is called integral matrix of the system of equations given abovc4 Ap- parently the matrix X(u)~Y) satisfies the equation dX a P(u)):du+q(v)Xdv. If Y is a nonsingular particular solution of the equation juvt given, then the general solution of this equation reads X(u,v).Y(U,V)C,Vith C denoting an arbitrary constant matrix. If X(u,v) in the normed in- tegral natrix of the first-mentioned system of equations,and iflf(u) and. X(v) are the normed integral matrices of the systems dxn:p(u)xdu and w.dx-q(v)xdv,respeotive1y, then we haVel X(U,Y) - _X(U)X(v') .. %(V)7(u). Card 1/2 Then the paper under review proceeds to give the proof of this asser-  ASSOGIATION PRESENTED BY SUBMITTED AVAILABLE Card 2/2 Stability of Solutions of the Periodical Systems of 20-1411/64 Equations with Total Differentials. tion. Every arbitrary integral matrix of the first-mentioned r!ystem is nonsingular.Then the concept of the reducibility of the sytj:tem gi- ven in the beginning andthe concept of the Lyspunov matrix artidefi- ned.Finally,the paper under reliew lists the following two thel-3rems: Theorem It If p(u) and q(v) are periodic matrices, then the sylitem dx - p(u)xdu + q(v)xdv is reducible. Theorem 2s Thq zero solution /zeroth solution?/ of the syetem,!IX. - p(u)xdu+fl(v)xdv+Pl(u,x)dii+ Ql(v,x)dv i: asymptotically stabl:!),If the characteristic numbera of the.aystem dxu p(u)xdu, ax.q(v ~1,dv are positive and if the conatant;Z'iri the inequality mod(PlA31, 1XIII is sufficiently small. If,in particular, p(u) and q(v) ar SW commutative matrices, then also the zero solution of the yate,-,. given in the beginning is stable. (No reproductions). Ural Polytechnic Institute. PkSROVSXIY I.G.tMember of the Academy 31-5-1955 Library of Congress.  ~'20 AUTHORs Yegorov, V.G, OOV/10-58-2-8;: TITLEs Stability of the Solutions of "Generated" System. f 1;4ffer',;!ntial Equations (Ustoychivost' resheniy "porozhdennykh" sistem I differentsiallnykh uravneniy) PERIODICALs Izvestiya vysshikh uchebnykh zavedeniy Ministerstva vyesheg ;.I obrazovaniya 83SR, Matematika, 1955, Nr 2, PP 84-92 (VSSR) ABSTRIM The author considers the sletem (1) dx: - p(u)x du + q(v)x dv, where x is a one-column matrix and p(u), q(v) are quadratic matrices being continuous and bounded for u,v,?:~O and satief.,ring the condition (2) p(u)q(y' - q( V)P(U). Already several tives the author [Ref 118J treated the systims (1). -It was asserted that the stability of the trivial solution -)f (1) is determined completely by the stability of the trivial solutions of the eystems (3) dx w P(U)x du C&rd 1/2 (4) dx - q(v)x dv.  Stability of the Solutions of "Generated" Systems SOVI-1 4') - -58 -2-8/2C'~ of Differential Equations In this connection thore arises the problem to Investigate 7!'he stability of systems of ordinary differential(equations "generated" by the system (1) or the systems whioh. arise by the fact that betwoeu the parameters u and v a cerl,ain functional connection is given. In five theorems, the preseiA paper gives some assertions referring to this. It is a comp*6 etion to 4Ref 11 and[Ref 8j. There are 9 references, 8 of vhich are Soviet, and 1 Gerson,: ,LSSOCIATIONtUrallskiy politokhnicheskiy institut iseni S.M.Kirova (Ural Polytechnical Institute imeni S.M.Kirov) SUBMITTED% December 3. 1957 Card 2/2  oil MINOV, N.S*; LIBIDIV, G-V.; BAGIROV, AeTu.j,YMOROV,_VeG. CAmlity of tea grovn under now irrigation conditions. Biokhim. chain. proizv. noo8t26-28 160. (MM 14:1) 1. Inatitut fiziologii rasteniy Imeni, K.A. Timiryazova AN SSSR, Moskva i Avroreltap chaynaya fabrika Soynarkhosa AzerbSSR. (Lahkoran lowland-Tea-IrrigEttion) M T.'!~ R") M-,  YEGOROVp V.G. (Rostov-na-Donu) Singular points of systems of equations in total differentials. Ulcr. mat. zhur. 17 no.6:11.7-12-2 t65. (MIRA 19:1) 1. Submitted November 6, 1964.  16(l) AUTUOR: Yegorov,V.1. 507139-48-2-610 -------------- TITLEt On Metric Dimension of Point Sets PERIODICAL- Matematicheskiy sbornik, 1959,V01 48,Nr 2,pp 227-2150 (US-N 3H) ABSTRACT: The present paper is devoted to the investigation of the notion of the metric dimension of the given point set M (in sye.bols dm M). dm M is the smallest number r with the property that there exists an arbitrarily small shift of the set M int) a locally finite polyhedron with the dimension r. Principe.! results: Theorem% Let R be a metric spacei we have dm Rj;~r thnn,cnd only then.,,if in every Lebesgue covering of R an open cove=inj: can be inscribed the multiplioity of which is _4,r+1. Theorem: Let MCE. Then dm M is the greatest number x w.1th the property that there exists a uniformly continuous, easeiitial mapping of M into an r-dimensional closed simplex. Theorem; If dm R - r and AC-R is an arbitrary set, then every uniform 7-cycle of A, the dimension of which in ptr, c~Ln be continued to the whole space R (a uniform V-cyclo of a set is every VF-cycle defined on the nerve of a Lebosgue coverl.ng of Card 1/2  On Uetrio Dimension of Point Sets SO7139-48-2-6/9 this set). 13 theorems and several definitions and lemman are given altogether. The author mentions P.B.Alekoandrov, K.A.Sitnikov, and N.M. Smirnov. He thanks Yu.M.Smirnov for the assistance. There are 10 references, 6 of which are Soviet, 2 American, 1 Dutch, and 1 German. SUBLUTTED: October 9, 1957 Card 2/2  Rk a' V '19.. U0 PH 4 us t 0. A! .4 a t9i 2 !;,Zw- .,. i 0 1 16 OVU a, 100 11M."Him 0 q8i4 JAN 1 IF ailli-f2flis" 44 so I g A i t 'yT ~,O ltlj  YFGOROVV~1._,_ inzh. Radio communication system for municipal electric commter trains. Avtom., telem. i aviaz' 7 no.4134-36 Ap 163. (MIRA 16:4) (Electric railroads-Communication systems)  YEGOROV, V.I.. KASMWSKIY. Yu.K., PONOMAREV, P.V. Changes in cardiovacular Rnd renal function In hypothermia [with summary In 3nglish] Exper.khir. 1 no.33-24-33 W-Je 56 WRA '11:10 1. Iz knfedry gospitallnoy terapii (nache - chlon-korreopondeni; ANN SSSR prof. N.S. Molchanov) I kAfedry gospitallnoy khirurgii (nache - prof. I.S. Xolesnika7) Voonno-maditainalcoy ordena Lanina adadamii iment, S.M. 11rova' (ffPOTMXIA.- off : on cardlovaso, & kidney funot. (Rua)) (CARDIOVASCULAR SYTIN, physiole off. of hypothermia (Rue)) (KIDNETS, physiol. off of hypothermin (Rua)) ~N  PAYWY G. S. 0 YWOROV, V. 1. CultiVAtion of microargAnism under gAs recirCUlAtion, AntiblotMci, 3 no,32100-103 MY-Je 158 (XIRA Ilv7) (MIC11000ANISMS, culture in gns recirculntion phaae (Rue))  V.I.; 3PITSYN~ U.A. [deceased] 2ome characteristics of gas and nitrogen irotabollen duri rg 4 ~(B grc,wth and development of Bacillus anthracla. Veter',narlia 3F no.2:45-47 F 161. (MIRA 1811) 5 z"TT:  FAYBICH, M.M.; YEGOROV, V.I.; PISARSVSKIY, Yu.S. Survival of microorganisms during freezine. Zhur.mikrobiol.epid.i immun. 33 no-5:68-72 My 162. (MIRA 15:8) (MICRO-ORGANISHS) (COLD-PHYSIOWGICAL EFFECT) (GLYCEROL--PHYSIOLOGICAL EFFECT)  YEGOROV, V.I. Lytic effect of dysentery and typhoid bacteriophagea on Racherichia coli and Paracolobactzn= co.Ufome. 1),mlimina -19-20 report. Zhur. mikrobiol., epid, i immun, 40 nov2. z7 P '63. (MIRA 17:2) -Z ',Mz. N,4 4~4~0 Nil-, -st,;  !~.Sq~qy,_Y,jr; POBEDONOSTSEVA, N,N. Graphic method for evaluating the efficiency of diamond bits for deep drilling. Izv.vys.ucheb.zav.; neft' i gaz 6 no.lls113-116 i63, (K RA 17 z 9) 1. Moskovskly institut neftekhimIcheskoy i gnzovoy promyshlennosti im. akademika I.M.Gubkina i Vsesoyuznyy nauchno-Issledovatel'skiy, institut burovoy tokhniki. ---777=  YEGOROV) Me Experience in the use of fluorescent sera for the diagnosis of dysentery. Zhur. mikrobiol.0 epid. i i=un. 40 no.llt:L46 N 163. (MIRi, L7-,,12)  N,'.,*YA!UN,'l,, V.M. by nhe v ,Almulating efi'cct. (-,!' weck volvLicns (~f wicorltic urli nlt.-ClinLs acidB on the growth of dy3antery bacterli. Lab. de-lo no. 11% 695-696 164. 4!11~.ll 17112)  YEGOROV, V.I. Two cases of chondromatosim of the elbow-joint. Ortop., txmvm~ i protes. 25 no.8t49-50 Ag 164. (MIRA 18W NE5A  .- " z K'.. 60 tam, 6B4 tro SVoft 'nV r pef. zh. TekhnOlOKLya MDshinoq S OUR CS man Te . AUTHC9,~.i-, Tegorov, j. I.; I.gudeB, 2 A . , J~~zfnl IJ 11A ~M -N na ..  ehop q-. t7, -7 1 t _Lni 7h i Tf M, IV T V~ MIT 1 9 fl-p 11 tA' ?'IV. V IJ  ACC-Nkt -AR5023720 SOURCE CODE: MI/0081/65/000/013/LO39/1:,039 AUWHOR:. Pasakh,, Ye, V.;-Yegorov,-V, I.; Nabova., To., G, j0 .. ! : 6 TITLE: Intensification of a zinc electr plating process by means of ultrasonic oscillations SOURCE% Ref. zh. Xhimiya, Abs, 13L27b REF SOURCE: Sb. Primeneniye ulitrazvulca v mashinostr, Minsk, Nauka I telchnika, 1964, 118-122 ~'n -kee 1P % Y%ck TOPIC TAGSt -LvAc. 1000t vco ~0_k ker_kco~kcLkkv%~ V_V%V%-neV'A eAe_c~mkkike_ zinc plOng,, Qk.kr0_S, '4 V,%C, e ABSTRACT: A study was made of the intensification of q zinc-plating process by means of ultrasonic oscillations in an 800 X plating tank. A diagram is given of the distribution on Ito bottom of submerged magnetostriction transformers and of the values of sonic pressure on the liquid alonZ the entire mirror of the tank, The irregularities of the plating and the given irregularities of sonic pressure did not exceed 151%. The zinc-plating was done us:L,,3 an electrolyte of the following composition: (in h/1) ZnO 10-li~; 1411401 21j0-260; joiners'  A0f'4tAtAR . ...... .......I............ 5023720 0 glue 1-2; pH 6.2-6.8, temperature 18-240, Ito satisfactory visible results were obtained In Zn deposits in the 800,Qtank unjr-r the con- dition developed for zinc-plating In tanks of 20 and 80 capacit7. An 5'nereased electrolyte concen ration and a change of P11 to 7.2-3.5, allowed Increasing ]?k to 5 a/dm . Under these conditions good-quality deposits were obtained,, but the anodes were pasaivated. In order to minimize the paosivation, tho anode surface was enlarged, It was noted that in plating metals using ultrasound, the mounting of parts and their orientation in relation to the radiating surface of transformer and anodes are of great importance. Tests under industrial conditions, of this electrolyte with applied ultrasound shoi,ed that the work of this electrolyte was stea0y and that the productivity increased by 5 times. N. Balasheva SUB CODE: SUBM DATE: loju165 Carcl  YZGOROV V I (Yicslcva, -t.*,--~ij-~-L-or(-.zt,'IjIY7ti, zlit;1c.--noy dorcg-' I Vo vostrcbvvan;yi); KREKNIN, A.F.; KRIVOUZOV, Yu.P..; CBSIKIY, V.D. Healing offractures :n hirctic rr-gicni,. Crtq:., trt-vn. J prctez. 26 no.3:29-31 Mr 165, (MIRA 18:7) Q f RCA - MR12k, I  L 4do7-66-..-,-.EVIT(d)/EWP(c)/.EU(v)/T/~kT(k)/aIP(1)/ETC(m).. _Vd 286/65/000/01 10510106 mim m AP502Waq UR/O 510 AUTkORSs Yegorovp_V. I.1 Pasakhj Yee Ve; Bodritskiy., At G#)- Voronlko) H. P. 8 TITLE: Acoustical detector. Class.42) No. 173490 SOURCEs Byul-lotent izobreteniy i tovarrWkh znakovp no. 15, 1965, 105-106 astic oscillation TOPIC TAOSt acoustic detector, ol ABSTRACTi-,This Author (ertif to presents an acoustical detector for measuring elastic oscillations in noncorrosive media. The detactor contains a cylindrical case, a receiver with a piezo element, and a coaxial.cable...To increase Us accuracy of measurements, the receiver case is placed inside the cylindrical shell- th a fixed air gap (see Fig. 1 on the Enclosure). The receiver case can be moved.11 wit, axially relative to the shell., and is coupled to it by separating rings ok sound-. I absorbent material, Orig, art. hass 1 diagram, ASSOCIATIONr-Minskiy traktornyy-~avod-(Minsk-Tractor Factory) FMM 01 SUB CODEa EG, HE SUBMITTED i lakpr64 000 OTHER: 000 NO RKF SOVt Card .61 uDc-. 621-3083-8:534  L 4007-&--,-~l---.-..-.-~-,---~.-- EliCLOSUM 01 ACCESSJON NR AP502 4419- Fig, L 1- receiver ease; 2- separating ings of acoustical shielding matleriall 3- air gap; 4- shell  CHMOZHUKOV. N.I,, prof., doktor tekhn.nouk, red.; ZHIGAGH, prof., otvotstvennyy red.; KJRAYIYXV, Z.H., prof., red.; TITBOMIROY, A.L., knnd.ekon.nauk red.; YZGCYROY, V.I.,1kand.ekon.nsuk, red.; CHARYGIN, H.H., prof., r;do; DOMV.-I.-t- , pFo-f-.^*' red.- KUZHAX. Te.H., prof.. red.; CWITYY, I.A...prof., red:; PANCH's"IMOY,G.H., prof., red.; DAKHUOV, V.U.. prof., red.; NAM, XIN, U.S., doktor khtmensuk, ree..; AIKAZOV, H.A., dote.. red.; VIHOGRADOV, VOL, Imnd.tekhn.nauk, rtil.; BIRYUKOV, V.I., kand.tekhn.nauk, red.; TAGIYEV. B.L.red.: GUREV*-,.CH, V.H.. red.; ZAMARAYNVA, K.M., vadushchty red,; HUEHINA, N.A., telhn. red. [Materials of the Interuniversity Conference on Problems of New Practices in the Petroleum Industry] Materialy mozhvuzovskogo eoveshchaniya po voproaam novoy tekhniki v neftyanoy promyshlen- noati. Moskva. Goo. nauchno-tokhn. izd-vo neft. i gorno-toplivne,4 lit-ry. Vol.2. [Petroleum refining] Pererabotka nefti. 1958. 289 p. (KIRA 11:6) 1. Hezhvuzovskoys soveshchaniye -oo vaprosam novoy tekhniki v neftyano.y promyshlennosti. 1956. (Petroleum--Refining)  ZHIGACH. X.F., prof, red.; KURAVIYBV. I.H., prof. doktor tekhn.nauk, red,; TIKHOMIROY, A.A., kand.ekon'.nauk, redo- YXGOROV V.I., kand.ekon. nauk, red,; CHARYGIN. H.X., prof., redi--, Fuwi~t Y.F.. prof., red.; OMHOZOKOT..N.I., prof*, red*; KUZHAK, Ye.Xv, prof., redo; OBARRY, L-A., prof.. red.-,.PANCHENKOV. G.M., prof.. red.t DAKHMOV. Mineralogichaskikh nauk, red*; KAXETKIN, V.K.; prof. doktor geoiogg- N.S.4 doktor khim,nauki red.1 ATMZOV, N.A.,,dots., red.; VINOGRADOV, Y.H., kand.teihn.ns~k, red.; BIRYUKOV,"V.I., kand.tekhn.nauk, red.; TAGiYw.'3.1., -red.; GUREVICH, V.M., red.; DCBRYNINA, N.P., vedushchiy red.; MUKHINA, N.A., takhn.red. [Proceedings of an interachool conference on problems of new techniques in thapetroleum industry] Materialy Mezhvazovokogo soveshchaniva p0 voprosam novoy tekbniki v neftyanoy proaqshlennosti. Moskva, Goo. nauchno-takhn.izd-vo neft, i gorno-toplivnoi lit-ry. Vo.l. [Prospecting and exploitation of oil and gas fields] Razvedke i razrabotka neftianykh i gazovykh mentorothdenit. 1958. 311 P- (MIRA 11:4) 1, Xezhvuzovske7e soveshchanive po voprosam novo7 tekhniki v neftyanoy prou7shlennosti. (Petroleum engineering) (Gag, Ratural-Goology) e" - rid 1 -j k ~vp ;iz  KUZMAK, Te.M., prof. doktor tekhn. nauk, red.; TARAN , V.D..prof.; doktor tekhn. nauk, red.; ZHIGAOR, X.F.. prof..red.; MURAVITICY, I.M., prof.,red.; TIKHOHrROV,A.A., kand. ekon. nauk, red.;,--TEGO T 10 _,_ kand. ekon~ nauk, red.; CHARYGIff, N.M., prof., red.; DUHATEY, F.Y., prof., red.; CEMIOZHUKOV. N.I., prof...red.: CHARNTT,I.A.. prof.. red.; PAHCBMIKOV. G.M., prof., red.; DAKHNOV, Y.W., prof., HAKETKIN. H.S.. doktor khtm. nauk, red.; ALMAZOV, N.A., dote., VINOGRADOV. Y.N., kand.tekhn. nauk, red.; BIRYUKOV, V.I., kand. tekhn. nauk, red.; TAGITEV, E.I., red.; GUMICH, V*Ko, red*; GORIKOVA, A.A., ved. red.; FMXTOVA, I.G.. tekhn. red. [Proceedings of the conference of technical schools on the problems of new equipment for the petroleum industry) Nezhvusovskoe soveshchants po voprosam novoi tekhatki v neftinnoi promyshlennosti. 1958. materialy... Moskva, Goa. nauchno-tekha. izd-vo neft. i gorno- toplivaoi lit-ry. Vol. 3. [Manufacture of petroleum industry equipzqentl Neftianoe mashinostroenie. 1958. 222 p. .(MIRA 11.,11) (Petroleum industry--Equipment and supplies) Osz - -.0  CHERNOZHUKOV, N.I., prof., doktor tokhn.nauk, red.-, ZHIGACH, K.r., prof.. red.; KURAVIYZV, I.M., prof.,red.; TIKHCKIROV, A.A.. kand.ekon. nauk, red.; YZGOROV, V.I,, kand.elcon.nauk, red.; CHWGIN, X.M., prof., red.; DWATZT,'Y,F,# prof*, red*; KMKAX, U.N., prof., red.; CHARNW, I.A.9 prof., red.; PAHCHENKOV, G,X,, prof., redo; DAMOV, V.H., prof., red.; NAKMIN, N.S., doktor khim.nauk, ree:..; AUMOVO N.A., doteent. red.; VINOGR"V, V.N. kand tekhn.nauk. red.; BIRYUKOV, V.I., kand.takhn.nauk, rod.; TAGITIV, X.I., red.; GMVICH, V.M., red.; ZAHARAYEVA, K.K., vedushchiy red.; XUXHIRA, N.A., takhn.red, (Petroleum refining; articles] Pererabotka nefti; materialy. Moskva, Gov.~auchno-tekhn.izd-ve neh. i gorno-topliynoi lit-rys Vol,Z. 1958o 289 p. (MIRA 12:1) 1. Mszhvuzovskoye coveahchaniya po voprossm novoi takhaiki v neftyanoy promyshlonnosti. Moscow. 1956. 2. Mookovskly neftyanoy inetimt (for- Charnozhukov, Panchenkov). (Petroleum-Refining)  ZHIGACH, K.F., prof., otv.red.; KWVIYEV, I.M., prof.j red.; TIKHOKIROY,j AeA,g kand.ekonoo.muk; red.; YIUOGRADOY, V.Y., kand.takhn.nauk,i,' red,; 81 Ov N.V., red.; BFUMS, A.D., red.; CHARY61N, M.H.,!! prof., red.; DEWAYXV, F.F.. prof., red.; CHMUTIT, I.A., prof., red.; CHERNOZHUKOV, R.L. prof., red.; KU7KAK, Te.M., profeg redo::; nA OV, V.N.. prof., red.; PANCHZUKOV,'G.M.. prof., red.; HAKM AN, N.3,0 profe, red.,;,TAGIYEV, H.I., prof., red.; BIRTUKOV, V.I., luind. tekhn.neuk, red.; TAGOROV, V.I., kand.tekhn.nouk, red.; ALMAZOV, N.A., dotsent, red.; GURNVICff_,V.H., red.; ISAYEVA, V.V., veduah(;hiy red.; POLOSINA, A.B., tekhn.red. [Development of the gas industry of the U.S.S.R.; from the pro- ceedings of the Interuniversity Scientific Conference on the Problems of the Gas Industry] Mazhvuzovskala nauchnnia konferentaiia po voprosam gazovoi promyshlennosti. Razvitie gazovoi promyshlennoati SSSR; materialy. Koskva, Gos.nauchno-tekhn.izd-vo neft. i gorno- toplivnoi lit-ry, 1960. 403 p. (MIRA 13:11) 1. Neshvuzovskaya usuchnsys konferentsiya po voprosam gazovoy pro- myshlennosti. 2. Glavgaz SM (for Bronts),, 3. HoskovBkiy institut neftekhimicheakoi i gazovoi promyshlennosti im. skad.Gubkins (foT ChBrygin, Charnyy). ((bs industry)  GORKIN, S.F.k YEGOROV, V.I. Improve the economic training of engineers of the petroleum aril gas industries. Izv. vys. ucheb. zav.; rwftt i gaz A. no.4s~1-6 161. (MRA 3.515) (Petroleum engineers-Education and training) (Economics--Study and teaching) 77  PODEDONOSTSbVA, N.N.; YEGOROVj:V.I. Determining the efficiency of using rotary and turbine t*thcds in drilling extra-deep wells. Izv. vys. ucheb. zav.; neft' i gaz 4 no.6tl3l-137 161. (MIRA 15:1) 1. Hoskovskiy Institut neftekhimicheskoy i gazovoy promyshlennosti imeni akademika I.M.Gu*ina. (Oil well drilling) _~N V4 q U  POEEDONOSTSEVA, N.N.; YEGOROV., V.I. . .................- Graphic method evaluating the efficiency of using turbine and rotary systems in deep drilling. Izv.vyo.ucheb.zav.; neft' i gaz 4 no.7:109-113 161. (MM 14:10) 1. Makovskiy institut neftekbimicheskoy i gazovoy pronWahlennosti im..akademika I.M.Grubkina. (Oil we3l driMng-Graphic methods)  YEGOROVP V.I. ,,Financing oil and gas industriesm by I.H.Broide. Reviewed b7 V.I.Egorov. Neft. kh02. 39 no-4:69-71 Ap 161. (MI1PA 14:6) Petroleum induBtry-Finance) ~Gas iiidustry-Finance) (Broider 1'JQ  YEGOROV, V.I.; POBEDONOSTSEVA, N.N. Practice of using 4et bits in southern areas of our countr7. Neft. khoz. 39 no.11:11-14 N 161. (MIRA 14:12) (Oil well drilling--Equipment and supplies) A. Nil  YEGOROV, V.I.9 red.; TKACHEIIKO, O.V., ved. red. (Economic problems of petroleum production) Voprosy ekonomiki neftodobyvaiuahchei promyshlonnonti Moskva, ITEInoftegaz, 1962. .120 p. (MIRA i6:12) 1. Institut tekhnicheskoy informataii i ekonomicheskikh issledovaniy po neftyanoy i gazovoy pror,.yahlennosti. (Petroleum production) X,  POBEDONOSTSEVA., N.N.; YEGOROV,, V.I. r General iu*~vement of methods and equipment,is the basis for improving the economic indices of,deep drilling. Izv. vye. ucheb. zav.; neft' i gaz 5 no.ia65-no 162, (MIRA 16:11) 1. Moskovskiy institut neftekhimicheskoy i gazovoy pronyahlennosti imeni akademika I.M. Gubkina.  DOBROVOLISKIY, M.B.; DUNAYEV, -V.I. '- Comparative measuremnnt of petrolcum rescrve2 of various categories. Izv,wj3*ucheb,zav.j neft' i gaz 5 no.12:10-110 162. (MIRA 17;4) 1. Moskovskiy Institut Leftekhlmicheskoy i gazovoy promyshlennosti imeni akademika Gubklna.  POBEDONOSTSEVA,, N.N.;,Y~~LOROV~ -V.I. Possibilities of increasing the efficiency of deep MINKRiGP no.40*-22 163. OURA 1624) (Oil well drilling) k  Bl'leoctrodriU as an inporltnt re-cerve in 1;',3rj,,. drillln-- '--I --- 'f'. 'Ll' 0 OJ2, uchob. -.Wl.; noft' i gan 6 no.1:3-7 '63- ('-a.-d 17.: 10) 1. 1-loskovol-Ity crdona Trudovogo Krarmogo Zntutcni institut neftokhlal- chaskoy i grzovoy prolnyalllenno:-sti im. akarl. Gulkina.  POBEDONOSTSEVA, N.N. 1!G Economic efficiency in the use of diawnd bits. Izv.VYB.ucheb. zav.; neft' i kit 6 no,9:101-105 163, (KM 17t2) 1. Moskovskiy,instit~lxt neftekhimicheskoy i gazovoy promyshlenno4 ti im. akad.I.M.Gubkina i Vsesoyuznyy nauchno-issledovatellskiy institut tekhniki.  STEELETSKAYA, L.N.; YEGOROV, V.I. Depudonco of t~,e maxilrum ler9th of glks nf va--ir;*,! diameters on efficiency factors. Izv. vys. ucheb. zav.; neft) i gaz 7 no.8:117-120 164. OUM 17:10) .1. t.',ogkovsl-.iy institut, nef tekhimiche:3koy i gazovoy promyshlenno.'r i !r,q-,)n-! akademika Gubkina.  YMOROY, V. 1. Remarks an I.A.0stroushko's book ODisintegration of rock during drilling; theory of bore-hole bottom processes*. Reviaved by M.3gorov. Razved. i okh.no&r. 20 ne.6:60-61 N-D 154. (Boring) (Ostroushke, I.A;) Off-RA, q-.6) R 0  TZGOROV, V.I. gorrqy Inzhener Iffect of anerg7 absorption b]r rock on the productivity, of a porcussion cable tools Gore zhure nosifi24-27 Ap 155. (MMA 8:7) (Boring machinery)  SFaMYAXOV, Y.M.; ULYGIN. Ye.L.; YEGOROV, V.I. The BSMEL baring machine. Gor.shur. no.4:53-54 Ap 155. (KCRA 8:7) (Boring machinery) -77777  /to 99-58-5-8,'10 AUTHORSs Bogushevskiyp A.A.; Yegorovo V.1.j Sheynkin, G.Yu. TITLEs Anniversary Scientific Conference of the Moscow Institu';e of Engineers of Hydraulic Engineering Imeni V.R. Wiliams (Yubileynaya nauchnaya konferentsiya Moskovskogo instititta inzhenerov vodnogo khozyaystva imeni V.R. Villyam9a) PERIODICALs Gidrotekhnika i Melicratsiya 10 Nr 5, PP 56-59 (USSR) VA ABSTRACT: This conference was convened in Moscow in November 1957, on the occasion of 40-th Anniversary of the October revolution. Representatives of 38 institutes, ministries, academies of sciences, and other organizations participateds 80 reports were made on different branches of hydro-melioration engineering among them the review lectures of Dotsents S.F. Aver"yanov, N.A. Karambirov, N.D. Kremenetzkiy~ Academicians A.B. Asko- chenekiy2 Ye.A. Zamarin; and krofessors Y.F. Poyarkov, D.Ya. Sokolov and M.M. Florinakiy. In the Seotion of Agricultural Melioration and Water--Supply 27 reports were read. The melio- ration of bottom lands was the subject of the reports of; Card 1/4 Candidate of Agricultural 6oienoos Ye.S. Markov, Professor q,  99-58-5--6/10 Anniversary Scientific Conference of the Moscow Institute of Engineers of Hydraulic Engineering imeni V.R. Wiliams I.I. Plyusnin, Dotsents T.A. Lobanova, and I.A. Vernikovs- kaya (MIIVKh). The projecting-.type of moliorutive systems, construction and operation of drainage were reported bys Engineer P.G. Fialkovskiy (Rosgipro7odkhoz) Candidate of Technical Sciences V*A. Rozin (SevfiIIGiM)p Engineer P.B. Sviklis (LatNIIGiM) and Candidate of Technical Sciences: R.Ya. Narodetskaya (Roagiprovodkhoz). new techniques inithe field of irrigation were reported on byt Candidates of 'rech.- nical Sciences A.A. Bogushevskiy and N.Z. Gankin (Giprc'!rod- khoz) and the Engineer S.Z. Tsanov (MIIVKh). questions~of planning in totton-growing regions of Central Asia were;re- ported on by Candidates of Technical Sciences# A.N. Lya';)in (TIIIKSKh) and'N.F. Samsonova (VBIIGiM). The questional'of rural water supply were reported on byt Dotsent N. A. E'Aram- birov (MIIVKh), Dotsent S.S. Gusev (MIIVXh)and Rosgiprc~iod- khoz), Engineer N.P. Frog (Giprovodkhoz) and Engineer V:.A. Ruzhinskaya (Lengiprovodkhoz). Professor A.L. Rubinshte . ~rn Card 2/ 4 and Dotsent I.I. Trofimov(MIIVKh) reported on the probb3m  99--58-5-8/10 Aj,i-Tersary Scientific Conference of the Moscow Institute of Engineers of Hydraulic Engineering imeni V.R. Willams of loose noil. The water losses to izzigation canals and the question of reducing them were the objects of the reports bys Academician Y.Y. Poslavakiy, Candidates of Technical Sciences S.A. Girshkan (Glavvodkhoz hiSKh USSR) and G.V. Abe- lishvili (GruzNIIGiM) and Doctor of Technical Sciences N.P. Chebotarev (Kiyev GUI). In the section of hydro-technical constructions 16 reports were read. Professor K.Y. Popov (MIIVKh) eulogized the late Professor V.V. Podarev. Reports concerning irrigation structures, automation and mechaniza.. ti.on of irrigation systems, etc., were made bys Dotsents M.V. Korovehinakiy (MIIVKh)r A-N. Ivanov (MIIVKh), I.A. Vasillyeva (MIIVKb)g Candidate of Technical Sciences S.G. Melik-Subarovq Engineer V.A. Andreyev (Sredazgiprovodkhlo- pok)p Assistant S.A. Bryzgalov. Other reports in this section were read bys Candidates of Technical Sciences Z.N. Guzov (Kiyov GMI) and T.I. Areflyeva (MIIVKh), Professor L.M. Emellyanov and Dotsent S.V* Vinogradov (MIIVKh)g Dot- sent G.I. Kolyayev (Kiyev GMI), and Engineers V.S. Misenev Card 3/4 (MIIVKh) and V.G. Sokolovskiy (LatNIIM). In the seetion  99--58-5-8/10 Anniversary Scientific Conference of the Moscow Institute of Engineers of Hydraulic Engineering imeni V.R. Filiams AVAILABLE: Card 4/4 of utilization of water energy, of piimping stationsp hydro, mechanics and hydraulic engineering 19 reports were read. Professor M.P. Poyarkov ()&IIVICh), Doctor of Technical Sciences Ya.N. Flekser, Dotsent Kovaleiiko reported on achievements in rural electrification,~ exploitation of hydro-electric stations. Professor N.P. Chebotarev and Candidate of Technical Sciences F.T. Markovskiy (Kiyev GMI) reported on calculations of hydraulic power projecting. On problems of projecting and exploitation of pumping stationag reports were read by% Professor M.M. Florinskiy, Dotsents A.A. Tret"yakov and M.I. Lyatskiyp and Candidate of Technical Sciencqa N.A. Gretsov (MIIVKh). The questiors -of hydro-mechanice and hydro-dynamios were reported on byt Professors S.S. Byushgene (MIIBKh), F.I. Pikalov (MIIVKh) and G.V. Zheleznyakov, Dotensts V.P. Pilatovskiy, M.V. Xorovchinskiy, G.T. Dmitriyevo V.11. Kazakov) Engineer I.C., Kobernik and O.M. Ayvazyan (MIIVKh). Library of Congress 1, Conferences-Hydra-alic Enginearing-Kriscow 2. Irrigation qfstems- USSR 3. Water Bupp3-ie-s.--USSR Drainage-USSR 5. Aluriculture- USSR  YEGOROYS VOL; FEYGIN, Z.S.; SAKHAROV, V.A. Application of ultrasonic waves In the clea~lng Gf the waste catcher tubes of apinning machinery,. Tekst. prcen. 25 no,5:32- 34 My 165- . (MIRA l8t 5) 1. Nachallnik Bazovoy laboratorii ul'trazvukovoy i elektra- erozionnoy obrabotki materialov Soveta, narodnogo khozya-istva BSSR (for Tegorov), 2. Starshiy, inzh. Bazoroy laboratorii ul'trezvukovoy i elektroorozionnoy obrabotki materialov Soveta narodnoge) khozyaystva BSSR (for Feygin). 3. Nachallnik pryadilinogo teekha Minskogo kamvollnogo kombinata (for Sakharovf' ~1 7  81822 S/12 B, 3YE60 OO0/07/OD: 013 9 234 AUTHORS: Fridman, Ya B Doctor of Technical Sciences, Profezisorl, and Tegorov,-T'I., Engineer TITLE: The Effect ot Wor -Hardening on the Tendency to Failare due to Thermal Fatiguej VV PERIODICAL: Metallovedeniye i termicheskaya obrabotka metallov, 1960, No. ?, pp. 27-30 TEXT: The object of the present investigation was to study tbe effect of cyclic temperature variation on the mechanical prope:7ties of work-hardened and annealed austenitie steel lKhl8N9TAlconta.Lning 0.1% C9 1.1% Mnl 20% Cr, 11% Ni7 0.97% Ti, O.Olc)% S, and 0.014,~G P. The experiments were'carried out'6n test pieces 6 mm. diameter which, after quenching from 110000, were subjected to cyclic temperat,ire changes, both in the as-quenched (annealed) condition and after a preliminary plastic deformation (in tension) of 5 and 20%. Th-B duration of each cycle was 9 min, 7 min being allowed for the specimen to reach the upper temperature limit (600, 720, or 860C) and 2 min to cool down to room temperature by quenching in wat,'ar, After a number (up to 700) of such cyclic temperature variatic'ns, Card 1/4  81K1 S/129/60/000/07/006/0L3 E193/E235 The Effect of Work-Hardejaing on the Tendency to Failure due to Thermal Fatigue the true tensile strength SX, U.T.S. (a ), and the reduction of area, cp, of the specimens were determined. ~o check whether the observed changes in the mechanical properties of the investigated material were not produced by heating the material to high temperature alone, several specimens were held at 7200C for periods equal to thot-,e during which the corresponding specimens, subjected to cyclic temperature variation, stayed at this temperature, after whic*A-1 their mechanical properties were also 4etermined. Finally, the effect of the cyclic temperature variation on the notch sensitivity of t;he investigated steel was studied on specimens in which holes 1.?' .> mm diameter had been drilled prior to the experiments. Several conclusions were reached. (1)'Cyclic temperature variation lowers the strength and ductility of both annealed and work-hardened austenitic steel to the extent which depends on the upper temperature limit of ttLe heating/cooling cycles and the number of cycles, (2) The observed reduction in strength and ductility is due to the action of Card 2/4  81821 8/129/60/000/07/006/013 E193/E235 The Effect of Work-Hardening on the Tendency to Failure due to Thermal Fatigue stresses set up in the material during cyclic heating and coolLng. Prolonged heating at temperatures employed in the course of tha present investigation has no harmful effect on the properties of the steel studied. (b Preliminary plastic deformation has no significant effect on the sensitivity of steel lKhl8N9T to cyclic temperature variation when the number of the heating/cooling cycles is relatively small. However, when a certain critical number of cycles, which depends on the upper temperature limit, is exceeded, strength and ductility of work-hardened steel decrease more rapidly than those of the annealed material. (4) The harmful effect of preliminary plastic deformation is apparently not removed by the processes of recovery and recrystallization which must take p'Aace when the specimens are heated. (5) The presence of stress risers in the specimens of steel lKhl8N9T, subjected to cyclic tempeiature variation between 800 and 200C, results in a sharp decrease ii. their Card 3/4  81821 S/129/60/000/07/006/011*-; E193/E235 The Effect of Work-Hardening on the Tendency to Failure due to -L Thermal Fatigue strength. There are 5 figures and 7 references; 5 Soviet and 2 English. ASSOCIATION: Moskovskiy,inzhenergo-fizicheskiy institut (The Moscow Institute of Physics and Technology)* *[Annotation: Correctly Moscow Engineering-Eh ,ysical Instituie] Card 4/4  leo S/O 3's 26/04/2,11046 B0107BOO~O AUTHORS: Fridman, Ya.B., Sobolev, N.D., Yegorovq V.I. TITLE: Thermal Fatigue Tests Under Conditions of Pure Shearing Streiises PERIODICAL: Zavodskaya laberatoriya, 1960, Vol. 26, No. 4, Pp- 467-472 TFAT; Qiving several examples, the state of stress in workpieces subject'id to oyclio temperature variations is discussed. It i a pointed out that all st!~tes of stress and deformation (monoaxialt biaxial, tri&Xial) can occur under ';he influence of temperatures realized'under practical conditions, It would therefore be necessary to lay down the technical theory of strongthp sinc4 the behavior of material in an arbitrary state of stress can, according to th) well known criterion of strength, be determined from the test results of A aimple state of stress. First.-experiments in this direction were made by V.No Kuznetsov (Ref. 2) and L. Coffin (Ref,. 3). Kuzneteov regarded the d4.:. formation energy as criterion of,strength. As the results obtained by theitwo investigators are in good agreem~ntq It may be assumed that the deformati!)n t4nergy can be regarded as criterion of strength. In the present publioati.162 a Card 1/2  Thermal Fatigue Tests Under Conditions of S/032/60/026/04/2*'/046 Pure Shearing Stresses B010/B006 method for testing thermal fatigue under pulsating torsion is described, in which an alternating state of pure shearing stress occurs. The fact that the extreme deformation values correspond to the extreme values of test temperatures 11aa taken into account when working out the test methodp and a corresponding leating apparatus (Fig. 3, scheme) was designed, The amplitude of the torsion ang:16 of the sample can be varied within a wide range. Specimen heating is offected by passing a current through, while the coolant flows through the specimen via an electromagnetic EMK valve, An EPV-Ollqpotentiometer is used to control the heating-cooling cycle. Tests were carried out using special thin-walled tube specimens (Fig. 5) made of.refractory alloys. Temperature cycles of 6300--:700 and various mechanical deformation amplitudes were applied. From test results bbtained, the fatigue curves were plotted in the semilogarithmic coordinates "deformation change - number of stress cycles up to destruction" (Fig. 7)~ A publication by S.V. Sorensen and P.I. Kotov is mentioned in the present peiper. There are 8 figures and 4 references, 3 of which are Soviet. ASSOCIATION: Moskovskiy inzhonerno-fizioheakiy institut (Moscow Institute of Engineering and Physics) 'Card 2/2  BO*5/BO64 AUTHORS: Frldm%np Ya. B. Yegoroy,__ V,_ L TITLE: InfluerAn.A of the Yielding of th cad I aDeTice on the 0 ~-~41 Prc~,~e6u cf D-itcrma*-Ion and Dostradtion of M%ttirl.,05 1~0 PErjjODTCAL: Zavodfikay;A laboratorlya, 1960, Vol. 26, No. 8, pp 980 -984 TEXT: The process of the extension of oracks In some materials was in., itt -raryirg y-i-31dirg cf th-9 loading devi:~-* In c(:r,3id-,T,at!Cn i7~0' To Ke -4pricial devices- (Fig.. *) vas d~- qhl,.h ;%Ilona stafio bendjMlests with simultaneous V/ q-'ItGxk of the orkzk formation, The tests were carriqd out at a yi-Iid-__ -as -.1.c;Ldfng devLc-o. of 6e,Ao-3* m/kg and 31-10-3 mm/kg. Nctrn-~d -!L-:11 ~If G-.-ientsd crgaal,: glasstC- W411 as of Metal alloys' ~il ;tlu B 9~'. ~V 95) ind A 1-6 -(D 16) were oraminede 'The Isate madi v!.'rh.-Prgar,!: glass showed that the effect of the yi.f3lding of the loadlng dev-ioa v n n breaki-og load depends on the diameter of the notah (Table)..The reault!i -3 ~ 1 -1 Ili t6O-Ire; MA~Ii6 -"Y'S alsit bhcvid th-l' 'he y"U'AlAg rf  inflnonoe of the Yielding of the Lcading Device.on the Projeei of Deformation and Dsotraction of Materials B015/BO64 loading device exertod an Inflasnas upon the.diagrain of static bena!r-k of the spoolmen. "Tuie iAfltt9uc.9 Is greatsr in the V 95. alloy(Fig- .4)- , V. RID R-agal I is' mentioned La the paper. A paper by B. V. Perov and V 'Oudimoy (fief-.13) is referred to iA oonnection, with I me MID the phy&l~al and M~;,hantnal pzopertleo of orgqulo glass# There Rre 4 figureat I ~ablo, and 14 raftrat.oas: 12 Soviet and 2 German, ASSOCI&TIOIN: Moskovokiy inzhenerno-fiz1che*kiy Inatitut Physics and Engineering 1neititute) Card 212  "3740 8/089J61/010/006/005/011 B136/B201 AUTHORSs Fridman. Ta. B., Sobolev, K. D., Borisov, 3, V. 1~~Ov Ve let Konoplenko, Vo'p,, MOrOzov, To. M. Shapovalov, L.A* &W Shorr, B. F. Some problems of thermal strength in reactor construction TITM PERIODICALt. Atomnaya energiya, v. 10, no. 6,,1961, 606 - 61g TEXTs The.general idea of the failure of-thermal strength includes two types.of fractures the gradual.(aubaritioal) fracture as a consequencei of.an extreme deformation or of a great number-of cracks ;)r of large-eized cracks; causes and manifestations of those fractures are dinoussed, and. the loss of-elastic or plastio,strongth on the,passage through the critic- al state. Either type.of.fraoture may be brought about.by four causes of stresBt 1, mechan1cal.or thermal shosik.stresses; 2p brief.statio loads :for some minutes or hours; 3,-static loade.for-some,months or yearej 41 periodic loads. Fig. 1 presents examples in the variation of elastic E,nd plastic conditions in a tube, and a fictitious elastic tension to shown to arise In the plastic zone (dashed line), while the forms of mechanical Card 1  23740 S/089/61/010/006/005/011 Some problems of thermal strength ... B136/B201 and thermal stress are intercompared,in Fig. 4. Creep arises In nonuni- formly heated structural elements, and cracks appear as a consequence of plasti.6 deformation, particularly with materials having a low plasti-aity at room temperature. For calculating the creeping process the aasumption is made on the basis of the creep theory that there is a functional ' relationship between the rate of ornep vi, the instantaneous stressfK. I the temperature T, th a timeT, and the plastic deformation P, namely, IF =IF Here, ~V dT; IF ',"; -1 a (G, T); P*-f*(6'i,T). Th~ thermal I. ij 10, P 0 9 X fatigue fracture has much in common with the mechanical one. It OlLn be therefore datermined,from the known mechanical properties of a material... re' 5 4 ho as, however, the thermal fracture appears already after 10 -10 OyClen, W the mechanical, Ione talces 107_108 cycles to appear.. .1 characteristic f ev.ture of thethermil fracture is the local deformation in zones with a particulvrly .1&rgo temperature difference also in homogeneous fields of stress. Thin is also,related to the appearance of high microstressoe (Table 3)- For au4den thermal shocks the temperature jump giving rise to a brittle fracture mcy Card 2/M 4,  23740 S/089/61/010/006/005/011 Some problems of thermal strength ... B136/B201 be estimated by an equation. Of importance in the practice, however, is ~.the creep ohm-. !iter and the durability of the material under combined mechanical and.nonateady thermal loads. Experimental results are illu- strated in Fig. 9, where the -curves of variation of length-versus-time (scale 400:1) are compared with the cyclic temperature curve Il and the thermal and elastic deformation III. As opposed to combined stress con- dition8, in which the strain-stress characteristic concerned in worsened .with increased temperatures, stresses in case of a purely thermal stress are of a thermal origin and lead to bulging of structural elements in the hot zones, without, hownver, causing their breakdown. The micromechanic- al properties were checked in two ways. The principle of the second is illustrated in Pig. 1~, while the results of the former - for static. elongations and at 1400 - 1500 00 in vacuum or in a controlled atmosphere, are presented in Fig. 12. In Fig. 13, 1 denotes the sample wi,th a cross section of 2X I or 3 X I mm, that is placed in a groove milled out from block 2. The pressure is yielded by stamp 3 made of tungsten briquettes 4. The resulting breakdown in indicated over contact 7. There are 13 figures, 3 tables, and 39 referencess 27 Soviet-bloo and 12 non-Soviet- bloc. The three most recent references to English-language publications Card 3/~ N". A'  1~ 006/005/011 S/089 61/~ Po Some problems of thermal strength ... B136/B201 read as followet Fracture, New York, Wiley and Sons, 19591 E. Sternbery, I. Chakravorty, Quart. Appl. Math., 17j no. 2t 205 (1959); E. Glenny at al. J. Inst. Metals, May (1959)- SUBMITTEDs September 19, 1960 kit, IA)gend to Fig. 1: Distribution of axial stresses and enlargement of the plastic zone in a thick- walled tube with various temperature jumps: r radius of an arbitrary point; a Inner radius Card 419,  S/659/62/0091000/011/030 1003/1203 AUTHORS, Yegorov, V. 1. and Sobolev, N.D. TITLE: Investigation of the resistance to thermal fatigue under various conditions of stress SOURCE: Akademiya nauk SSSR. Institut mctaflurgii, Issledovaniya po zharoprochnym splavarn v. 9. 1962. Materialy Nauchnoy sessii po zharoprochnym splavant (1961 g.), 81-88 TEXT-. Failures caused by thermal fatigue are of great importance in the construction of airplanes, rockets and thermonuclear installations. Thin-wallcd tubes of 314-888 (E1-888) austenitic and W-852 (ET-852) steth were investigated for a temperature range from 650* to 250'C. The samples were heated by an electric current and cooled by a stream of air. The duration of one cycle was 30 sec. Heating by an electric current incrcaies the sensitivity of the test because it causes overheating of the defective spots and therefore the failure of Cie sample takes place soon after the first crack occurs. In the discussion, Nikitina L. P. expressed the opinion that the heating-cooling cycles were too short, and that it may be necessary to keep the materials for a more prolonged time at the elevated temperatures for a truer evaluation of the thermal fatigue resistance, K I Kononchuk pointed out that it is not exactly clear what the authors mean by a failure, whether it is C'ic oCcurence of a crack or a breaking-up of the sample. Fle also sees no way of using the rcsults of this inv-s- figation so as to include an evaluation of the strength of materials under different combinations of stresses There are 3 figures and I table. Card 1/1  41~05 8/032j62/028/010/007/Oki 9 B I 17JBI 86 AUTHORSt Sobolev2 V. D.0 and PT-rov, V- I. TITLEs Methods of testing thermal fatigue in the case of uniax!ial stress PERIODICAL: Zavodskaya laboratoriya, v. 28p nosi.10, 1962, 1238 1242 TEXTi Testing methods were developed withallowance for the conditf :on that the rates of mechanical deformation may be both smaller and grkiater than those of thermal deformation. Firstp if the mechanical deform-.tion is equal to or smaller than the thermal deformation# a testing mach!.ne is used which is similar to that employed in tebte with variable load rigidity (S. V. Serensen and P. I. Kotov. ~avodskaya laboratoriya, XXV, 10 (1959))- "Softer" load conditions with the mechanical deformat -:ou less than the thermal deformation are obtained by a free play between Vle sample and the clamping bolt or by using elastic elements (calibrated Bel!.eville springs). Although the kind of deformation is different owing to the two types-of load involved it does not affect the endurance of the sariple before cracking. Evaluation of the total endurance indicates tha-41 load ard 1/3 M. 'N Pl ME -M RM, 7  Methods of testing thermal.*. S/032/62/028/010/007/OC") B117/B186 rigidity is easier to vary with the free play. Similar conditions were observed for meohanical fatigue (R. Do Vagapov and Ta. B. Fridman. Zavodskaya laboratoriyal XXVII, 2t 183 (1961)). Secondly, if the mechanical deformation is stronger than the thermal deformation, fatigue is tested with a tensile-and-compression-testing machine. The sampl-:-s are subjected to an additional pressure while being heated and to additional elongation while being cooled. Thermal and mechanical cycles were programmed only for the basic conditions of thermal fatigues that oxtreme values of 'deformation correspond to extreme temperatures. Under ac'~ual condition for the great variety of temperature and deformation variations per cycle, a special follow-up system has to be used in programming. The methods proposed here were used to set up fatigue curves for a wide range of stress-strain variations (200 - 10,000 cycles) under equal thermal. conditions (650.=~25000 for the steel grades 90852 (EI852) and _N888 (EI888). The results were comparable to those obtained by determining the fatigue of a material at a constant temperature or in other states of stress within the same temperature range (Ya. B, Fridmant 9. Do Sobolev and V. I. Yegorov. Zavodskaya laboratoriya, XXVI, 4P 467 (1960)). There are- 5 figures, Card 2/3  Methods of t' latiRg thermal ... Iss B1032 621028101010 OCIAT101j, Moskovskiy Inzhenerno BI 1791,186 07/009 B491neering I-flzicheskjX lustitut AstItute .(Moaoow Card 313