SCIENTIFIC ABSTRACT ZHUKOVSKIY, V.V. - ZHULAYEV, R.ZH.

 if. .. 1- 11 1. 1 - - ~~ I., , 1. 1   Sol IJILLLL,Lt-i~L L-. lill- I U I Ili U! ILff:HI.UlA' L-1a a9 i I '-j 10 L-R-A LLI u A AT I IMzil 73 jI Ii !TI -111 L-I I fl" f V 11 -,l I I I Ail 1~11 v 21 Vj  M246--b7 ACC NR P6630708 U1110368166/005 002 0133/007 A SOURCE CODE AUTHOR-.' Burakov, V. S. Zhukovskiy. V. Naurnenkov, P~ A.; Yank~o~rskix, A. A ~,ORGt none MTLE: Investigation of atomic absorption spectra of an eilectricAischark with radiative and absorptive layers separate in space -.SOURCE: Zhurnal prikladnoy spektroskopti, v. 5, no. 1966; 133-137 -T 0 AGS: atomic spectrum, absorption spectrum, pulse discharge, a p~ect~al. line, oscillation strength -describedfor obtaining atomic absor ABSTRACI r:. A simple method Is PtIoA 006tra wiAtj!ihe`a1d of pdlse dischargip'. Possibilities are analyzed forTractical applica- ti n& of the results in ovectral analysis and. for determining the .relative oscillator stTen'g'ths of *znultfplet lines. Orig. art. has 2 figures and 1 table. (Based on authors" abstract) INTI SUB CODE: 03/ SUBM DATE: 27Aug65/ ORIG REF: ~0091 OTH REP:; 004 Card 1-A hs UDC: 535.34  L 29679-66. ACQ NE: Ap6o 12832 SOURCE CODE: U103613166100410041 12 AUT1,10P I MAUVAWL L* P6 D~~Ov ~V, do zhvkevaL~ V, IV 6,) Kopmd)4 Ya X -K ORG: none &3 TITIE: Investigation bf losses in a reson4tor with non-paa-&Ilel bazes SOURCE: ZhurrAl prikladnoy spektroskopii 4 no. 4 ~i966, kM-3L*- V TOPIC TAGS: neodymium glassy solid state laser,, laser c4Y#r., luar opticig., laser r and dp laser energy, ABSTRACT: In view of the fact that the radiation-power,losses of a laser 'depend et greatly on the adjustment of the resonator'mirrors.. the authors ano.4" d ail era on both theoretically and experimentaL y., the dependence of ~~tbe laser pari6k the angle between the mirrors. The theoretical analysisjszade in the ge~ometric-j optics approximation and is based on a calculation of laser resonator losses pub- lished by B; 10 Stepanov and Vo P. Gribovskiy (UFN v. 82p~ 201, ~ 1964). A: I is derived for the loss coefficient of the mode with the:'Isa-geat number of pu- sages of the beam.,.and is used to calculate the loss coefficient of a neodymi*a- glass laser. 7he results if the calculation were cbecked'expaT1Yaemta23,y for three, samples of neodytium-glassAtith different diameters and different surface:finishesp Card :42 uDd: 621-375.9  .I All 111 :1 Il 11 IlUi 1 1, 111:1 11 1 111- - , I  L _00224)2 A C C N R ~ AZ23 Uad Cor I U U AUTHORI Shumitskay~j L. F.1 Gogelashvilip V. K.; huh!rk!Z V.j,.1 SvidzUok 1A. ORGs Ordzhonikidze Plant 6f Container Glassware and Mass Xnvu]Ators (Orft6nulow~ Gkiy steklotarno-isolystorrWy savod) TITIZS Production of glasses stable to the action of alkali martigi vapors -SOURCES Steklo, i keramikag no. ?y.19661ll-14 TOPIC TAGSI borate glassj, aluminophosphate glasep sodiump,~cesiun ABSTRAOTS As a result of studienef aluninoborate and aluidn6boiophois ha 678- j temsp carried out at NIIESq 550-1 klasses stable to.the acEion of casiin vapor W 'to urk vapor were S50-2 g3Aases stable _15~ ZaMon of sodi da~olcpod. The fouzidinj and processing technology worked out by NIIES has boon used at ~ the OWshonikifto Plant since 1963. Phyvicochemical and other:.properties of 350-1 and 350 ,-2 glassesare re- ~i viewed. The furnaces used for founding the glasses and th ache&a a emplq~od are do~cribed. The adoption of production of glasses rosifft= to n3lkau metal ~vapers has permitted the Moscow Electric law Plant (Mookovskiy olektrolsimp, ravod)'t* am- f abture highly-e-co-n-6 ~c sow um vapor IllurAnation lamps and sodium &M oesium-vapor spootral lamps Orig. art. has 1 4 figures and 2:tablss. SUB CODES 11/ SUBM DAT61 none/ ORIG HUI 001 -1 Car~--I/JL~a6_ Ms 666. 117.4  ACC NRs AR6028132 SOURCE CODE: L;R/oo58/66/0oo/oo5/r)O33/D034 Zhukovskiy, V. V.. NaumenkoV. P. A-*,,YaiAovak1y, A -A. AUTHOR: Burakov. V. TITM. Investigation of atomic absorption spectra of an electric, discharge viW spatially separated emitting and "sorbing layers SOURCE: Ref. zh. Mika, Abe. 5D235 REF. SOURCE: Tr. !~cmi sL,~kt~~s~!~p iAll 1~q 11'. v. 2, v" 1, 1961t, 478-483 TbPIC TAGS: abs;)xption spectrum, atomic spectrum, electric.discbarge, gas discharge spectrosocopy ABSTRACT: A method is proposed for obtaining,atomic ba rotion _sjiectr4.,._1tased on the spatial separation of the same electric discharge'into abporbing ~nd emitting layers. Unlike the existing methods of atomic absorption analysin, the proposed method en- sures the production of atomic absorption linen vith high ezeitation energy4 A study is made of tbe influence' of the discharge. parameters and of the mlithod of IntroWing the substance iv the discharge on the character of the spectrum. 'The possibility in discussed of usl.ig the obtained discharge to measure the relatiTe'probabilities or the transitions and solve analytic problems. (Translation of Ab13traCt] SUB CODE: 20 I Ca.-d I /I net    I 1 -1 : `1- 0" 1 *1 It I I I1 11 11 1- -, . ~ -1 - I .~ . - , -I CHUKHNOI A.A.; KOZLOV, G.A.j KASHCHENKO, A.I.; JIGAIIBD~IAN, A.G.; VOLKOVY Ya.L4,1 IIAGOH?IYY, A.F.; TSMOLCOI N.A.1 KOVALF',VA M.F.1 PAVLOV, P.M.; ATLAS, M.S.; KATS, A.I.; ?IAR.OVLYANTdIY, 111,G.; ANCHISHKIN I.A.1 SPIRIDONOVA, N.S.; KRONROD~ Ya.A.; SULIMOV I.Ai; BREGSLI t E Ya.; ROZENMAN, Te.S.; VARTANYAN, ~.A.;-IIOVIKOV, V.A.; gATOVSKIY, L.M. Structure and content of the course on the economics of socialism' Vop. ekon. no.607-143 Js 162. (mmk 15:6) 1. Klyevskiy gooudarstvennyy universitet (for Chu!4hno). 2.Vy6shaya partiynaya shkola pri,TSentrallnom komitete Komiiudisticheskoy~;partii Sovetskogo, Soyuza (for KozIov, Volkov, ZhukovukJ.y).. 3. Yaroslavskiy goeudarstvennry pedagogicheakiy institut (for Kashchonko, N&rovlyan- skiy, Sulimov). 4. Institut ekonomiki i organizatsii promyshlennogo proizvodstva Sibirskago otdeleniya AN SSSR (for Aganbegyan), , 5. Institut povysheniya kvalifikataii prepodavateley obshchestvennykh nauk pri Kiyevskom gosudarstvennom universitete (for Nagornyy). 6. Moskovskiy gosudarstvennvy,universitet (for TSagolov, Spirldonova). 7'. Akademiya obshchestvennvkh nauk pri. TSentrallnom, komitete Kauau- nisticheskoy partii Sovetskogo Soyuza (for,Kovaleva). 8. Leningradskiy, finansovo-ekonomicheskiy institut (for Favl6v). 9. Ifookovskiy finansorjy institut (for At1no). 10. Naimbno-issledovatel"r-kiy institut truda (for Kats). 11, Institut ekonomLki A11 SSSR (for Anchishkin, Kronrod). 12. Mookovskiy ekonomiko-statisticheakiy institut (for Bregell). 13. Moskovskiy energetioliesIdy inatitut. (ConUnui--d on next card)  w     M_ AM ACC Nk, AP601(32T3 DIAAP SOURdE CODE: URM-01/650000/oo-1/004 /6046 AUTHOR: -~~S_ullkin_ -A 31 OM ':.nohe New y-flaw e TITL d tiet: no SOURCE: Defektoskopi j! ya t ..-nondestructive es Lig nondestructive: -.qua ity, i*t-o L j!_ f laii det 0 VOPIC, TAGSi I gamma-flav detector -ABSTRACT -The satirftictory--perfot-mancie::ot-'Soviet kets:IJ itibmarimea types of air'craft, and thousands of kilometers~bf ins' be gas, ma nai e pass -for. the most-part-by -extensiveluse-of.iiiondestr~~ti~e testI11gjjo*th61 Amon$ ithie a ed on, ldh ulorly, nondestructive-testing methods, those b:s the; se of partlic significant. The y-flaw detectors arel'imple,:Teliable', mob.5 dad compact They can- be~:used: under- ,fie5;& ibno_- !60 C alt -6ndit Pmd- In comOsl;edl Wri-ao. - cesium-137,~ iridiuili-1�2 thulium-470.; land :sel6nium-75 V1013 i~ e d sourm. "id I 'Fli 'oil of Y-radiation. The Council flot 1 Wituml Absist c6''of Soc i a the general-purpose y-flaw detectors, RID, ntio,three classen;:emch r c Al range of material thicknesses. E '1148 divided Into txpes w.-covding totthe, .--size of -the _r&diat1:on--.8oUrce-- (see latile l-) .-:,- The- Aw, ie"m Qni~wn Is a 10adegAn- - th aA; e development aftd.amnufactur of y-flair de t!eetor 6 ii, exist1bg type -:L79' -T 620. .159 V, Cwd 1/3 ~m Md.  I I II 11 F"II i1.11 F"I11 '1 r1 i ii1411111 .11111j111. 1 1 L .21844-66 ?~M NRI. AP010271_ Table 1. Gai=a-f! aw'deteciors Thit 'Oss, ~'Jipoa~~:~qn 'Radiation Designation -Class Type :souice g4, ql~~ I Steel! Li t huoys RIDe-ll: 1 1-15; ii 5J.4450 ~2 i"15, 5~~150 RID-12 c;0 ~400 RM-21 C -RID-22- 2 Ce: siu~n437' i0- 50j4dd '86 H 11 60 60-206! Cbba~ RID-31~ 3 aA46 66' pddj Cob RID-32 3 2 LRID-~331 3 60'% C alt, ~d 3 lete i ad is the 6.ase . th t I-or th se flaw detectors are eithef,obs.o e ~AUP.Ai e Mosr; f e nc., Wa~d` Ltectors-supplied by the enigen','Plant _V*ppbd "t ~!n tj or , area t ~61. n. -source -as 'With the GD detecit-ors made .,by-,the':.Vxj)erj s, Inent e entlY the,A11 n. n: Riga es Of E6 itl*e, i, J19 bas d0v C-lo -Union h. Insf.4 tut Only r c eard e with. directives of the ottlulle, T_r Ad -.j. 1 0 MututC several flaw detectors in accordance The first one tole lot -prodUcei~:. ill the RID-219; inte ded ance of Socialist Countries. -a -ory to fil Id. 101'a detect ~for use under.wid ely varying conditions from labol f used for st and light "r can be eel -alloy - s e a -'rith re0ect UP' .60-and 120 mm. ction -Two other W'dif LCMUOns Of this dt ector ate 1card, -:41 -1 4_,~"  66 t P-1 ACC NRs AP6010273 : jl:~40d r t e RM-33o 0( ai Ill lthe ei e- pip in welds s o , c 6 Two dpt And cortarete structiike . deisigwstage~, ~fi gurds,a,n art. hoLs 6 -:13/ '~VB CbDE: DAm. ohgoiW;!.~ AID' VRESS4. .sum "ViT, ~ , 3 Ia, t A d 4rd 4 f  ZHUXOVSXIY To,G,, student 5-go,kurea Automatic control system for brakes of multiple-unit train sec-~ tions, Trudy XIIT no�M:92-IM 1600 (MIRA 13 - 7 1. Kekhanlcheek4 fakul',Vet.Noskovskago-inii.tAtuta ii%*henerov shelesnodoroshnogo transportao. (Railroads-Brakes), (Automatic control).   A-11VIAUV 4 oil [I IC7-1 FAZUKRIN, T413114 Alekoawlrovich; FISM, Aleksaadr Takairlevich.- KRESTOVNIKOV, A.U., professor, doktor, retsenvent; XZYMSOUO: G.Aj, profeosor,,'doktor, rat $0n2 ant -,.=OYSXIT, Tools& professor# doMorl rotsonlent; MISHI- KOT, M.I.,P 6-aUa-f'T-vtSMc9;kikh nauk,, retsanzent; SAXSOXOT,~,~O-Y.$ kandidat tekhnitheskika nauk, rateenzent; MHOCIMMKOV, S.I.P Imudidst tekhaicheakikh nauk, retsenzent; SAMSCYOV, G.Y,., re4aktor; AMMANMMI- BliYA, H.S., redaktor lzdatelletva; MLOV, A.P., tuMnichaskir',rodaktor [Vacuum in metallurgy] Vakuum v metallurgils lloskva~, Goes nauabno-; tekhn, izd-vo lit-ry po chernoi i tsvetnoi. metallurgii,1956 520 (Vacuum) (Ketallurgy) 9:123  Ililt ZHUKOVSKIY,, Ye.l,., prof.; MUM, ASLIP, prof.; WORTGOV. S.1., dots.~ Concerning the review of the book by, T.A. Hazel' 'Ailumina production#*' T*8t. met- 30 no.1102~9 157. Oaak losim) 1. Zaveduvushchly kafedroy "Hetallurglyn legkiWwtailloy" Severo'- Ka,7kazakogo gorno-motallurgichookogo lust Ltiata ~ (for Zhukovskiy).: 2. Ea- vedurmhchiy kafedroy "Metallurgtya legkikh metallovl!i Mookovskogo in- atitnta tevetnykh metalloy i zolota im. M.I., ralinina* (for m3lyayev). 3. Zaveduyushchiy kafedroy "Metallurgiya legkikh mot4llov" Urallskogo politekhnicheskogo inatituts. Im. SK. Kirova (for Kutneteov). (Alumina) (Kazel% V.A.)  AUTHOR: Zhukovskiy -58 , I SOV/149 -4-24/26, TITLE; Aluminium Works Years of the Dnepr (Dvadt8atipyati'..etiye Dneprovskogo alyuminiyelvogo zlaivocta) PERIODICA.L:,Izvestiya Vyi3shikh Uchebnykh..--Zavedeniy Tsvetnaya Metallurgi7a, 1958, Nr:4,'..~p~.11#~---180.(Ussk) ABSTRACT: When, soon after-the enakpf World%,.War I, plans were made for the establishment'&f. an.aiuminium industry, in the USSR, the task facing tIIRussian metallurgists, was, -a difficult one,,Bince the onj.~, bauxite ore deposi ,t,s ]mown at that time (i.e. the Tildivin deposits discovered'in 1916) were of such low grade that in,!the opinion of foreign experts they were not worth'Oxploiting. However, already in 1915 a method of producing~ pure alumina:from 'high silica content ores was patented by the present , author who had developed it working in ooop6ration with' Professor,A. N. Kuznetsov,. (A similar.method, known as the Pedersen process, was patented abroad at a much later date and-is still being used in Norway, at the HoyaAger. plant).' The laboratory trials of the new,,electro-thermic process were completed in 1928 and gave ao,promising Card 1/3 results that In the same year a special development plant,  Will alin ]111111111111111 it] . . . . . . . ............ 25 Years of the Dnepr Altninium, Works 8OV/149-58-4-24/26 was constructed at the Tsaritsin Works . here: standard quality alumina was produced in 1929. IAW At the same timell'i a part of another (Yxasnyy,Vyborzhets), works was converted to serve as a development unit in1which the first batch of metallic aluminium. was produced in 1929. Following the satisfactory completion of the exploratory work a decision to build the Daepr and Volkhov aluminium, combines was made in 'August $ ;19299 To solve a nulbdr of large scale production problems, a large- development plant was.first built in Leningrad in 1929. The construction work on the Dadpr plant was started in 1930 and the first batch of metallid aluftinium. was produced in January, 1933. During the first years of operation the equipment and the production techniques were continuously improved. The electrolytic cells were enlarged from 25 000 to 35 000 amp capacity and continuous anodes, later adopted in all other aluminium plants, were introduced. The 'Ddepr works was completely destroyed during World War II. In rebuilding it, use was made of all the latest developments in the . Card 2/3 aluminium. production techniques. Later, the manufacturing  r 111 25 Years of the Dnieper Aluminium Wor~s SOV/149-58-4-24/26 process was improved still further by introduction of continuous decomposition of,the aluminate solutions in air agitated CIb6MpCsiti&/qx�S a result of 'which it was possible to make nne process completely.~automatic, Development of a new composition electr.Iolyte made it possible to obtain higher yield per power unit, to' increase the current density and yet t6.minimise the power losses by reducing the number of undesirable anode effects. Card 3/3   ii i Fir w,i i-i p; viv ZHUKOVSKIY, Yevgeniy Favlovich; BADMI, red.; OROLTIOVA., ------- ti.l . ~j_ ere~ d . (produce Jmexpensive.pork] Proizvodit' deahevuiu vvininu. Moskva, Selikhozizdat,, 1963. 86 p. (14IRA ila)  j, 1 11 H, ---- ------ ZRIKOV31"rl", Lion d thc 4~-,Utrltl= V,11,u(, of, l"L,,it:Iom amd 'ALt, Con- A sumptior of 1,11tritJon Latori,11r, In tho lnb-irz,-Ivc 'i* al-Lard iloedirij, of *(Dl:m0ra- 'Ellons for -,Ie~,-rces 4n Sclonce and ~afemlcd --it U.5,11 Ughat. ilducati-irial Y S-3 Imsti-tutions) I..osmi Ve~--r-Inar, Acad of tlie l."lul of li; Iu m t -b:m 1,,D SO - l,,njzjir--~La Le&Qol,.s I117-a 25, 1'u Jun 5") For Degree of Candidate in Agriculturil Sciences  1" 11111"If 1: lz: I.- li i    1 r1 I ji I I - I I I I I I SWIRO, Ye.A. XUBTAINORKOVA, A.A.; UrMYLOY, V.D.; KCBIIYAHBKIY, A.L.; XOUONMIN, A.G.; BPSHTATM, RA.; KARPIMMY,~ Y.F.; DAVYDOVA, R.T ; T]~OITSKIY, V.I., redol G0111:0VA, A.A., vedushchiy red,; iiMTOYA1 I,G,g tekhnorado~ [Establishing standards for material oonsumption and atockB:in the Normirovanie rankhoda i petroleum industr7l pr4)i7svod9tvennykh sapaoov osnovnykh materialov v neftianoi promyshlonaosti. Haskya, Goe.nauchno-tekhnoisd-vo neft. i gorno-toplivnoi lit-r7o 1959. 252 P. (Mnu 1~:12) (Petroleum industry--.-Standarde)  BERZON, O.F. inzh.; BUKSHTEYN D.L., inzh.;, KUPEIUWI,,Ya.14. kand. ekon. nauk; RUDVER I.B.,~kand. tekhn.navk- GORBUSHINp F.B.9 red.;-ZHUKOVSKIY, Ye*S.,, nsuchn. red F S.L., red GIROVSM , V. GOLIBERG, T.M., tekhn.red. (Handbook on material and machinery supply fot construction units] Spravochnoe posobia po, materiallno-tekhniche'skolnu snabzheniiu stroitel'iWkh organizateii. Pod obahchei red., P.B.Gorbushina i D.I.Bukshteina. Maskvap Gdastroiiidat, 1963. 607 P. V. IRA 17: 1) 1.,Moscow. Mauchno-issledovatellskiy institutiekono.mAi stroitellstva. 2. Direktor Nauchno-issledovatellskogo insti- tuta ekonomiki stroitelletva i,chlon-korrenl)oiiii()iit,hkademii stroitelletya i arkhitektury (for Gorbughin). 3. Rulkovoditelf. otdela normirovaniya materialliVkh resursov i tsen:na stroi- tellrqe konstruktaii nauchno-issledovatelssk6go JmAituta ekonomiki stroitellstva,(for Bukaht Yza (Construction industry--Manager~ent)   V, AUTHORS Vargin, V.V. 3ft&arov, A.V., ZhukovskiY, relIV., 72-2-14/20 Nyohkej A.A., TITLE.- The "Blektroverel in Switzerland (Zavod "Blektroverr" v Shvey-tearii) FMODMALt Steklo i Keramika, 1958, Nr 2. pp! 33-36 (USSR) ABSTR&OT: The electric continuous glass melting furnace. is iooatea.on the second floor of the building and in used for the.produotion:of plate glass by the Purkeau method. Dimensions iuid.shape are sho,= in fig. 1. At each side oK the furnace theta are 6 eleotrodos.,With a melting skirface of 26 =~ the glass produation.output amounts to 1.2 t per. M4 daily. The composition of the glass Im that usual for the Furkeau process (14,8% sodium oxide). The layer consists of 70% raw material and 30~ sorap glass, andis conveyed mechanics, 'lly to the furnace without interruption. The temperature regime inthe smelting department of the furnace is controlled by mean of a thermocouple (fig- 3). The temperature in this zone amounts to 14100. Fig. ~2 shows the burning of CO in C02 ahove the eleatrodes along the entire width of the furnace. In the case of normal Card 1/2 operation the temperature in- the machine chaitber amounts to  P700 51 14 SOURCE CODI 016 AUTHOR: Gillman, 0. le;'Zhukovakiy, Yee Ye.; Chugunolro, K. ORG. none TITLE: System for setting limit values for parameters of the IV-500 data processing computer SOURCE: Mekhanizatsiya i avtomatizatsiya upravlenlya, ~no 1) 1966.9 15-16 TOPIC TAGS: reoeRt re- core memory, magnetic core storage computer memory.; 0 , n P ABSTRACT: A non-destructive-read-random-access world'-oi!iZanize( core; U scribed. memory designed for the IV-500,data processing coniolter,is de The memory uses magnetic cores separated 4 mm from each other and rod- like permanent magnets in the plane of the cores which.store "01". These.,~ magnets link the flux from the input winding and,output winding sep- and thus break the coupling from input t6 output of the;core. ~whlch stores a logical zero. The information is r *ead by full (400 to ratio. i5OO mamp) current increasing the output signal to-300 ftv,'at a 6/W of 15. The memory has 12 matrix plates with.miniatur,e;connectors to VDC -.'i4? A81 .652.2 Card  I fI ACC NR% Ap-(00,40t)l .facilitate easy interchange in case of,malfunctions. There are twos decoders; one for selecting.the required matrix and one for selecting. the needed word on this matrix. Each 80 x 410-mm matrik board con-: ,tains forty 75-bit words. The maximum memory cycling frequency is 175 kc. Orig. art. has-: 2 figures*, EWA-811 CBDJ SUB CODEt 09/ SUBM DATE::_ hone/. OHIO REP s OTH REF:: 001 Card .2/2   : I -- 'I Al I I I 1 11 11 Im ~. - 1', 1! 1- V, - - , - ~ -     ZHUKOVSKI7 Yu.G. Photometric determination ofarsenic, germalnie, a;jjj ailir4e acids in aqueois solutions by means of molybdate'and dimethyl- diamide of pyrazoline-3,4-dicarboxylic acid# 7hur. anal. khIm. 19 no.11:1361-1365 164. (14IRkj8:2) 1. Leningradskiy sanitarno-giglyonichoskiy meditsinskiy institut.     ; I I I V 11" 1 1 1- 1 11 11 I'll 4; - I I . .. -1 . .  - 'A i-I Am ri 1, v L'I ri ff lpqp if  .... ~li ... J. m. '. , I .1 ~; ~ i; .t.  OPARIN I A.I.) akade7mik; STUDITSKIYj A.1-1,, prof.; NAUMOV, prof.; KOVALISKIY, V.V#; YUROVA, I.L., dotn.;FTXTO1[OV.,G.V., prof.;KAGAPOV, V.M.j-, M1MAN) A.Ye.j dots.; MEDIIEDEV, N.V., prof.; YAKWOV,.V.P., kand. biol. nauk;~, ZHUKOV-VEftEZj=Q j,-U.N..,;..BONDARENKO, P.P., prof.; T MAMTY7I.N., prof.; TRIBUIEVi:G.P., dots.- TSAREGORODTSEV, G.I., dots.; DOBROKHVALOV, ViP41 kahda biol. nauk; YAZDOVSKIY, V.I.., prof.; VIRTOROVA, V,,.:red.,- CRERIZINUH., I.., mlad. red.; ULANOU, L., tekhn.red, (Studies on the dialectic of living naturel'Odherk dia- lektiki zhivoi prirody. ..Moskva, Sotsekgiz., 1063. 527 p. (MIRA , 16: 1,!) 1. Chlen-korrenpond6nt Vsesoyuznoy akademii sellskokho- zyay--tvenrqkh nauk imeni V.I.Lenina (for Kovallsk1y). 2. Deystviteltnyy chlen A1411 SSM (for Zhukov-Verezhnikov).  1. Institut eksperiment.allnoy biologii A14N SSSR, Moijkva.   ~tl WIP - - ; Ili I - . I . . . . ! , ; ~ I . I , ! - . . -! il I It ! . .;,! f.1A " i ~. - ~ j-,~r- . I ; . ., , r I . . . I - -  t'': . 1 1- '!Ul i "'':. , z .. ; I i I  03777_4~7 FSS-2/ENT(IWEEC~0-2,1 ACC NRs AP6028343 SOURCE CODE: UWJ29~166/D04/004/0634/0640 AUTHOR: Zhukov-Verezhnikov N.M.- Mayskiy, I. N.: Delone. N. L.: Rybakov. N. I.0 Koz1ov, V.7k.; Davydov, B. I.; An ipov.-V. V.; gak;onov, P. P.;:Rybakova, K. Dz* Tribulev, G. P. ORG: none TITLE: Biologi I investigations n the Voskhod-l and.Vookhod-2 spaceshi a p SOURCE: Kosmiches e ss e a ya, V. 4i no. 4, 1966 634-640 9s' a e I' 'L L~e J!L~V~s~p =c e f I, z hfilt. TOPIC TAGS: biolo id spacefl g t _*ia., bacteria, 'he at 'seed/ **we d spaceflight M664r~ pdc~~, V Vosk0o~'V,4;Mod 2 4 &L d 2 ABSTRACT., Experiments were performed on the Voskhod-1 atd Vookbod-2 spaceships to test the effects of spaceflight on lysogenic cultures of E. co~IPK-12 (1). The cultures were carried in 1.5-m1 ampules an board spaceships ana:1n-Leonov's spacesuit packet during his EVA. Some of the ampules contained the radipprotectiveArug,0- me reap topropylamine. Controls were kept at the cosmodrome and at the home laboratory. Results showed that on the basis of viability there was no difference between samples carried on Voskhod-1 and the controls. Experiments on V66khod-2 resulted in a slightly high9r viability on the part of experimental cultu,es as compared to con- trolse Pha production of experimental cultures carried on the tvo flights 9 also did Card 1/2 UDC; 6Z9.l96*,621,.57&.A  L 037717-67 ACC NR. AP6028343 not exceed phage production of controls. Thus, it was not possible to demonstrate the protective properties of 0-mercaptopropylamine. An attempt wa Ia made,to determine whether spaceflight sensitized lysogenic cultures of E. coli X-12 (k) to consequent exposure to small doses of x-rays. Results showed that phage production in space- flown samples was almost identical to that of the controls. In addition, air-dried seeds of pine and winter wheat (PPG-186) were carried on VoskhoO-2 and in Leonov's pocket during his EVA for the purpose of determining 04 genetic effects of s-pace- flight factors. Results did not reveal any substantial differences between the two spaceflight-exposed groups of weds and the controls. ItIa assumed that-the:absence, of the effects of spaceflight factors on lysogenic bacteria &td seeds of higher ~plants in these two flights is due to the particular conditions under which these flights took place.~ Orig. art. has: 5 tables., [BM] SUB CODE: 06/ SUBM DATE: 2lApr66/ ORIG REV: 013/ OTH REFi 002/1 ATD PRESS:~ Card 2/2  ACC NR& AT6036563 'SOMCE CODE: tM/0OOO/66)/0D0/000/O172/0173 AUTHOR: Z r k9y Tribulev, G. P.; Rybakov,'No I.; V qzhni -._U. N.; Mayskiy, 1. N Y.-#-Antipov, V. V.; Podoplelov, I.; Dolir--ovp -W. Kozlov, V..A.; Saksonov, P. P.e~ Parfenov,. G. P.; Sharyy,, N. Is ORG: none TITLE. Some results and study of the-biologiaal offect of cosindo trends in the radiation and dynamic flight factors:using midrotiological and cyt~ological mic~dels' [Paper presented at the.Conference on Problems of Space Medicine held in Moscov from 24 to 27 May 1966) SCURCE: Konferentsiya po problemam kosmicheskoy meditsiny,~i966.* Problew kosmicheskoy meditsiny. (Problems of space medicine); materialy konferentaliP Moscow, 1966, 172-173 TOPIC TAGS: manned space flighto space biologic experiment' tissue cultured- lys6genic bacteria, cosmic radiation biologic effect, combined stress/Voskhod-I ABSTRACT: Systems of lysogenic bacteria and single layer cultures of normal.and: cancir cells of man have been used on all spaceflights since the second orbit al spaceship. This report presents the results of investigations performed on 'h' 's',6f the-Vostok and'Voskhod types. Biological experiments spaces 1P .carried out on Vostok-3, -4, -5, and -6 indicate that phage production of lysogenic culuire of B.. coli X-12 inqreases with the duration of 1he .flight. However, a direct linear relationship between tie biological Cnrd i  :ACC NR: AT6036563 ;e,ffect and the time of exposure in space was'*not established. Tite.results obtained make it 'possible to assume that the biological effect in the above :experiments depends on the combined effect of spaceflight factors, and !Specifically vibration, weightlessness, and radiation. Ground experiments have indicated that the sensitivity of a lysogenic increases i el bacteria scystem to gamma irradiation f the bact -ia were (C09 1previously exposed to vibration. These results not only confirm this supposition but make a more differentiated approach to evaluation of various spaceflight factors possible. However, in order to obtain a 'more complete picture of the genetic and radiation hazard of such flights, it is necessary to consider 'data obtained With more highly ;organized biological objects. Consequently, the results of,s.paceflight experiments performed with single-layer culi4res of somatic litiman cells are of definite interest. In the series of experiments carr,ied out on Vostok-1, -2, and -4,it was found that viability, and such indices as the coefficient of proliferation, the percentaie of dead cells, -md the morphological, antigenic, and cultural properties of the tissuest did not differ substantially from controls which were kept at the co.sinodrom: or the laboratory. [-Card 2/3      ; , fW- . , I Ff III!! ii0l, "I : "HIR lil 111:11! IN .1" I -, *1 1 . . . . I 1 :1111, iti! I 1,Ulllllkl. i ll ~Illmlll IMP I.   T i rr IT Ur R Hk i~ :lag I Ui 9 g, i c3 ;t a Ir a ej Lb f mt 1:` 17171177.7  F(T T 17 PHASE I BOOK EXPLOITATION SOV/5628 F Akademiya nauk SSSR. Inatitut biologicheakoy fiziki,'! Roll perekisey I, kisloroda v nachallnykh atadiyakh radiobi6.lo- ;o effekta (?02 gicheskog o of Peroxides and Oxygen!During Pi~ lary Stages of Radiobiological Effects) Aascow, 1960. 157 P. 4,500 , copies printed. Responsible Ed.': A. M. Kazin, Professor; Ed. of FubiishIng1joua0i K. S. Trincher; Tech. Ed.t F. S. Kashina. PURPOSE : This collection'of articles Is intended for scientists in radlobiology and biophysics. COVERAM Reports In the.collection deal with the role of per- oxides and oxygen in the primary stages of a radiobiologleal effect. They were presented and discussed at a * apouim hold Y! December 25-30, 1958, organized by the Institut biotiziki AN SSSR, (Institute of BiophysiosAS USSR). Twenty-elgh t Koscow scientists, radiobiologists, radioohemist.s, physicists, and Card,-1/5- 1' ....... -7- y 7 H:1[~ I A F MINH WRIMIMM.A."Ifl. H. 1.i. I Il l 1 1 EMU 11 1 11~ fl;!- 1:  Role of Peroxides and Or4gen (Cont. physical chemists took an active part In tho symp6aiwn.: Between the,time of its conclusion and tho publication of'the p~emvnt book come of the materinia were expanded, Xn addItion to the authors the following scientists participated In the diisouvnions L. A. Tummerman, V, 5, Tongur)-Cls,,M. Frank Yu, Aoi Krit6ri 9, Ya. Grayovakiy, N. N. Demin, B. N. Tarunov, and 1. V.~Veruzhchanskly. References follow individual articles. TABLE OF CONTENTS: ' ~ :Ltalte of Ins Kuzin, A. M. (Indtitut biologicheokoy fiziki AN SSSR AS USSR]. Role of Formation of Peroxides Durilig the 4Biophysios, . Action of Radiation on BiologIbal Specimens 3: Bakh, N. A. (Institut elektrokhimli AN SSSR Institute ofiElectro- chemistry, AS USSR). Formation of organic Peroxides Undeethe Action of Radiation' Dolini P. 1. [Institute of Bleotrochemistr7, AS UStIll. Mfetline of Intermediate States Arising During the Action of Radiation: on Solutions 20~  Role of Peroxides and,Oxygen (Cont.), Kolomiytoeva, I. K., and A. M. KazinjInstitute of Biophysics AS USSR]. Lipid Peroxides in a Normal and in an Irradiated Animal Organism 26 Kazin, A. Ft., L. 14 BronaXaya N. M. Berizina, and V,.A Yazykova C Insti~a hj~fcs~ AS USSR). Formati6n ;C Peroxides In Gamma-Irradlated Plant Soods q 33 Zhulanova, Z. 1.0 1. A. Kbrovina, and Yo. P. Romantsov. Form- 1r=n-df-Of9Mio Peroxides in an Organism During Irradiati on an an X-Ray Apparatus With a Does Rate of 130 r/aso 43 Zhuraviev, A, 1. Role of Antioxidants!in Primary Radl'obiological ed) rnatitut blokhimii im. A.~ X. Ucha Mikhlin, D, M. (Dooeaa AN SSSR - Institute of Biochemistry Imeni A. N. Bakh,~AS USSR). Effect of Ionizing Radiation of OxIdation-Reduation'Houtione In a Cell 67 Card 3/5          vy --EEC (k-)i~2/EvVP(k-)/~c-A(T(-l-)/ERr(m)/FW/T' W -1 _(c) WNAG L-29565;;;66 (e) JP ACC NR, - AP6018895 SOURCE CODE: -UR/0237/66/000/006/004610046 AUTHOR: Vanyukovj, M. P.; Venchikov, V. A.; Zh a V. Ya.; Isayenko, V. 1.~;. Lyubimovj V. V. ORG: none .TITLE: Two-channel single-pulse r w lase - ith:an energy of 180 joules SOURCE: Optiko mekhanicheakaya promyshlennost', no. 6. 1966, 46 TOPIC TAGS: solid state laser, laser emission, neodymium glass 'ABSTRACT: An investigation was made of a laser in whiih'high emission energy',of khe light pulse was obtained by the use of neod~mlum glassxrods.;' Cylindrical specimens -of glass (45 mm in diameter and 250 mm long) activated with neodymium were connected in series-parallel. Each specimen was optically pumped by six direct pulse lamps placed in a multielliptical illuminator. The laser consisted of two identical channels, each containing three rods assembled on one axisi Q-nodulation was.don.e by two prisms fixed on a common shaft rotating at 18,DOO rpm. The light diameter, of the prism (30 mm) was coordinated with the.light diameter of the operating rod by means of a.Galileian tube. The experiments showe4 that for effective pumping of an 0 should not exceed 4%. In this operating body 45 imn in diameterthe content of Nd2 3 way it is possible.to obtain an amplification coefficient of one rod equal to 3 and provide a yield energy of 25-30 joules from one specimen. Connecting the rods Card 1/2 UDC: 621.378.3241621.376  ACC NR, _ AP6018895 ~0 in series reduces the amplification of optical pumping, owing to the appearance of free generation of the whole channel. This difficulty can be eliminated by ifitroduc- ing, between the rods, optical decoupling filters made of uranylglass. The filters, together with the operating rods, are placed in the laser illuminators and are pumped simultaneously with the rod. The optical density of the filter is selected in such a way that at maximum pumping no free generation appeaid in the laser channel; when the filters are illuminated at the moment,when maximum Q for the resonator is~ reached, one light pulse is generated. By introducing optical decouplin6i emissioa with an energy of 90 joules at 10-7 see duration was obtained f rom one channel of the laser. The angular distribution of generated radiation improves as~the optical pumping increases. Synchronous inclusion of two laserchannals was obtained by appropriate adjustment of the laser elements. The time spread of,the pulses emitted by both channels did not exceedlO-8 see. With the simultaneous inclusion of two . . channels, a light pulse with an energy of 180 joules (corres pondlnig to an emiselon intensity of L5,to 2 hw) was generated. (JAI SUB CODE: 20/ SUBM DATE: 07Apr66/' ORIG REF: 001/ 'ATD PRESS: b. Card 212  1 1 ; 1 1 7. 111 1 . I .. . . . ,       , 1. , .. ... . - lownw-ummum  IgAilffa.L.U.. kand.tokhn.nauk. otv.red.; VXLLWDV, M.A., red*; DIRETTYWo M~Av j, prof o . doktor tekbn.nauk,. red.; WHI2RASEMD, N.Y., doktor geografonauki red&-, KAMMIT, S.P., kand.geogrif. nmukb red,-, XOGHERGA, F.K.0 kand.sellskokhoi.nankp red*; WaIN, Sh.Ch., akademiks red.,,, OUDCHIY, F.Th., red.; HORqKINA. takhn.red. EXaterials of the Fourth All-Union Conference on Torrential4loodal Hateriall IV Vessoiuxuoi konforontell po solovym Votokam. Alm-Ata. 1959. 2)l po (MIRA 12:10) I..Akademiya nauk Xazathekoy SO, Alma-Ata. Institut enargetik,if 2 Akademiya nauk Xazakhokoy.SSR (for2bulayiav. Chokin). 3.']Clhlen- i0orrespondent AN SSSR (for Velikanov).14. Vzesoluanyy nauchnoI issledovaiellskiy inatitut gidrotekhniki (for D3montlyev). 4. Sredne- aziatskiy nauchno-isoledovatelinkiy institut leisnogo khozyaystva (for Kocherga). (Floods--Congre sees)  F I - , FIT ffIr-RlF!IEU--Rw      (HY04ulic engineering) lHimmimumpauquIMME uma I 1w ITE -,LT , , It ~! V, , . , !11 ,,, "I" I 1 1 V114 F   C.- r-T A Z 4z ~R &" S, It 4 Wag J3,0 vp~vr- m d qlAp U Cc 1~ a il 0a. 10 0 Wh A t a Jl g'd 0 JIM 5 -~j I A. 10 v u 0 Z"A 5.f lai i 0-d '3 11 .9 SO  - ------- - - 84 pt ad v -C -P u Ilia  SOO 12,1-58-879010: Translation from: Referativnyyzhurnal, Mekhanika, 1958, Nr 8,13 100(USS.R) AUTHOR: Q"-"\ Zhulaye _~h v, R. Zh. .................. TITLE: Calculating the Quantity of Alluvium.Entra ped by a Slit-'t p ~ ype Sand-and-gravel Trap (Raschet zakhvata nanosov v shchelevuyu pesko-graviyelovku) PERIODICAL: Izv. AN KazSSR. Ser. energ., .1956, Nr 11, pp 18-33 T ABSTRACT: Designs are examined of atmospheric galleries wherein the' water and alluvium flow in freely through a slit in the bottom of the flow channel. The slit spans the width of the main channel, being normal to the main direction of flow : Similarity criteria are selected; differential equations of motioll are set up, -'and results are given of some experiments. The author adduces in a general form a formula for calculating,the quantity of sus- pended alluvium that is entrapped by the slit. Several conclu-~ sions are drawn and proposals made, amongst: which: 1) The. use of pressure in the gallery is considered undesirable; Z).-, mention is made of the Importance of certain nondimensionA similarity parameters in determining the motion both of the Card 1/2 alluvium suspended in the water and of that which drifts along  i 1 11 11 1 -ili,.i 17 Ill.,! IPi . i SOV/ 124-58-8-9010 Calculatipg the Quantity of Alluvium Entrapped (cont.) the bottom; 3) it is asserted that increasing the width of the slit Note: as opposed to a reference width] increases the quantity of alluvium that: the slit entraps and increases also, of course, the amount of alluvium -bearing water that it diverts from the main flow. The author remarks that the4aste- fulness of such a procedure (particularly where ther& is little or no water to spare for diverting the alluvium and then flushing it away) necessitates an improvement in the design of the slit, and especially in that of the "supple- mentary chamber" (which separates the alluvium from the water) and 'of the "bottom guide baffles" which concentrate the zone of active entrainment of the alluvium and thereby reduce the amount of water needed to flush the alluvium away. The paper includes an account of methods.for approaching the problem of estimating the quantity of alluvium that may be expected to be entrapped by a slit of given design. The insufficient num ber of numerical values given in the paper for various of the coefficients involved makes it difficuit to attempt any specific calculation of a slit-type sand-and-gravel trap. M.S~ VyZgo Card Z/Z  8(6), 14(6) SOV/1 1?-59.2-2689 Translation. from: Referativnyy zhurnal. Elektrotekhnika, 1959, Nr Z,, p 59 (USSR) AUTHOR: Arykova,,A. I., Zhulayev, R, Zh.- , and Sugurov,- Sh. E. TITLE: Major Shortcomings in the Operation of Small Mountain Hydroelectric Generating Stations of Kazakhstan and Measures for ElimWating Them (Oanovnyye nedo statki raboty malykh gornykh GES - Kazakhotana i puti ikh ustraneniya) PERIODICAL: Izv. AN Kazakhakaya SSR. Ser. energ., 1951, Nr 1 (12), pp 17-26, (summary in Kazakh) ABSTRACT:.'A survey of oveIr 40 hyr..roelectric generating stations in southern districts can substantiate the following general characterization of.thdir,* operating conditions: (1) most stations have no engine erin g-type water intakes; (2) there is almost no silt control; (3) nearly all station.s experience gr,eat difficulties during the winter period; (4) most stations bave construction and layout of hydraulic structures which do not meet requirements of mountain Card 112  SOV/112-59-2-2689 Major Shortcomings in the Operation of Small Mountain Hydroelectric~.' . . . streams. Major design shortcomings are: (1) unlucky selection of site of many hydroelectric generating stations; (2) inadequate'allowance for long- range development of the district; (3). imperfect construction and layout of water intakes, settlers, spillway structures, and head"Ater reservoirs; (4) assigned low stream speeds in channels Insufficient for frazil-ice removal. Major causes of inadequate operation of the stations are: (1) relatively low engineering qualifications of the service personnel (Z) absence of proper supervision and technical guidance; (3) absence of operating instructions, etc. Ways of eliminating the above shortcomings are suggested. Yu. U.S.. Card 2.12