SCIENTIFIC ABSTRACT PANKRASHOV, A. P. - PANKRATOV, A. YA.

ALTUKMV, Kontstantin Alekneyevicb: MIKHAYLOVS)CATA, Aleksandra Aleknandrovn&Z MMMNEDIYAROV, Fettakh Bakirovicb; NADEZHIN, Vasiliy Mikbaylovich; BDVI]MV, Paitr Ignattyayich: PAL]gb'ICHKD, Zinaida GadrgiyaTm: PANKRASHDV. A.P., red.; SHEVCHMED, L.V., tokbn.red, [Fishes of the White Seal Ryby Belogo moria. Petrozavodek, Goa. imd-vo Karallskoi ASSR, 1938. 161 p. (14IRA M-2) (White Sea--Fishes)  YAKOVLEV, F.S.; VORONOVA., V.S.; VILIKAYNEN, 14-I-s kand. biol. nauk, nacurWy red.; PANKRASHOV A-P.j, red.; POD"ELISKAYA,, K.M-p tekhn. red* [Forest types in Karelia and their natural zoning) Tipy lesov Karelii i ikh priroanoe raionirovanie. Petrozavodskp Gos. izd- vo Karel'skoi ASSR, 1959. 189 P. (MIRA 15:4) (Karelia-Forests and forestry)  PUSHKOV, Aleksandr Glaorgiyevich; E44W�90 .;9d.; PUDIMMISLAYA, K.M., tekhn.red. [Remuneration of labor in logging camps] OplatB trtids rabochilch na lesozagotovkakh. Petrozavodsk, Gos.izd-vo Kareltskoi ASSR, 1958. 40 p. 04IRA 12:12) (Lumbering) (wages)  GRIGORIYEV, Vasiliy Grigorlyevich- PAIUMSHOV, A.P., red.; SHEVCHEITKO, L.V., teldm.red. [For high technical and economic efficiency in logging canpol Za vysokie tekhniko-ekonomichoskie pokazateli leispromkhozov. Petrozavodsk, rvoa.izd-vo Karel'skoi ASSR, 1958. '102 p. (HIRA 12:12) 1. Glavnyv bukhgalter upravleniya lesnoy promyshlennosti Earel'skogo sovnarkhoza (for Grigorlyev). (L=bering) I RM 25 MR N% rR.NU, 15 It -EgR" M LRIERI~ 0  RUSAKOV., Dmitriy Mikhaylovich; KATAYEV, Anatoliy Timofeyevich; MIN, Konstantin Konstantinovich; ROGACHEVSKAYA, Nina Kirillovna; ITIMUSHOV, A.P.1 red# [Multipurpose utilization of lumber] Kompleksnoe Ispoll- zovanie, drevesiny,. Petrozavodsk, Karel'skoe knizhnoe izd- vo, 1963. 121 p. (MIRA 17z6)  KARACHUII, Aleksandr Afanaslyevich; STEPAKOV) Gennadiy Andreyevich; PANKRASHOV., A.P.., red.; CREY-M, I.K.,, teklm. red. [Mechanization of vork at lumber landings]Mekhanizatsiia rabot na nizbnikh lesnykh skladakh. Petrozavodsk., Gos.izd-vo Karell- skoi ASSR, 1961. 94 P- (MIRA 15:9) (Karelia-Lumbering) (Karelia-Loading and unloading)  KRASHENINMOV, Yevgeniy Mikhaylovich; MARKOV, Dmitriy Nazarovich; FRHWLIHG, Alekaandr Fedorovich; PANKRASqOV, A.P., red.; PRMOVA, O.B., takhn.red. (Kachinery for lumber transportation; a brief wnuall Leso- transportnye maahiny; kratkii spravochnik. Petrozavodsk, Gos.izd-vo Karallakoi ASSR, 1958. 210 p. (MIRA 12:10) . (Idumber-Transportation)  DOGVALI Viktor Ivanovich; UVSHITS Erik Abramovich; LYSOCMWKO I Aleksandr Alekseyevich; VADMIN . Koj2st#ntin Fikolayevich; NOVOZHIIDV,, Yuriy Ivanovich; SOKOIDV) Nikolay Aleksandrovich; FEDOSULIV, Oleg Vasi.11- yevich; YASKUNOT) Nikolay Pavlovichj YIGIMSKIYI H.P., red.j PAN- MIAMOV., A.P., red.;, PODffYgLISKAYA, K.M., tekbn. red. CTDT-I+CM diesel tiW*r-skidding tractor] Tralevoobrjyi traktor TDT-,40M. Pod red.NDP.Magirovokogo. Petro*vodakp Goa. izd-,;ro Karell- sk4 AgSR, 1961. 355 P- (MIRA 14slO) (Traotors-Design and construction)  PANMTEV I -B.--E.- (Prof -)-- - - - --- - -- - -- - - Khrurgiia Voenno-Polevykh Povrexhdenii Grudi (Surgery Concerning Chest Wounds as Practiced on Battle Fields), 375 P.,, Kieev, 1949.  - - - Pf,."U---,ATE- V) B. R. Hirurgiya Voenno-polevich Povrezhdenii Crudi (Surgery of Battle-Field Chest Wounds), Ydev, 1949.  USSR/fluman and Animal Physiology. The Nervous System. V Abe Jour: Ref. Zhur-Biol., No 6, 1958, 27427. Author : M.A. Pankrator. Inst :-TReFVS_nj;;a~S%'te Pedagogical Institute. Title Resul:tw -).' :% Stady of the Localization of Pmetion in the C.-.3rebral Cortex. Orig Pub: Uch. zap. Leningr. gos. ped. in-ta, 1956) 113) 5-21. Abstract: According to the author the basic methocl of local- izing cortical sites associated with specialized, individually acquired motor actions boils down -to the foxitation of a conditioned motor reflex) itil subsequent extinction, and observation of the notion of excitatory and inhibitory processes by utilizing Card V3 USSR/Humn and Animal Physiology. The Nervous E~rstem. V Abe Jour., Ref. Zhur-Biol., No 6., .1958, 2742T. other conditioned =tor reflexes as indicators. In the first case there aAses at a circumscribed site of the kinesthetic zone a focus of excitation, in the second case inhibition,, and in the third is manifested the successive irradiation of both processes to the sites of other conditioned motor reflexes. Three conditioned motor reflexeswere established in dogs - vocal (barking), jaw (snapp- ing at a ring)j', and lifting the risht anterior paw. UPOU extinction of the vocal reflex, at first gradual inhibition of the jaw reflex was seen, wid only then was the paw-iift affected. RecOverY occurred in the reverse order. Consequently the cOrtiml site Of "JaW movement" is located closer to the center for the vocal reaction than to the  FAMMTOV, A. Loyal promoters of party policies. Sov.profooiuzy 6 no.16:46- 51 N '58. (MIRA 12:2) 1. Sekretarl Moskovskogo oblastnogo komiteta Kommunisticheskoy Partii Sovetskogo Sovuza. (Moscow Province--Trade unions) VD,  Country USSR G a tICE ri -Y Dtseasl~-, of TSTM D Ca--i:-od b.-,,- Abs. Jour 'RC;f Zii'X.?-Biol. 5No '::-Is 19:~"`)l ~-Z;95- Author Pankratov, A. Institut. --w- Titlo T-avosil-ligatLig Dia---n%hea In OrIS Pub. S. -kh. jUrgizjjt 1957, No 12, 12-16 Abstract No abstract. Card:  PARMCOV. A.. tokhnik,-,- Make wider use of local building materials. Self.stroi.11 no-7:29 J1 156..-- (MLRA 9:9) I.Otdel:ko str'oitelletvu v kalkhazakh Peshenkovichak*go rayons, Vitebskof oblaeti BSSR. (Building, Adobe) A&  ,.,AjIOUTOV, A. Kilning raw bricks of increamed moisture. Prom.kDOP. no-10:19 0 15064 (KIBA 9m) 1. Wcovoditelg planovoy gruppy Ust'-Iabinakoy axteli "Irasnyy kirpich- nik." KraBnodarskiy kray. (Brickmaking)  0.0090000 0 00060 099 0 410 0 0 9 0 0 9 0 0 0- 9 0 9 0 9 0 t 4 - II uumabo tit 111 4 11 N I M 11 M H p 14 P M A L" A i J-4 6--j- a f , -, - - I 40 06 p"Pwd" on as . P& U. N. S. S. 10, 1. A. 10r. Adis Pk 30 -Vue )-1fzpLI. dun on the surfam tensions and elc& prqmlim (coutwt pot-tial as us-wed by a I?rumkin radioactive air ellectrade at 2t)*) of l Water Rod on Al l k = ms an Part S . St g WA My III pa XCI, x9r. X1. NACS am CKCI. In pufv olen. C-taitact p t I asts to the ordet sim aW- tb b j . ., . c n o jW% bxmw fteRift Jost hydrOOM Of ilkVWIM SM11011 dowMIM ka I#4k b t dift-to lo.UWM*4 Mg- 01148V Of obe VIE Increasing vvEI"I nNup- Intedve 00 J R rg Mail of tkw M d . pok twuntewt of the pubt corboxyl roup in ki it EW ester alkyl to a f the a i i c on o otat to a attribute unstatic Interaction h4her poalm resulting III eke a* 0 with an w"acttAtIorbed enlow. U. A. Frumkin and of oe A. Pankralow. IbM. 66-44e-A tIOMO ICSI diSM38i0m Of date In I front A 0" to to 0 00 i tiectrostatic intft~rfttim the doubir4eyer tons and The Mot, digides. the work of adiception for txPth the a* 0 "it and- the 21. Ahn Mbstance ifteress", in- the w h-sin k 2 so* w g nValwit the rctive 4w nW- indr Hn" d l we ayer. s p fnmWve #met in the a ently al the methaim of 4sarittloti the work of &d. scretim. thit bate IMM the film and tk 4*9 00 Surface tension bKTCAW: as the ccocn. of adsorbed sidt 4 Inenames. F. H. Rathmmut we* tie 9. too 0 SLA SIVALLUMCKAL LITERATURE CLASIWOCATWN 0" wove -'0 41 00 1' Is 1, a a at a it I I I it a U a it An L I a Iw 0 Of w I III 111 5 Al - 1 14 #no. ft 0 0 00 0 0 0 9 0 9 0 111 0 0 ej row J_ MRS V A, ~w  KABLUKOVSKIY,, A.F.; PANIMATOV, A.A. Economy of nickel in the electrometallurgy of steed. Metal-lurg 6 no,3:17-22 Mr 161o (MMA 14:5) 1. Zavod 'Elektrostall.4 (Steel-Elqctrometallurgy)  pANnAm, A.A. (Kalinin) Representation of spatial figures in a course of stereometry. Katov sbkole no.3:44-47 MY-Je '54. (HWU 7:6) (Mensuration)  FANKRATOV Methods of studying the topic of parallel projections in grade 9. Mat. v shkole no.3:7-15 My-Je 158. (MIRA 11:5) (Geometry, Projective-Study and teaching)  ILUPIN, I.P.; KOZLOV, I.T.; PANKRATOV, A.k. Orip-in of the associated minerals of dia,"~nds in Y-,*Lt-J-*n kinberlilte-E. Zap.Vses.min.ob-va 90 no.4:48P-492 (MIRA 14:9) 1. Amakinskaya ekspeditsiya Yakutskogo geologicheskogo upravleniva Glavgeologii RSFSR. (Yakutia-Diamonds) (Yakutia-Kimberlites)  BOBRIYEVICII, A.P.; ILUP7M, I.F.; KOZLIOV, 1.T.; LEBPTEIIA. L.J G,I.; MkRIKIV, AX.; Z. I,,, ved . red. [Petrography and mineralogy of himberlite rocks in Yakutia] Petrograftia i minernlogJia kimberlito-VyId'i po- rod IAkutii. (by] A.F.Bobri,-vj~,h i dr. l'o-kva,, Nodru, 1964. 189 p. (MIIIA 18:2)  S11301611000100310031008 A006/A001 AUTHORS: Kablukovskiy, A.F., Deputy Chief Engineer, Pankratoy A.A. TITLE: Savings of Nickel in Electric Steelmelting Production PERIODICAL: Metallurg, 1961, No. 3, PP. 17 - 22 TEXT.- A series of measures were taken at the "Elektrotital"' Plant to achieve savings of nickel during the melting of steels and alloys in electric are and induction furnaces. These measures include: 1) Remelting of alloy waste in electric are furnaces using oxygen. The melting of 1X 18i49T (1Kh18N9T) steel by this method shows the following characteristic features. It is allowed to use 100% alloy waste in the charge, C not less than 0.15% above tho upper limit of the steel grade to be remelted and 0.8 - 1.0 silicon; slag forming components - none. To accelerate melting of the heat, oxygen blowing should be started 55 - 65 minutes after switching on the current. After oxidizing the pool by blowing through water- cooled tuyeres, the required amount of ferrochromium is. added. Oxygen blast can not be used to speed up the melting of ferrochromium. Liquefaction and reduction of Cr from slag oxides during the reduction period is achieved by deoxidation with 15 - 25 kg/t silicochrome (33% Cr and 50% Si) or 45% FeSi in 10 - 20 trim lumps. Card 1/8  S/I 3016 110W100310031008 Savings of Nickel in Electric Sttelmelting Production A0061AO01 The metal temperature in the ladle should be 1 '550 - i,6o'oOc. The metal is eyphon- cast into round non-greased molds to ingots of 500 kg and more. The Cr content in the finished metal should be within 17.0 - 18.0%, and Ni 9.0 - 9.5% (for sheets) and 10.2 - 11.0% (for pipes). The average time of malting IKh18N9T steel with oxygen on a 20-ton furnace is 2.7 - 3.0 hours. Remelting of niokel-containing waste permits the standardization of the charge as to the Ni and Cr content and ensures the chemical composition required at a minimum consumption of Ni. 2) Im- -Ni-Mi-Cu provirig the technology of melting Cr '34 629 (EI629) steel containing not over 0.10% Cr; 1.0% Si,- 1.0% Mn,- 0.02% S; 0.03% P; 17.0-19.5% Cr; 27.0-30.0% Ni; 2.5-3.5% Mo; 2.5-4.5% Cu and not over 0.7% Ti. The characteristic peouliari- ties of this process of melting acid-resistant steel are: a) alloying of ferro- chromium, nickel, ferromolybdenum and copper with Armco-iron and wastes; b) deep deoxidation of the pool during the reduction of the heat, with silico-calcium and calcium metal; c) low temperature ranges of the metal in the ladle after teeming; d) teeming of steel to ingots only by syphon-casting. The melting of acid-resis- tant steel by this.new technology reduced the amount of metal reject by almost a factor of 5, increased the output and reduced nickel and copper consumption per I ton of high-quality ingots. 3) Production of stainless-steel substitutes, low- alloyed with nickel, and with high manganese and nitrogen content. Approximate Card 2/8  S1 1_30/6 1/000/00.3/003/00 8 Savings of Nickel in Electric Steelmelting Production A006/A001 chemical composition of such steels is: up to 0.1% C; up to tY.8% Si; 4.0-6.0% Mn; not over 0.03% S;. not over 0.035% P; 17.0-20.0% Gr; 1.5-'2.5% Ni, 0.15- 0.20% N. Chrome manganese steel with nitrogen is melted in induction amd arc fur- naces with basic linings. The charge contains wastes of steel to be melted; mild iron with up to 0.05% C, nitrated ferrcRehromium, and nickel. Manganese is added within 5.5-5.8%; silicocalcium 5 .- 6 kg/t. The temperature of liquid steel is 1,520 - 1,5500C. In the are furnace, redpotiorl i-s~.conducted undpr'white slag which is deoxidized with crushed coke (2 - _3 kg/t) and silico-calcium powder (3 - 5 kg/t). In an induction furnace the slag is deoxidlied with a mixture of alumi- num powder and lime. Calcium metal and nickel magnesium alloy are added into the pool 20 and 10 minutes prior to teeming, respectively. The metal temperature in the furnace should then be 1,500 - 1,5200C. The metal is syphon-cast into round molds to ingots of 500 kg and more.. The replacing of stainless 1Kh18N9T steel by manganese steel with nitrogen,-having similar properties, yields savings of nickel as high as 70 kg per ton of finished metal. 4) The Institute of Elec- tric Welding imeni Ye.O. Paton developed a new method of producing ingots by elec- tric slag remelting of consumable electrodes in a water-cooled copper crystallizei,. The electrode is melted by the heat liberated in the molten slag layer which plays the part of resistance when the electric current is passed through. The unit (Figure i) for electric slag remelting consists of a water-cooled copper crystal- Card _3/8  S11301611000100310031008 Savings of Nickel in Electric Steelmelting.Production AOO6/ACK)I lizer, a copper bottom plate and an electrode column-with a ohuck-support. Round crys-I'allizers of-180 - 420 mm secition are used. The electrode diardeter is 80 - 300 mm. Steel bars are welded to the electrodes which are clamped into the,sup- port- Fluxes of two types are employed: the AHcP -6 (ANF-6) operational flux contiAning'about 60% CaF2; 30-38% A120~; 3-6% CaO; up to 2% S102 and not over V/ 1% NO and Fe203; the electroconducting solid flux for the initiation of the electroslag pro ess, composed of a mixture of fIAM -3 (PAM-,3) alumomagnesium pow- der and the operational flux. The electric slag process warrants conditions as- suring the.production of ingots of compact cast structure, purifying the metal' from harmful impurities apd non-metallic inclusions; and reducing segregational phenomena. Saving of nickel is achieved by using rolled rod rejects as consumable electrodes. The remelting of these rods produces high-quality ingots and forgings without internal defects. 5) Protection of liquid metal against oxidation during teeming is brought about by using special vacuum-argon chambers; (Figure 2) where large or small-size ingots can be top or syphon cast in a rarefied space or.inert gas atmosphere. The chamber consists of a stationary floor and a removable cupola. In syphon casting a bottom plate, molds, extension pieces and a. centering device are mounted on the floor. The cupola is placed upon the floor and the air is eva- cuated until a residual pressure of not over 1 mm Hg has been obtained. The ladle Card 4/8 Elm W, ~~MMNR M -V --af  Saving of Nickel in klootAo" Sieelmel.ting Production A006/AODI with the metal~ls placed in.the guides at the cupola top in such a.mann'er that the axis of the ladle n zl oz e coincides with the'center of the apqrture'for the metal jet. After evAcuation the chamber is filled with argon.. This'method im- proves the.surface.of the ingots r%qduoed the depth of stripping *' increases the J, output of metal and reduces nickel consumption. 6) All~y.'s6rap-is reutilized by-extracting.and.reinelting in aro furnaces to standAM ingotol'iqhichlare employed for the melting of niokel-oontaiining steel. This process 'savidAbout 130 tons of Collection and utilization of emery dilst'containing'up nickel during 1960. 7) 8 - 12% nickel, is performed by equip ven- ping the emery mills with a auction T, tilator. The dust is collected in special containers.and transported to plants for processing. The enumerated meadures yielded considerable savings in nickel. Card 20,  B/1.30/61/OD0/'bO3/003/008 Savings of Nickel; 'in Elsotria-Steelmelting Production A006/iii0ol Figure li Installation for-electroslag remelting 0' 7'~ feflAa- E" 4 M:MT ...... ----- Al M  -- -------- Savings of Nickel in Ele6trio Steelmelting Production S/130/61,/000/00,3/00,3/008 A006/AOC11- Figure 2., Schematic drawipg of a-unit f or. 70 teeming steels:and-alloys in a 9, vacuum and inept gai. atmosphere: 7 c4oia, -P-,:- support bottom ~'plate- rubber padding; p l va ouum'pump; 5 collecting r I filter 6 - valve; 7 - filters; J -h flexible bellows; 9 - steel teeming ladle; 10 - operational apertures; 11 Inert gas cylin- der. z0, ........... Card oo  -40 7t  PANKRATOV, A.A. (Kalinin) 0.nA- ~e C'onstruction of figures in solid geometry. Mxt. v shkole no.4: 23-31 Jl-Ag 156. (Geometrical drawing) (=A 9:9)  AGEYEVA, A.P.; AXSENOVA-CHERKASOVA, A.S., aspiranka, VELIKANOV, L.N., bibliotekarl; GAVVA, F.M.; GIRENKO, P.D.~ Geroy Sots. truda; GUBAHOV, M.M., pensioner; GUStKOVA, T.K., nmuchnyy ;sotr.; DAVYDOV, A.G., prepodavatell; DANIIIVSKIY, V.V.9 pmf., dvazhdy laureat Stalinskoy premii; DOVGOPOL, V.I., laureat Stalinskoy premii; YELOKHIN, M.F.; YERRAKOV, A.D.; IVANOV, V.G., prepoda- vatel'I KOVALEVICH, U.; KOVALEVSKAYA, YO.B.9 zhurnalintRaj PANKRATOV, A. .; PJPUVA, P.M.; URYASHOV, A.V.; FEDORIN, I.M., kand. ist. nauk; FILIPPOV, F.R.; CHUMAKOV, N.P.; SHEPTAYEV, K.T., zhurnalist; VASIKOVSKIY, O.A., kand. ist. nauk, retsenzent; KULAGINA, G.A., kand. iet. nauk, retsenzent; GOFCHAKOVSKIY, P.L.9 prof., doktor biol. nauk, retsenzent; BAKHMUTOVA, V.,. red.; SAIGMI, Yu., tekhn. red. (Nizhniy Tagil]Nizhnii Tagil. Sverdlovsk, Sverdlovskoe knizhnoe izd-vo, 1961. 294 p. (MIRA 16:1) 1. Nizhne-Tagillskiy krayevedcheakiy muzey (for Ageyeva, Gusikova). 2. Zaveduyushchiy gorodskim otdelom narodnogo zdravookhranenlya, Nizhniy Tagil (for Velikanov). 3. Zaveduyushchiy gorodskim sell- skokhozyaystvennym otdelom goroda Nizhniy Tagil (for Gavva). 4. Nachallnik upravleniya stroitellstvom Sverdlovskogo sovnar- khoza (for Girenko). 5. Deystviteltnyy chlen Akadoxii nauk Ukr. SSR, Leningradskiy politekhnicheskiy institut (for Danilevskiy). (Continudd on next card)  ou of A *0: 00 008 041 90 00,43 00.3 00 V 00000 Of *0 CbMP b do &" of Polow as the alr/Odutin War- two AND ids"d to We OW W W latter. A. &:PW"wV., CMM. tva. #Md. ad. U. X. S. S. lown)(in H*#Wb).-A &UWy of the thus variation of thv potential drop, at the IMINCIAM ak/SCW.t With a View to dets. the esuAw 4w the pbenomemp with application of the method iW Tot-FiriaWks, led to dm IdWwW conclujims: In Of MA 40MUR1140011 Of Wdsft-*CdVt Materials t dw solo. surface so cbup in Ow pultatial drop to noted. Otbawlse Uw potential drop chattges to worv pus. values, the &C am materbwls penetts, to the WAFSOM the AMd Y as t of dust lettuaff The airo MW both factm produced, 1. 13b We., a chaw of 210 my. in the potcntW drop of a UNKOrsols. The cdoct W tballad factor alone pFoductil achaWaI35mv. For aO.01 JVKCI adn. the change wa- 2u my. The greater value for JLBr is due to the inute ci[wdvesprtoftsofmoaolayasovwtbewdace. 5reter- A. H. Km PPC & 10. 1 L A OFTALLUAGICAL WINAT1101 UOMKOWN ;;, -511iii-i'v. goo even 0 @g00 W-" a it 33 it x N, U."U.-O a 4"1 a 41 At 0 -00 -00 see 400 see zoo We t1*9 wool b U a AT 40 0 , a a 0 ; a, In I ; a, ; F ; "It a N 0 0 0 1 V of I a a 0 1 :16 . . . ~* 04 a - ; 0 0 0 0 0 0 : 0 0 0 : 0 0 0 a g 0 0 so, 0 016 0 6 0 * $000000 a 0 0 * * 0 0 0 0 0 goo a 0 0 0 0 0 0 0 0 0 0 a  9 a 0 0 0 0*00 689686906 00 A .00 11 908 .1 000 6643 sou &.6p cd powsw RA dw ah-ocauu= dW Op d the MUW. I rawL Ated. 8d. UASS., t of an varimion with'time of tZbe J= drop #A an sk-solution int"fibm bbe" Ja i w i A m n a , -, Im. 1. mp, ( W). hav* bwn inmikMaL M6 dma hwicate sbas if Um awfam 4of mw;l. *Dkdh= (2m.yak, oojx. KC", '~ kvt fro ftm aff""WTO mmww =00 . no TwiWIM Ii W vdmdw anp 6wan Ovw bwp Coo latmak of ihm - U. hmvw. t6 WN" bMUM OOntA=b&WA6!pp6mWW drop ch&Wm COO 10 M-0 710 pIA-Umil )IN POOM 0.0 -K(2 chwaft < th" of 2xxw as UPW&W, dM tbe.pmmw af KHr in the Wujjm beffilat" the Of amoxmlyms over the = zoo urfam 7%e 79 Amtedsh pft~nt in the tim "its may be fmoved by previm baung. go* see W, R. A. rJ& 0 11149"1 .04t 0*0 401 "fill on vu as W, MAD a 0 0 0 0.0 a 9 0 00 0 0 0 0 O-q-w 0 0 A-A.-I A-I -A-,.i -c --mi,imis tit ties woo too RIN 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a 0 0 0 0 000 0 so 0 so* go  F40 40 40 46 0 46 40 0 0 0 8 40 0 4D 49 0 0 0 a is 4) a 0 a 0 a a 4 a a 40 0 0 0 160 0 ON- 11'", 0 0 0 0 0 0 0 4) 0 6 0 00 0 * 0 0 0 0 0 0 0 0 0 0 0 t It " b A ~ D__A -k JI 1) IN a is v . m c '~ , " . t , 1 it 0 3 f I a x V 2 " m Im CR a AP. A- h a-I & b 00 A PAOCf Oil AND POOPINT'll 1%DI 1 peep *0 mat -00 90-.a aahMkvmL L A. X. 'j Ph O 1-001 f- v& wn. I . 002 40 aw the S U;&0; PA 66 ;R~~Pot_=Iual of 61 - ' ~ h oetyl a4fiol andr 4=~(I en ' ) ffi Z's the anti i t i = = l a ol .c m s ns m a t. / ( l a, I T1 a at 4i i i s o e n the tes w mm suipba ia" ai: iwides._ ' ' - ' a U. ThO.AU WW Potan rl~ Uwa. tid IWB~Iki - '' l l ilo l~ u r g so A U calo., The 16won.nmkcs it y probabl *0 *'that the adt -iffmi is due. to intemetion 10 0 between,the malt Ions arid the clipoles-, J.J.B. 14 LIVENAVIN111 CLASIMPICATMON $via** WIN MY got " N11131 130C a-- It, AV 10 U u 119 U, I's F An A i a ad o x v i v o4 o -a a 1A 0 0 00000 0 0 too 0 0 0 0 W'i  0 0 0 0 0 1 Is n m a )v F, m 33 4 1119,61119.01? T, 1, em T. It *~A 0-t-A -j g a I A it -A ti I AA N W 19 a i'A t~ 1~ 4 1 v It, ~.p J.P 00 ji Protecting areas which are not to be n1fridtd. A~ 1. "00 o: Veltstik I141J1tNPS1ftW48.W 26, MI. '."; 1:1, I IkIll.- MCA% 110t it) Ille Ilildilell were proirt-frol mjvv"%- k tkily fly vtlvrri lit 1114-111 %it Ila Jaye[ q4 C11 ftill.vt ,I I.). a k) vF tit Su. Both layer% Were ctnivenicii(ly alsiolit-il rJeeiri). -00 00 lyticafly. The Cu layer. not 1m% than IS p thi,k. wa, i, I lelm~itrtl fritin a Imth mnis. Cu 15-.2. fire v)-aiiii1v 1015, carimustra still IIA) 1 1. Thr irmp. .4 00 lite Wilt wab 35 -411', and the vmth~mliv 1- .1. 11.5 misip. IN I 141. 41111. 'lite St. 1AVil. kill I,& ;I . 1114k, "A' I.Ims,ill'i Isom 4 lialls -mig. NaSil(l, 'III ill. NAOJJ I Ili. IlCetAt~ K.. U1111 If,() 1 1. The Will Vt.~ alld lite vallm"lic eA. I altip. J.~ mi. dm. NL 11'"11 to zoo m I too P' (LAtsipicAlsom _16N, 0-11i, c;., w 0, INA ni6 It U r$ q K a ill It it fq W n I M 60 * 0 00 * 0 00 00 00 go 9 0 0 0 0 0 0  "Change in the Drop of Fotential at the Air Solution Interface as Related to the Age of the Latter", Dok. Ali, 24, NO. 2, 1939. Moscuw State Univ.; Electrochemistry Lab., -1939-. MA 'WE M M 1i �M M. BONN NO  PANKRATOV, A.K. I Radio fr3quency Y-rwilation from 3olar flare.-~. Izv, rry-m. .1 i astrofiz. obser, 29U(iD-174 163. (MA 16;10)  AM R 0-01 W  w MR ME% F P Ev NS" RM 17 zg, os mo, u, t rMll  lzv  J~iiic 8"--65 ACCESSION RR: AR5011846 tjhe~ -vicinity -of yavplength5 3 A use vna,!~ Tzade of experbsental data on (a) thf? iiihima -ff*qden8b- 5 of Tofle-etions -frm the lcnozThere vith vezztieal sounding, (b) the abzorytion of short radio waves, (c) the absorption of cosmic radio -,Tave,3, and (d)~tbe suaden increases in atmospherics. The data on the increase in the in-; te=it,* of cosmlb dwring c-hro-Aoisphe 'rays -ric flara3 were obtained froax published works (on the greater efrects) and also fron data obtained through ob.-3ervatione, male- 't-i me,3~n!- -,f ~-,.ftron ipation3~dp -,-.+Ih X-rarliaticml -if- mRd- on1v of thp ct, nzi r~ cc,,- -a tiatical analyais of three group-- of f~aire_, ~of Inten-nity < Ulle-) sh, -_d 4- at ChL-_-108 .:jr.,L _ 3b-ric fi-Ari-, rith an X-ray fl= il~i the vicinity of th 45 R 'A, ~rrprktpr thn_n 2- 10-1'~erw/crx'tec. CP_u,5e3 an wera;--f- increa,~P Df 4n th- Int-TIMity nf the ne--ftron c-ciaponent of the co~Tzic LPVPI aja,d that t~'A(: Bal,'L cf thr of the chrcnosphe-ic flare-. On the other b-a-ad flares 'witn w.- x-ray fi,,Lx uf 1 '65 than -within the limita off atatistical errors 10 not CaLwe an in- cy-uie 1-~) the intennity of rm-atr-on,~ at "~a lpvei~ By ana-I.Yzing the Adata on the large coemic ray flarea the authore sbcnr taat there is, on tne  L-60408-65 056i!848 -t-Weg-n1be m~Wc of -angorption tf radimvep) [n tht, T)z Iniver dtww ing a solar flare end the amPlitude of incrpaze in mirtic int-n-,~y it -)n,-,- - c: C', 'VI 7 S!JB CM: AA; ES EML: 00 Carle,  'a,kDl7-l.'l IRSSK I!, ; P A. 17. c 7- radiatic-n e-' zlp--r- L.-,- dol ;-I" c - - -, - r-. - , :! . 1z , 1~ C C, 16:; C ~, -. .- B I I - - '11 - -, -. I ~-.. - - ~ fiz. 28 rio.12:2019-2021 D 164 (*iI,-'tA 18:2) 1. Krymskaya astrofizichesl---ya observatoriya.  V 'n the 11 -V,' 7 r t7a SUB CODE 0.  DVORMHU., A.S.; LEVITSU19, L.S.j PANDAT-OVi, " n. s-hur. Aotive solar regions and their eorpuscular emissiono latro 38 no-3ta9-438 10-Je 161. (HU-1 14 t 6) 1, Krymskaya, astrofizicheakaya observatoriya, AN SEEISR. (Solar radiation)  S/033/62/039/003/003/010 it 3,0 E032/E114 AUTEORS: Dvoryashin, A.S., Levitskiy, L.S., and Pan)cratov9 A.K. TITLE: X-ray emission of flares PERIODICAL: Astronomicheskiy zhurnal, V-39, no.3, 1962, 428-438 TEXT: The authors describe a method of studying the X-ray emission of flares which involves the use of the minimum reflection frequevcies f min obtained from the world-wide network of ionospheric stations. The idea is that since the path traversed by the radiation in the atmosphere is different for different stations, the atmosphere may be looked upon as a type of filter, so that the qnergy of the photons reaching a partieular station depends on its position in the atmosphere. The experimental data on chromospheric flares of importance 3 and 3+ were taken from the observatory working list of flares reported by H.W. Dodson and E.R. liederman. Among flares of importance 2+ only proton flares were included in the analysis. Finally, radio bursts-at 9400 Mc/sec and the minimum frequencies f min - were taken from published data of the Crimean Astrophysical-Observatory and from Card 1/2  X-ray emission of flares S/033/62/0'39/003/003/010 E032/Ell4 IGY data. Analysis of the relation between the time characteris- tics (onset, maximum, and termination) of X-ray and radio emission of flares on-the one hand, and optical characteristics in the visible part of the spectrum on the other, has shown that the time dependence of the X-ray and radio emission is very nearly the same, but the H(x emission of flares begins earlier than the other two. Comparison of the minimum frequencies fmin recorde4 during ordinary and proton flares showed that there is considerable increase in the intensity of X-ray emission during proton flares. The energy of the ionising radiation has been estimated for the proton flares of ,jarch 23., 1958, and June 14, 1959. Assuming that the additional ionization in the ionosphere at tangential incidence of the radiation on the' D layer occurs at about 60 km, it is -shown that hard photons with.energies of up to about 1 IIev should be generated in proton flaress Therd Aro 5 flgUPOM Mhd 2 tdblo#e A56UCIATION; Krymslcaya astrofizicheslcaya observatoriya Akademii nauk'SSSR (Crimean Astrophysical Observatory, AS USSR) SUBMITTED: December 26, 1961. Card 2/2 NoO Y_ 0.14 01 Ile, "0, P COT Lie 110. OOsel-4. e O8,e ,.Tel P0 On& Ge ,,tT P V o ,y~e-C4,c O~ Ic OM~.-j a MGY St n5 'r-ron s:rj ~xj) ~,,',Ofl - axoVIO T eV.0V N5 jjIj 195, ,Lpe ef - sao~ _CVG - -ell VIL y,,eTv e i NII-Is ~. ell-C t~.031 et~,G t1s, 5%0~ 0 1104 ;r~ ~~&s 5 CIO .,,je .05 96 -re"a. Owl tyLe 51111 tyke -.,,,re 55 ,te e Vt I V- , ~.c t~L s on . ~OrL 0 ,r~ev~-c 9 ret It e4) jest% ce 0 eg,110"' eTI't 5,P 1,00 IR111" "OVa T I&e- Var tVe broV.0 _jsI vat~,O 0.0 VAIN of~ tO~ C neO net .Ile 5,T &V ,t\er~ 5~.Vt -Lt n5 ",be ,te-rqla to ,66es sses Dee" '10 o~js 'Pro cap - jo.V~t -roce .4e &eq e 6 -req,~ ,ce O~ -rr 1POIDS tl~19 0115 Y1 -fj:CI9, V 2~ ~n 8, 0 tne sl~ ) 10, -5-te -as" riol" Ike`4 'r, VL e ont '0.-rt - t~p SeOO Mer, CO yeT .as ,rjo .151 rot- co tD., 005~ tne ae VI 06.1 aa, YVO Oil 1011S O~ aot _-n5 tbe c -1., ,Yie  :'R INK, PANKRATOVP AsK* Diagnosia of Acute aPPendicitis- Vest.khir. 89 no*91126-IX S 162. (APPENDICITIS) (MIRA 15312)  DVORYASHINI A.S.; IEVITSKIY,, L.S.; PANKRATOVX A.K. Study of flares in the X-ray spectral region. Astzon.zInw, 39 pp.3:428-1+38 mv-.Te 162. (MIRi 15:5) 1. Frymskaya astrofizioheiskaya obaervatoriya AN SSSR. (Solar radiation)  38248 S/169/62/000/005/090/093 4 ~L3 0 D228/D307 k-LIMOR'S: Dvoryashin,-*A. S., Levitskiy, L.. S. and Pankratov*, TITLE: Chromospheric flares and solar corpuscular radiation in high- and low-energy regions 'PERIODICAL: Referativnyy zhurnal, Geofizika, no. 5, 1962, 30-31Y abstract 5G223 (Izv. Krymsk. astrofiz..observ., 26, .1961, 90-135) ~,TEXT: The authors investigate the interrelation between absorp-, _511on in high geomagnetic latitudes and the magnetic field's dis- lurb,ances in the period 1957-1959 in connection with the processes 1r, active regions on the sun. it is concluded.,from the analysis of the exoerimental data that during the development of chromo- spheric flares high-energ _ 1 gy protons (10 00 Mev) are generated on the sun and ejected from the regions of chromospheric flaredsim- ultaneously with the plasma clouds, causing magnbtic storms on the. -earth. It is concluded from the great time lag ii i the.arrival of .Card 1/ NEW VR;Nurl-,N-~ K 'NAV51  B/169/62/000/005/090/093 Chromospheric flares and ... D228/P307. protons (10 - 100 lr~av) and from the duration 'and the ibotropism of proton settling upon the polar cap that there are interplanet- ary magnetic fields. Their s;urces are local magnetic fields of the active re,7ions, which are carried away by the movement of plas- 0 ma. This deduction is confirmed by the Tact that rapid arrivals of Drotons fram' flares are observed, if the flare pre7viously aris- i~rc. in the given region induced a magnetic storm. This means that .protons are injected into the approximately radialmagnetic field, formed, on the growth of the local magnetic field of, the active re- O"ion,s by the movement of previously ejected plasma. A series of ~pro2longed absorptions in-the polar-cap in theperiod 1957-1959 can ~.be explain6d by the injections into 6uch a-field of high-enery protons, generated in flares arisi 'ng,in.a given active region on ita passage along the disc. While restraining the diffusion of generated Protons throughout.the solar system, the entrainable n-,giaetic field at the same time causes a deeper and sharper For- bush abatement with a prolonged recovery. Since the magnetic field liAked with the sun,.'it is.already somewhat twisted by the latter's rotation at a distance of one aetron6mic unit. This de- Card 2/3  PAITYalTOVY _A, K,.-(Bela7a TSerkovl) Method for eetting posterior dislocation of the forearm. Ortop., travm. i protez. no.11:66-68 161. (MIPA,14:12)- (ARM-DISLOCATION)  L o63~,2-67 EWIT (I) GW ACC NR: AR6013403 SOURCE CODE: UR/0269/65/000/01-1/0052/()052 AUTH, OR., Pankratov A. K. TITLE: Relation of increases of solar cosmic ray intensity with the corresponding corpuscular flux parameters SOURCE: Ref. zh. Astropomiyaj, Abs. 11.51.439 Z REF SOURCE: Izv. Krymsk. astrofiz. observ., v. 33, 1965, 156-159 TOPIC TAGS.-' solar flare, solar chromospherep solar corpuscular radiationp cosmic 'ray,, magnatio-atorok Thevei~tion*between the charaoteristics of corpuscular fluxes oausing magnetic didturbanoes with sudden commencement and the effoot in solar ooamic rays from the sarae ohromosphere flares is analyzed according to data taken during IGY- IGC. Flux velocity, strength of the magnetic storm (measured according to the index K ), and the amplitude of the Forbush type decay are used as characteristics p of the corpuscular fluxes. A comparison is carried out with data on cosmic radio noise absorption in the polar cap (RSA) convortod on the basis of artificial earth satellites of the time-integrated proton flux with E > 3.00 Mev and also with the results of direct measurements carried out on American satellites. It is shown that the various data on solar cosmic rays are internally consistent. It is found Card 1/2 UDC: 523.75:523.165  ACC NRi m6wi +o3 that the most similar relation exists betueon the effect in solar cosmic rays and the amplitude of the Forbush decay (linear correlation coefficient up to 0.87). abstrac2t Bibliography of 31 citations, B, Vladimirskiy ZTranslation of SUB CODE: 03 Card 2/2  tell M13tematiki; LEPESHKINA, N.I.P 0), -uchi red.; VCMK&r, eklm.red.; EMS, I.G., tekhn.red. (Mathematical tables for the formulation solution of problems] Hatematicheskle tablitsy dlia sostavleniia i reshoniia zadach; posobie dlia uchitelei srednei shkoly. Moskva, Gos.uchabno-pedagog. izd-vo H-va proav.R"SR, 1959. 137 p. (MIRA 12:12) 1. Blinovskaya somiletnyaya shkola Sorokinskogo rayons Altayakogo kraya (for Pankratov). (Matheinatics-Tables, etc.)  3(4) S/006/60/000/02/010/024 AUTHOR: Pankratov, A. M. B000011 TITLE: Working Experience in the Identification of Localities PERIODICAL: - ,0!~odeziya i kartografiya, 1960, Nr 2, P 38 (USSR) ABSTRACT: When preparing topographic maps on a scale of 1 : 25,000 after the combined method, the simultaneous relief survey and identification of localities on the aerial picture plans gives rise to particular difficulties. In the practice, the locali- ties are identified on the aerial pictures enlarged to map scale. Topographers first take the relief and after identifying the localities, transfer them from the aerial pictures to the aerophotographio plan. In this method, buildings must be drawn on the aerophotographic plans without leaving the locality (in order to avoid errors). In spite of careful working, cases may occur where one has to come back to carry out an additional identification. Frequently, one must also come back because differences arise in counting the buildings. To eliminate errors and the necessity of coming back a second time, aerial pictures enlarged up to I : 10,000 are utilized by team Nr 42 of the Car4 1/2 Severo-Zapadnoye predpriyatiye (Northwestern Enterprise). Fire-  Working Experience in the Identification of Localities S1006 f601000102101VO24 B0077,1011 proof buildings are marked on the aerial pictures with red penoil, and non-fireproof ones with blue penoil. in the case of villages, living houses are marked with red color. On aerials pictures with 1 : 10,000, the dimensions of buildings are represented acoording to scale, which fact considerably facilitates the drawing operation. From these aerial pictures, the localities can be transferred without distortions onto an aerophotographic plan on a scale of 1 : 25,000. The addi- tional expenses arising in the printing of enlarged aerial pictures pay well. Card 2/2  T 7V Deteradnat-ion of in invos-AL;*atini-~, the C. spian L~Swiamd IV the corzP-2.&-u'icn ric.,thod. 1%,eftegazz. Ecoll. i geofj.2. n0.,-UJ,-4,6 163. . O-alluk 17:10) 2. Vsesoyuzi~Tj nnuciLlio-i-ool-e,:-~ovatellakiy instivat goof i-j,cresld'-.h ,.I(-Jto,30V razveclki.  prrp h rip J o t-., j), v - YABLOCHKOV, Vladimir Alekseyevich, PARKRATOV, A.P., redaktor, POD'YELISKAYA, K.M.; tekhnichegkiy redaktor. woolft-I [Segeshal Segezha. Petro2avodsk, Gos.izd-vo Karel'skol ASSR, 1957. 30 P. (MIRA 10:10) (Segetha--Description)  PANKRATOV A.S., in!7h. I i';x'.1 't Method of sealing tunnel driero. 15troi. mat. 8 no.5t2l My -*62. (MIRA .15:7) (Drying apparatus)  YANKRATOV, Aleks - r-Semeno-vich; SPITSYIIA, A.p red.; SIUKp M., . red. [Fighting auxiliaries] Boevye por-oshchniki. Moskva, Mosk. rabochiip 1961. 46 p. WRA 15:7) 1. Sekretarl Moskovskogo komiteta, Kommunistichedcoy partii Sovetskogo Soyuza. (for Pank=atov). (Agriculture) (Press and propaganda) (Radio in agriculture)  VAVILOV. S.1.; LICVSHIN, VA., redak-tor; PAMMTOV. A.V., reclaktor; AUZAN, N.PI, takhnichookiy redaktor [Collected'vorks] Sobrante aocIAnanii. Hoskva. Izd-vo Akad.'nauk SSSRO Vol.-.1-EffoAm on physics, .1914-19361 Rabotjr po Mike, 1914- 1936. 19 40 p, OM 8:5) toica) 0  -AUTHORS: Pankratov, A. V., Pshezhetskiy, S. Ya. SOV/76-32-7-23/45 TITLE: Some Rules Governing the Photochemical Decomposition of Ozone in the Liquid Phase (Nekotoryye zakonomernosti fotokhimichesko-o razlozheniya ozona v zhidkoy faze) PERIODICAL: Zhurnal fizicheskoy khimiij 1958, Vol. 32, Nr 7, pp. 105 - 1611 (USSR) ABSTRACT: Since the quantum yield in the photochemical decomposition of ozone in the gaseous phase only little exce4value of 2, the problem concerning the role played by the chain mechanism in this reaction may not be regarded as completely clear. As in the liquid phase there exist conditions more favorable for the transfer of the excitation energy between the molecules, as may also be seen from the data supplied by S.Ya. Pshezhetskiy, I. A.Myasnikov and N.A.Buneyev (Ref 2), the authors of the present paper carried out only some comparative experiments in the gaseous phase. The measurements were carried out by dilato- metric methods with two types of apparatus being used, diagrams of which are given. The experiments were carried 'out at 1830C, Card 1/3 a quartz lanp4EC -2 served as light source -rith cobalt and  .Some Rules Governing the Photochemical SOV/76-32-7-23/45 Deeomposition of Ozone in the Liquid Fhaoe nickel sulfate as light filter solutions. From the experimental results obtained it may be Been that the reaction velocity is directly proportional to the light intensity, and that the quantum yield of the reaction does not depend on the latter. The determinations in the gaseous phase supplied a quantum yield of 3,5 (average) as compared to the value of 2,0 according to Schumacher (Refs 4,5) and 3#0 according to Heidt (Ref 9) at the same concentrations. Tho value of 25 obtained for the liquid phase points out that there the ozone decomposition represents a chain reaction. The oxygen has an impe-ding effect, in the gaseous phase less than in the liquid phase, which fact is explained by a greater effect of the reaction 0 + 02 + 03 = 03 + 03*- A scheme of the mechanism of the photo- chemical ozone decomposition obtained according to the method of the steady concentrations as suggested by Schumacher, is given. There are 6 figures, 5 tables, and 12 references, 1 of which is Soviet. Card 2/3  Some Rules Governing the Photochemical SOV/'116-32-7-23/45 Decomposition of Ozone in the Liquid Phase ASSOCIATION: Fiziko-khimicheskiy institut im. L. Ya. Karpova.Mosl,.va (Moscow) Physicochemical Institute imeni L.Ya.Karpov) SUBMITTED: March 14, 1957 I. Ozone (Liquid) -Decomposition 2. Ozone (Liquid)-Photochemical. reactions 3. Photochemical reactions--Velocity 4. Oxygen--Chemica.1 effects Card 3/3 t7,  MA= I B)OK EXPLOITATION SOV/4366 K03COV. ftzlko-khimloheakly institut Pi-oblemy firlcheskoy khtmlij trudy, VYP. 2 (Problems In Physical Chemlatry; Traneactiona or the Institute, no. 2 ) Masco., Gosk"adzdat, 1959. 202 P. 1,000 copies printi. Editorial Board: Ya.-K. Var3havs$dy, Doctor of ChemI441 SclenceS~ C, S. Zhdanov, Doctor of Chemical Sciences; V. A. Xargln, A;adamlcian; Ya. K. Kolotyric-in, Doctor of Chemical Sciences (Re3P. Ed.); S. S. ftedv*dav, Acade.--cllan; S. Ya. r3henzhet3kly, Doctor of Chemical SolVancea; V. K. CheradnIchanko, Cant--date of Cheml 341. noes; .3. Chasslova (Editorial Secretary), C&ndIdat:a!f Ch:--dc&l Scienceej Ed.: 1. A. Kyaanllcov; Tech. d.t Ya. 0. Mhpak. PURPOSEt This collection of articles Is intended for Physical chemists... - ------ cbmAos. me collection is -he second issue of the Transactions of the Scientific Research Institute or Phyalca.1 Chemistry 1z:eni. I. I&. xarpoy. it coorw"Ins IT artIcLea which review 1/5 Tonkin, K. I., M. X. Morozo:r, V. ?(. fyzhav (Deca&aely_j~ _LU&!Xs=a. and V-A-r-AdRin. the 01l- 14 Is over a HonplatIA= Catalyst OpAbq!a, N. A aw~ and-V. M. Chere Ltska a anichanko. __3j__Ansxaya, -0-ioa 27 --17 t5V F tZt., WZ -xInA=3s Oi 1W Elorlathi JuM (Japan). How to Find the Xlnetlo Equation a 39 of a Ray ralble Reaction rbilloty-kIn Ya" P(.- The* Effoat'6f the Specific Adsorition or -4 the Structure Anions on bi ~;tica or Wdroxn Evolution as of the Metaa-Solutlon Boundary 50 yA7_3havakiy, I&. X. The Nature and mAchani3a or nectra- pha:-,c`-1*=rc-~-jn-r Mange 61 .1 Cry tallochemIcal Data on the Nature of or"Alona 0T rnyeatigition of the Effect or inter- Interaction on the Mtraviolet Ab3Qrptlon Sp"tr of Aromatic Compounds 20T ~S~n u"a2~ And S. P. Ormont. InvestL- b r-J um. &,Ion of Zqail nthe Sys~ed roorMid-q1trogan at Mgh Tsxperatur~es ;~d tho Dependence or the Free Ent-ly lormatloo on It* I A.- IMI., IM. A. D-brovskL7, L-A~Dr=rlXttv, I t~ A, 10 Sunt ~Sa ud/ of the Pield, f ?r--= aCylindrical L-=IAtar- With Co- &3 a po.er- ful Sour~e cr.Y Radiation 132 11.11yev and N_X-~wnl -takly. Study E of the cniza--'o. saccii-ion of n-ootano and n-Nanane M ,cules bj the 4,tthod or Bombardment With *Quasi- ;.a 146 X. klnett-- Electrons LAO-~.L-S. Radlatloft-cr'~Illcal Zffects In Solid 'tnorganlc Salts 163 eA_ 21",'-Ojoanlf~ ,,nat n o ne 169 c and L"-Urta5h"A. Cour3e of. trA Pro-eno or Benzene Oxidation ;,n . icj~;iaad- Solution Urcer the A:tlon Of FL&IIation J. (Czechoslovakia), Ye. V.-BAmIko. L. I. rt va, ."I~jmarov, and'j-~-i-Proak-r-In.. CW- M, to or Phenol Formed During the Rallojya.4a 61 N 183 n--one In an Aqueous Solution -Zbarpatyy, V. A., and G-A..Gol'der, The Problem of the Phase Composition of the System Z20-UN03-NaOH At Low Temperatures 189 .9nJkhQx V. D., and A- A-Ze-okhovi. Sensitization Or the '11;~Okldatlon' O~ Laucofor-i DyeFs Rad!.olyt  PSERMTSKIY, S.Ya.; KAMENETSMA, S.A.; GRIBOVA, Ye.I.; PAHMTOV, A.V.; MORDZOV, ",,; POSPSWTA, I.N.; APIN. A.Ya.; SIMATSUYA, V. .; SIATINSKAIA, N.A.; GEOMDNICEMO, V.M. Kinetics of the decomposition and explosion of ozone. Probl.fiz.khim. no.2:27-38 159, MRA 13: 7) 1. laboratoriya kinetiki gazovykh reaktsiy Hauchno-iosledovatell- skogo fiziko-khimicheskogo instituta im. L.Ya.Karpova. (ozone) (Fixplosions)  M A,' pa, 81970 S/076/6o/o34/07/01/009 BO15/BO7O AUTHORS: Gribova, Ye. I Kamenetskaya, S. A , Pankratov, A. V., Apint AD Ya., Pshezhetskiy, S. Ya. TITLE: The Critical Diameter and the Explosion Rate of Liquid Ozone Solutions PERIODICAL: Zhurnal fizicheakoy khimii, 1960, Vol. 341 No~ 7, PP, 1395-1401 TEXT: According'to the theory of Yu. B. Khariton (Ref. 1) the critical diameter of an explosive is the minimum diameter of a cylindrical charge in vhich a stable detonation%\at a constant rate may occur. The critical diameter of the explosive is proportional to the duration of the reaction in the front of the explosive wave and this duration is inversely propor- tional to the reaction rate. In the present work the dependence of the critical diameter on the composition of the liquid ozonellsample diluted with oxygen or carbon tetrafluoridelis investigated. The experimental apparatus is shown schematically in Fig. 1. The explosion was started by lead azide in a suitable apparatus (Fig. 2), and for experiments with Card 1/2 2ME77777717,  81970 The Critical Diameter and the Explosion Rate 3/07Y60/034/07/01/009 of Liquid Ozone Solutions B015 B070 oxygen - ozone mixtures the gaseous mixture was condensed in a receiver (Fig. 3). The measured values (Table 1, oxygen - ozone mixtures with 37-40% 0,; Table 2, 47% 03 ; Table 3, 32-96% 03 ; Table 4~ experiments in small brass tubes with heterogeneous mixtures; Table 5t CF 4-03 mixtures) show that the explosion propertiee of ozone aro determined principally by the character of the kinetics of decomposition, i.e., by the small activation energy and the large factor of the exponential function. The relation obtained between the critical diameter and the composition of the solutions agrees with the above-mentioned theory of the critical diameter of stable detonations. Measurements on the rate of explosion of an ozone - oxygen mixture with 96% ozone (Table 6) showed that the rate of detonation is not proportional to the ozone concentration. A. F. Belyayev is mentioned in the text. There are 5 figures, 6 tables, and 6 Soviet references. ASSOCIATION: Fiziko-khimicheskiy in-t im. L. Ya. Xarpova (Physicochemical Institute imeni L. Ya. 'Karpov) SUBMITTED: February 22, 1958 Card 2/2 Ai!~ 5 0  24018 SZ076/61/035/005/001/008 B101/B218 AUTHORS: -Pankratov, A. V. and Bobrysheva, L. A. (MOSCOW) TITLE: The problem of the mechanism of decomposition of liquid ozone PERIODICAL; Zhurnal fizicheskoy khimii, v. 35, no. 5, 1961, 969-973 TEXT: The study of the decomposition of ozone is of great importance for the problem of energy transfer in chemical kinetics. The authors studied the photochemical decomposition of liquid ozone. In their experiments, they prevented the decomposing ozone molecules from coming in contact with the vall of the vessel. The apparatus is schematically shown in Fig. 1. The gaseous mixture of 02 and 0 3 was conducted from the ozonizers into the photochemical cell 1 which was cooled by liquid oxygen. The mixture condensed in 1 was evacuated by a fore pump until. a pressure of 0.06 mm Hg was attained, according to the vapor pressure of 100 % ozone at -1830C. Pressure was measured by an AT-2 (LT-2) tube, After vacuum had been attained, the light source, a IFPK--2 (PRK-2) mercury lamp, was switched on and the oAone layer (5-10 mm) in cell 1 was eXDosed through a light filter (?L= 3130 X, determined by an -A (SF-4) speotrophotometer). The intensity Card 1/5 E  24018 3/076/61/0,'5/005/001/008 The Droblem of the mechanism cf.- B101/B216 of the inciding light was measured by a photoconductive cell of the type ~C-V (FS-K2) which was inserted int-o 1. The oxygen liberated from 0 3 due to the action of light passed over to the gaseous phase. Its pressure vias measured by means of a "post-hole" glass pressure gauge. The following results Tere obtained; 1) The pressure of 0 2 increased in proportion to tne time of exposure. 2) After switohing off the light, the pressure of 0 2 .rate did not depend on the remained constant for 3 hr. 3) The reaction' quantity of ozone. Table 2 lists the experimental results: quantum yield 8 and reaction rate v at -18300, If, however, cell 1 was filled with quartz rods, the results I, quanta/mole-sec v, mole 03/ sec Y given in Table 3 were cbtained: 6-55 13.0 2.0 4.86 9.7 2.0 4.30 7.9 1.8 1.35 1.5 1.1 1.20 1.5 1.3 1.02 1.5 1-5 0.74 1.5 2.0 Card 2/5  24018 S/076/61/0551/005/001/008 The problem of the mechanigm of... B-101/B218 number of packing I rea,.-;tion rate quantum yieli M(AP 03/san Minimlim MrL x i 5? 17.5 2.24 i,5 12.6 9~40 4.6 16.7 1 . a6 17.9 4 4.9 While the experimen-rs listed in Tab- 2 -u2ted _i n a quant,.-ar, yield of < 2. the latte?r was > r, the -n-resence of a panklr~f--.. Sir ~,,P the I;e-t.t inciding u-on ozone could not be measured in the latter the authors give a minimnum and a m-aximi,--m value. For coriqt-nt -xpos,.-~.--a, Vne temperatiir,? dependence of the quaritum yield 0c f t 1 7 Two reac-tion me(,banisma req-tlt therefrom. 9 Temrernture- .inde-nendent me,' h-inj.!3m beic.-r, ar-A ~i tc-rd-,: ere -183 1 8 depprAert mechanism abnvf~ -16)0`0 ThE a,--~ ivn~i .(,Y~ F--.arav -155 2 : A I'll was calculated to be 4200 The -145 7.9 are inri'ten down: 0* - 0 0* 0, hV 0 W; C -140 4,9.6 L '1 2 3 (2); 0 + 0 + 0 0, C) (21) 0 0 1 d ?0* o0! l ii (211 3 3 2 Card 3/5  24018 51/07-:i/6 1/0" ~-/00 5/00 1 /CC,8 1 The problem of the mechanism of-. B'ol /B2 I P 0 +0 +0 0 +0~ (5); 0* '0 0 4 0 0 (4) 0" 0, ~ 0 2 3 2 (5); 1K 1) For tem-per,)~ures beic- -16000, the 02 02 =0 2 -1 02 (6) - Summ-!ng ur: ra te of rea c. 4 1 on 2. 1oulneiehs tb-,4 of reacti~-,n Tne hci%ogerpcits z decunposilion of 0, Is determinpiJ by -bf~ reaotionr: 1, 2- 4. 5'. and 6. Above -1600C, reactior 2 T)redominate.-i, and the nil--ar,tum yield cl--psnds -.r. temperature, In the presence e:f a packing, rez,-tirr, r"' 1-r-edominates (oatalytic reaction between 0. 0 31 and the mall). The fcliowing kinetic I equations are derived; -d [0 /d t ILI +k ~ ka -9 k 31 41 5 + (J-2/2)(k ]1/2/k1/ 3L021103 2) ~, + k4Ic', kg)]1/2(T (7), and for the case 1021 0 one has -40~/dt =I[1 + ],/(k 5/ /k 4 + 1 k 11 (8), It is noted that these equations have only a qualiLative charseter.. There are I figures, 4 tables, and 6 references: 2 Soviet-bloc tind 4 non-Suviet-blon. The reference to '-,-he Engji3h-language publication readn fi.~j followa: A.. Jenkins, F. Di-Paolo, J. Chem. Phys., 25, 296, 19F,6. SUBMITTED: December 10, 1958 Card 4/5  BASYROV, Z.B.j PANKRATOVL A.V. Sensitivity of ozone-oxygen solutions to pressure pulse. Y-him- prom. no.3-174-175 Mr 162. (MIRA 15:4) M~2d oxygen) (Shock waves) (ozone)  37635 S/076/62/036/005/010/013 BIOI/ 110 AUTHOPS: Talakin, 0. G., Akhanshchikova, L. A., Sosnovskiy, Ye. N., Pankrat-ov, A. V., and Zercheninov, A. IT. --------------------- TITLE: Heat of formation of fluonitrate 13ERIODICAL; Zhurnal fizicheskoy khimii, v. 36, no. 5, 1962, lo65-lo67 TEXT: The heat'of formation of NNO F was calorimetrically determined on 1 3 the basis of the reaction NO F + 2KOH - KNO + KF + 0-5 0 + H 0, the NO F 3 3 2 2 3 being synthesized by bubbling F 2 through HNO 3 thus: HNO 3 + F2 - HP + NO 3R The HF,was absorbed by KF, and NO 3F was condensed at -1830C. The heats (kcal/mole) of reaction between NO 3F and KOH (Q1 . 93.5 7 0-8), between XF and KOH (Q3 ' 3.35 F 0.011), and between KNO 3 and KOH (Q4 - -5 - 93 F 0.023) were measured with a calorimotor calibrated with M. From tho eyotom of equations which allows for this and the other side reactions of the process the heats of formation of gaseous and liquid NO 3F were c alculated Card 112  S/076/62/036/005/010/013 Heat of formation of fluonitrate B101/B110 and found to be -4.2 T 0.9 kcal/mole at 21'C and -4.2 T 1.2 kcal/mole at -45-90C, respectively-.' There are 2 figures and 4 tabl'es. SUB" IMITTED: May 17, 1961 Card 2/2  PkNILRATU~ 2'..V.; SOKOUTV, O.M.; '7. T. jyntlle5i s off dif Da or-. c,; ~,-~7 1 re~ 7hiur n~-; crg ],h AfT  L 0 hOL--67- DPT JDIjWljG m)/EWP(t)/ETI IJPCP)- ACC NRs AP603 1749 SOURCE CODES UR/OoqWd-l-itd-0-7rl4-97[1-!~~3- AUTHORS Pankratovj, A. V--; qo~ojovp_q.~_ M. OROS none TITLE: Boaotion of fluorine with sodium azide SOURCES Zhurnal neorganicheskoy khimlip v.11v no. 79 1966j, 1497-1505 TOPIC TAGSS fluorine, azido, sodium compound# halogen nitrogen compound ABSTRACT: 7ho reaction offLuorino with sodium a~~do produco4 cis and trans isomers of difluorodiazine, nitrogen trifluorido, 1~ Th _pitrogon, And sodiuxp~fluoride. e yield of both diffluorodiazine isomers and nitrogen trifluorido was studied as a function of the temperature in the reaction vessel) fluorine consumptiong dilution of sodium azide with calcium fluoridep and dilution of fluorine with nitrogen. The optimum conditions fo; obtaining thb beat yields of difluorodiazines wore determined, It was found that thefollowing three conseoutive-parallel reactions take place during the fluorination NaN13 + Fz = NaF + I/zN2r-2 + N2 NaN3 + ZF2 = NaF + NF3 + N (2) 2NaN3 + F1 =: 2NaF + 3N2 (3)'.. Cord 1/2 UDC1 546-16+546-331171.8  _,_Iu -MUM-WAZ-W 1 6 ACC NRi W03174-9 A moohaniam is proposed for thon roActions whiah satisfactorily Aacounts for tbA 6x-. perimental data. Orig. art. hass 7 figurest 3 tables and 12 fonmulase SUB COMi 07/. S*UBM DAM 25ju164/ =0 REF 8 003/ MH REF 8 004 c3rd 2/2 k  'AeC NRi AP6032268 SOURCE CODEt UR/0076/66/040/009/2101/2104 AUT11OR: Zercheninovp Ao No; Chesnokovo Vo No; Pankratov, A. V# ORG: none TITLE: Standard heat of formation of chlorodifluoramine SOURCE: Zhurnal fizicheskoy khimii, v. 40, no. 9 2101-2104 .A TOPIC TAGS: chlorodifluoramine, heat of formation, potassium iodide solution, gaseous chlorodifluoramine,_Iiquid chlorodifluoramine Avoie.,pip- L'H&0k',"F- ABSTRACT: The standard heat of formation of chlorodifluoramine has been determined from its reaction with an aqueous solution of potassium iodide FaM + 1-4 F1+ - 12 + N2F j + CF +'r,- + Nih-i~ + Nt. This r'eaction proceeds in~-.several steps. Selection of proper [unspecified] pH of the solution and contact time of NF2Cl with the solution reduced reaction'l to the reaction NFICI .' + I/zKl XCI + %K13 + 1/2N,K.. NF2C1 used in the experiments contained, in addition to N2 and N20, 1 to.7% N2F2 whose presence caused in the calorimeter the additional reaction KI 2KF + .1(11 + Ni~ (3) .Card 1/4 UDC:~ 541.11  Table I. 13 d 4,0-1 IUM C1 Analyele W.. the Solut on 44 2 content jj-'4 Og CIA 0 -1 4. cy in the 00 '0 0- u 0 &J, r4 M-1 ~4 P ~!Idj sample,. (:l U44 Cate 19 cd 04 td 14 w C: u 10, u z 9 9 9. 14 cr ~cd . ~. M ~ tc E i ~ t~ E 0 fig L) PW c6N 0 0 ~4 0 A 44 U "14 11' 1z 44 44 .0 a 0 go, -t 0. 165 0,0054 016300 40700,0094 0,627 0,6119 158,9 21,7 W,2 29 4B' -83.6 0.4010,0267 1.662 0:9802 0.0464 1.614 1,53G3 A73,4 107.3 366.1 32:37- 93.6 0,426 0.0286 1 . 680 1,0509 0,04 97 1. 716 1.51 j!) 465,9 115,0 350,9 29,20 836. 0 4010.0324 1A07 0,9892 0,05G3 1,652 1.44% 446,7 131,2 316,5 27,98- 83:6 0:372 0,0272 1053 0.9176 0 0473 1,513 1,297.1 390,8 109,4 290A 27,68 80,4 .0,2613,178 I,1Y% 6446 0:0309 1,054 1,2773 .316,2 71,5 244.7 33.20 78.5 0,283 0,0131 .69810,0228 - 1.3024 266,9 52.7 244.2 30,60 0. L79 0. 0 136 .4416 0,023G - 0,9327 212,7 54.6 158.1 31.31 75.5 0; 322 O;OM 1072 .7943 0,0162 1,215 1,4212 - 324.0 37.5 286,5 31 55 62,1 0,376 0,0188 92760,0327 ZT4 1:2577 379.8 75,6 304.2 28:0- 36 1 OSMO.0228 2; 1 3715D.03% 2 2 7240'621,1 DIA 529 5 33,77 36:1 0:3150,0166 1 7770 0; 0288 1,2301,4913 341,4 66.6 274:6 30,93 36,1 0,333 0,0173 It M 8214 0 030D 1,3071 q 341,2 69.4 211.8 28,94 38el 0#2790,0142 It 13 :610 :0247, 1.09311,3242, 301,01 67.1 244.8 31.11 Averase AH w,-3Os5'k1~6Acal r Vvq tord 71A  ACC N& AP60321 8 The experiments %wre condLebed in- a cal"eter described in,earlier studies by the authors. The experimental procedure is derribed in the source. The reacted solutions were analyzed for F-, Cl- and Nil, Ions and for separateci.iodine. The exper.imental-results and the calculated heats of th 'e reactions of NF2CI with.KI solutions are given in Tablel. The heat of formation of 'gaseous NF 'CI was calculated 2 ~ from a thermochemical equation which took into account the heats of formation and solution of the substances involved. The respective heat values were taken from reference books or earlier studies. The missing value of the heat of solution of KC1,in KI solution was determined experimentally for a neutral ISZ KIsolution QqklA.'21. Th~-_q!tnnderd' heat. of formation of O'us N 'C1 woo found-to* be _gase F7 Table 2. IleAt of solution of.'. C~Cll E; ~t,:deg I~Cl in a neutral 15% solution, of KI (6118) 0.8540 -0.1827 3'.74 0 9323 -0.1973' 3.70 ' - 3 7O -- O2 k t0 l/ . All !Average 0.8403 '-0.1778-': . ca mo- kcal mol 0.8354 -0.1755 3.67 3.70 i-ara J114 I  ACC NRt- AP6032268 3.2 �'2.9 kc-al/moi.--The heat of' formation of liquid NF2CI was calculated by taking the value of 4.35 kcal/mol for the heat of vaporization of NF.GI at -67C (boiling point), and in the assumption that the average heat capacity of NF2C1 in the range 298-206 X Is'equal to that of NF3 (11.5 cal/mal,deg). The beat of formation of liquid NF7CI at -67C *was iound to be -2.2 kcal/mol. The N-CI bond energy I~as calculated in the assumption that the-N-F bond energy in NF2Cl is equhl to that in the fred HF2*. radical A[Pins P) + A11106 W10. -.Affj,,(NF.CQ.t= 35,3 kcal mol.,i-J Orig.-art. has 3 tables. SUB CODEi~ 21i 07/ SUBH DATE: 19Har63/ ORIG REF: 005/ OTH REF: 003/ - ------------------- L~Erd---4/4-  KUZNETSOVA., T.V.; YEGOROVA, L.F.; PANKRA.TCV.A.V,? Some physicochemica:L constants of tetrafluorohydrazine. Zhur. fiz, khim. 38 rto.7:1860-1862 JI 164. (142RA 18:3)  PANKRATOV, A.V.; AKPIUSHCHIKOA, L.A.;- 33HALAYEW, YLIMETSDVA, T.V. Reaction of tetrarluorohydrazine wl.th po4"Assium, iod!de aqi;eoue solution. Z-bur. neorg. khim. 9 rc.6.-151.7-1519 Je I C,2 0 - (MIRA 13:8)  -- --------- ---- -EPA (!!)--2 /P~- -j 1--*i Aprf-1) /U?(n) Z2.A!PRFWP(-o),/FWT-(h) 11 1tFt_lrj P12 -)4 P&I JD/WW/JW1JG ACCMSTON IrR: AP4Ca,,26(,13 s/w_Ti5/Q/o3f /m7,'-Le6ofl1862 AUMOR: Kuznetc;ovt, To V*j YtEE2M, L. F-1 Pankratov, A. -V:_ TITLE: PbPiao-chemital constantS of tet=4w_rQl!;imLine SMCE: ZhurnalTizUbookoy kbWi; 19G4p 3.%0-1M mpl-c VM- tft_tr-afjuo-,obydra_Ane, saturat-d V--?Or preatmffo7 melting point, criti- cal temperelk-ura, criticall presoure, physicail constant AMMCT: The pm>ose of this -,mrit van to deta=iue tbe saturatea vz~porjlp~'Sstu'-) Po~xlt,. CrIL"Act"ll rtn-~ nf ij, L rqf 1 an rnh~tchnizLin "VIP'N -f-AM-1 "DltRM ~i_ �39.0 Art '1"4-A Af- XIM-- MO: 9 V .0- rm Of  -WR R R  PANKRATOV, A.V.; BOBRYSHEVA, L.A. yJachanism Of liquid ozone decompOsitiOn- Zhur. fiz. khim. 35 no.5.-969-973; I~j 161. (mm 1637) - Ozone) (~heimical Rate of 5  PANMTOV RCHENINOV, A.N.; TAIAKIN, O.G.; SOKOLOV, O.Mi; A.V.,- MA Standard enthalpy of the formation of an active isomor of difluorodirizine. Zhur. fiz, khim. 37 no.6:1399-1401 ~e 163.. (~MU 16.:7) (Diazine) (Beat of formation) -Y  PANMTOV, A.V. Chemistry of some inorganic nitrogen flualdets. Usp,, khlm. 32 no.31.336-353 Mr 163. (MIRA 16:4) Olitrogen f2uorides)  c '074/63/03VO03/002/002 A057/Al 26 AMHOR: Pankratov, AN. TITIZ; Chemistry of some inorganic nitrogen fluorides PERIODICAL: Uspekhl khimli, v- 32, no- 3, 1963, 336 - 353 The anthor gives in this paper a review of literature data on the nitrogen fluoride chemistry. 75 references are given of which 72 are of western authors and 3 of papers published by thp present author and coworkers. The first chapter of the review discusses the structure of the nitrogen trifluDride inole- cule to explain the characteristic properties of nitrogen fluorides. In the next chapter a thorough discussion of 'Irlydrazin tetrafluoride is given with ap- propriate literpture datz on the mcth(:~d of eynthfvis, the physlcc,-chemical prop- erties, and chemical properties. To the iatter treiongs the aoll~ty uf 5"16- stance to react in two ways: (1) li2F4 +- M --> M (1-TF2). and (II) N2F4 M - --+ ren + N2. The occurrence of these two reactions was proved by the author in a reaction of hydrazine 1.6trafluor-Ide with an aqueous solutlon of potassium iodide (Zli. neorg. kjilrp, in pi,int). The, chap"r dr)als w1th d1f1t_ic)r,)- Card 1/2  S/Cr[4/63/032/003/002/002 Cheudstry of some inorganic nitrogen fluorides A057/AI26 amines and chlorodifluoroamines. Among all possible syntheses of difluoroamine only the reduction of hydrazine tetrafluoride gives difluorownine with a good yield. Dif-luoroamine is charaote-~-~~ed '"Y a rtr~-ng oxidation efffict, a reactivi- t,- 1"or introduct.on of -.he r-TF- group, ant iristaniii'Ly, J.,L-., Chlorodifluoroamines could also -~f -',I-L-erest fo,-, tne Llt"Djuct,or ,f' ".::?2 groi;p. In the lazt chapter the au--nor discl-sses -,he fluoro az.'de arll~ 4somers of difluorc-diazine, citing literature data on creparation and properLies of t~jese exzremeiy higb-exploziva T.I;iera- axe T-able s  MOM 'khtm PANKMOV, A.V.; KHANANOU,, E,.Ya, ---------- Synthesis of nitr6gem.trifluoride. Zhur.neorg.kbim- 7 no.0,7:1743.Jl 162. (AURA 16;3) (Nitrogen fluorUe)  ...........  O.G,; AKHANSHCHIKOVA, L.A.; SOSNOVSKIY) Yu.N.; PAIaRATO-Vp A-V-; TALAKINY VPRCMINOV, A.N. Hoat of formation of fluonitratb. Zhur.riz.khlm. no.5:1065- 1067 my 162. (MIRA 15-8) (Fluonitrate) (Heat of formation) "~A  -L L! !~rutsoll- 1.111'. 10. Letuoplsl ZlInu-nalInyllch staLc~y, No. 2), !Eos!-Va, 1011r).  ---- PANWTOV ~ - A.- YK-,- - - Brutsellez sellskokhozyayetvennykh zhivotnykh i mery borlby nim (Brucellosis in Farm Animals and Moasurea for Combatting It), Frunze, 1950. 24 pages. U-5235  YA, Drop McthoO An the Flood Agf.,Iutin,,,tion Test for the Diagnosis of rrucellosis,11 Veterinariya, No. 1, 1950. Card. Vet. -Sci.) -cl~7"150-.  PAIMAIN, A,,~dnd TRETIYAKOVA, A. 117he causes stimilating the appearance of strangles of horses ani the method of liquidation of strangles infection.'? SO: Vet. 27 (11) 1950) pe 29 0 0 0-0 0 0 0 0 0.0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 9 0  PANIOATOV, A. t1strangles of horses Franze, 1951. 8 -Da!,:es. SO: Vet., May 1952, Unclassilied.