O.A. Changes in denatured alcohol vith deviation in temperature. Spirt. prom. 26 no.6:14-15 160. (MIRA 13:21) (Alcohol, Denatured)  VOLKOVAP O.A. Bathing patients with rheumatic fever and Infectious nonspecific polyarthritis in mineral water from the Kuybyshev spring Car therapeutio and prophylactic purposes. Vop.revz. 3 no.1:53-60 Ja-Mr 163. (MIRA 16W 1. Iz kafedry fakulttetskoy terapii (zav. - prof. H.V.Kokhanovich) Kr7mokogo meditsinskogo instituta. (lUrBYSHEV PROVINCE-KWML WATERS) (RHEUYATIC HEART DISEASE) (ARTHRITIS9 RHEUMATOID)  KLINOV, Ya.l.; VOLKO~A,_qtAA_, Glue for the affixing of labels made fr= cellulose este-ra. Ferm. i BpJrt.prom. 30 no.4236-37 14. (MIRA 18:12) 1. Ukrainskiy nauchno-isaledovatellakly institut pishchevoy romyshlennosti Khartkovskogo soveta narodnogo khozyaystva for Klinov). 2. Khartkovskiy likero-vodochnyy zavod (for [ Volkova).  EELOV, K.A.; Yqj~KQVA O.B I TSIMOVA M I.; OGLOBLIN, N.D.; LUKIYACHEIIKO, VA.; TULICIIIIIWU~' A.Ya. Effect of the chemical componition of the reagents, used for coal fIctation, on their activity. Koks i khim. no.8:8-12 162. (VTI~A 17:2) 1. Kharlkovskiv polifekhnicheskiy, Institut (for Belov,. Volkova, W.ksimova). 2. KhartkovBkiy gornyy institut (for Oglobling Lijkl- yanchenko, TullchinskAya). SLUM 92M PLIWI-IdPztc~~ 11M.MM  Y-,~~O-N-O.B.; KAZAMKIY,. V.L.; VOLKOVt YU.M.; Prinirrali uchastlye. KUTYAKOVA) O.A.; PETROVA, N.I. Obtaining surfactants from low-boiling fraotions of light paraffin. AZ Nefteper. i neftekhim. no.7t22-26 164. MI RA 17: 11) -'n 1. Kuybyshevskiy nauchno-isoledovateltakiy institut neftyanoy promy- shlonnooti i Vaesoyuznyy nauchno-issladovatellskiy I proycktnyy instl- tut sinteticheakikh zhirozameniteley,  AMMICH NRt AP4032923 5/0286/64/000/008/0042/0042 AUTHORS Volkovp Yu. H.; Vo:Lkcrva,# Oe Do ,ITITLEi Method of producing, surface-active substances of Um aLq2wAlfonate tM. Class 0 22d# 23as, 2# Noe 26.18W (811208/23--h.0 29 Doc 1962) 'SOUnGEt BYWIetent LzobretenV 1, tovarny%kh zn*ovp noo Oj, 1964# 42 !TOPIC TAOSt a2ky2sulfonates surface-actiTe substances oulfochloridation, hydro- carbon 'ABSTRALM A met-hod of producing surface-active substances of the aXq2aulfonate !type by sulfochloridation of hydrocarbons of high xoUculav weight,, with subsea f i quent saponificatione The distinguishing feature In improved-quaUtV ond producta-P, 'The hydrocarbons of high =olects'- weUbt we saturated with sulfurous anhydride .prior to sulfockiloridatione ~A~SSOCXATIM No no lCara!_2A -7-  ZUBCDANINOV, V.V.; ASTROV, O.V.; VDLKQMAj_O.D._- KLEMM, Yu.V.,- SAIIbUR'OVA, I.V.; Skf%,GNCVA, L.J.; SYROVEGOA, G.G.; RADUSHIUSKIY, L.A., kand. tekhzi.nauk, retsenze4t;TILLES, S.A., kand. tekhn. nauk, red.; PEZUKHOVA, G.N., red. izd- va; DEI-IDIA, N.F., tokhn, red. (FA!onomic efficiency of the autoration of production proces- ses in the textile industi-j]Ekonomicheskaia effektivnontl av- tonatizatsii proizvodstvemylh protsensov tokntillnoi pro- TOYSILIennosti.(By] Zubchaninov, V.V., i dr. MoskvaI Mashgiz, 1962. 198 P, (14IRA 15:11) (Teytile industry-Costs) (Automation)  ~-VOLKOVA, 0.1. Sugar industry in the Chinese Peopleto Republic. Sakh. prom- 35 no.2:69- 70 F 161. 04IRA .14:3) 1. Moskovskiy tekhnologicheskiy institut pishchevoy promyshlennosti. (China--Sugar industry) "M j V  Cooperation of the countries of the world socialist system in the development of the sugar industrya Sakh,prom, 33 no,4;10-14 Ap 161. (MIRA 14:3) 1. Wakovskiy tekhnologichookiy institut pishchevoy promyshlennosti. (Sugar industry)  SOV/21-59-12-9/20 AUTHORS! Babko, A. X., Y4mber of the Academy of Sciences Ulk-rainian SM, TITLE: Photometric Determination of Titanium an a Pyridine Galicylate Complex PERIODICAL: Dopovidi Akademii nauk Ukrains'koy RSR, 1959) Nr 12) PP 1316-1339 (USSR) ABSTRACT: A new method of photometric determination of titanium (IV) in steel is proposed. The method is based on the formation of a colored (yellow) complex by the reaction of titanium with aalt- cylic acid and pyridine or other organic bases (quinolinej pyramidon)'. The complex was separated and analyzed. It was shown that it contains the components in the following ratio: Pyridine:titanium: :salicylic acid - 1:1:3. The complex Tilsalicylic acid - 1:3 7an be expressed: (TIO) /0 \ CjH4)j-- (1) ITI \C,H,~]' (11) (\00C/ \/006 H (M) /0 .>C.F1,) ]- (111) [Ti \C.H4),]'- (IV). Card 1/4 (\,H .3 \ \Hboc",  Photometric Determination of Titanium as a SOV/21-59-12-9/20 Pyridine Salicylate Complex It was assumed that the titanium:salicylic acid complex forms with pyridine the following compound: PyH TiO '/0 \C 1i (I 11). \1100C/ The ternary complex is only slightly soluble In water, but readily soluble in chloroform. The optical. density of the chloroform extract of the tertiary complex is measured using GF-4 spectrophotometer. Visually, 1 ; 10-5 g Ti/25 mla of the extract clan be determined. The sensitivity of the proposed method is seven to eight times greater than that or the hydrogen peroxtde method. liftet-ference of other elements Is eliminated by complexing them with thiosulfate. The following procedure is given. Dissolve the steel sample in a mixture of sulfuric and nitric acids. Take an aliquot of the solution and neutralize with ammonia to pH 1-2. Add 1-2 drops of ammonium thiocyanate, then add 10% thiosulfate solution dropwise until the iron-thiocyanate color disappears. Add 1-2 m1s of a 10% sodium salicylate solution and few drops Card 214 of pyridine. Bring the pH of the solution to 3-3-5. Transfer  Photomrtric IX-terniration of Titaniu=. as a SO-1121-59-12-0120 Pyridine Salicylate Complex the solution into a ceparatory funnel. and extract the complex wit), 3-4 portions of chloroform; collect the extract in a 25 mls volumetric flask and make up to volume. The optical density of the extract is measured at Wo-430 m ~L using the SF-4 spec tropho tome ter - Some standard steels were analyzed. The results are shown in the table below. TI Cr NI CU V co-nA 0.11 0.09 0.22 0.120 0.12 0.12 CO-10231 24.51 0,22 0.11 - 0.26 0.26 027 Co- 123' N.57 0.22 0011 F). 0,26 0,27 0.27 Co-620 10.75 18,11 0,22 - 0,41 0,41 0.42 Co-629 10.75 18.11 0.22 JO* 0141 0.40 - 0).-167" 21.1 - 0.06 - 2,44 2,40 2.42 C.-I67- 21.1 - 0.06 500 2,44 2.48 - Co-87 12,'4 0,55 2,26 0.12. - 0.12 Card 3/4 Key to table on Card h/4)  11iotometric Determination of' Titanium as a Pyridine Salicylate Complex Determination of Ti in oteel. Key: (a) Steel specimens; (b) Interfering elemenIx, (according to specification);(c) Ti found in %, by using (d) pyridine, (e) pyramidon; (*) added. There are 2 figures; 1 table; and 2 Soviet references. ASSOCIATION: Institute of General and Inorganic Chemistry, Academy or Sciences Mrainian SSR Onstitut azlial'noi ta neorganichnoi khimii AN USSR) SUBMITTED: July 3, 1959 Card 4/4 5-5 Al VIPirl M  ACCESSION NR: AP4018368 5/0120/64/000/001/0076/0081 AUTHOR: Boost E. G.; Pavlovat N. P.; Volkova, 0. 1.; Guneakova, 0. V.; Zaytsev, K. G.; Kholmetskaya, A. V. TITLE: Methods 'of measuring ionization losses of relativistic particles in a nuclear emrlsion SOURCE: Pribory* i tekhnika eksperimenta, no. 1, 1964, 76-81 TOPIC TAGS: ionization loss, relativistic particle, relativistic particle ionization loss, nuclea'r emulsion, Ilford G-5 emulsion, emulsion development, emulsion development irregularity ABSTRACT: Irregular#ies of development of Ilford G-5 nuclear emulsion were studied; rnc:thods of eliminating them are suggested. A stack of 40 G-5 films, 640-n-dcrort thick, lZx20 cm was irradiated (in CERN) by a 91.8-Geyle -mean- irlipulse proton beam. To find the irregularity, of development of the emulsion filins, the density of blobs on the relativistic -particle tracks was investigated both in the plane parallel to the emulsion and'in depth. The effects of the micro- Z&'H 1 1 / 2  NR: AP4018368 ACCESSION .,scope field-of -view illumInation. experimenters characterio tics, and the trackI immersion angle'upon the accuracy ot, mcasuTemonts wera studiod. It wan p.*oven that a desirable accuracy (21o or betto"r) in deVerriiining ionization losses with immersion a.ngles up to 100 is attainab*le. The technique of "joining" tracks adjacent emulsion. layers is discussed,. "The authors wish to thank Zh. S. Takibayev and I. Ya. Chasnikov for a useful discussion of this project, and the workers of the High-Energy-Particle taborat6ry, A. A. Alpy*sbayeva, To. Ya. Kagasova, 1). L Yermilova, F. N. Trushlyakov, T. T. Temiraliyev and G. A* Grigor'yeva, for their help in carrying out this project. 11 Orig. art. has: 3 figures anti 3 tableB. ASSOCIATION: Institut yadernoy fiziki AN KazSSR (Institute of Nuclear Physics, AN KazSSR) SUBMITTED: llJan63 DATEACQ: l8Mar64 ENCL: 00 SUB CODE: NS NO REF SOY; 000 OTHER: 007 6 r -t1'.2/k_  BOOSI E.G.; PAVLOVA, N.P.; VOLKOVA, 0.1.; GUNENKOVA, O.V.; ZAYTSEV, K.G.; FJIOLMETSKAYA, A.V. Methodology of measuring ionization losses by relativistic pExticles in a nuclear emulsion. Prib. i'tekh. eksp. 9 no.l: 76-81 Ja-F 164. (MIRA 17.-4) 1. Institut yadernoy fiziki AN KazSSR.  18(5) SOV/128-59-3-27/31 AUTHOR: Volkova, 0.1., Engineer TITLE: Fusion Welding of Defective Castings by T..,Teans of ?IT; 15 Alloy. Liteynoye Proizvodstvog 19599 Nr 3, p 47 (USSR) ABSTRACT: Welding of magnesium alloy die casts is very difficult. Most suitable is the oxy-acetylene or the arc welding method. As filler rods.Mg alloy ML 5 type of 6 to 8 mm diameter is used. The defective work pieces are warmed up locally (complicat8d shapes should be com- pletely warmed up) up to 250 Celsius. After weldinG the work pieces.are relieved from stress by heat treat- ment of 420uC, followed by a down-cooling period of 16 hours. Welding by using the acetylene method is better than the method described within the Soviet Russian Instruction Standard "AN 1201 - Removal of Defects in Castings from Magnesium Alloy by the Arc Welding Method". Card 1/1  "Miltrobiologie des mine ralhal t- Igen Lehmschla=ws." report submitted for the 7th Intl. Cong. of Moorland Research Frankskovy Lagne/ Franzensbad-P3.mgue, 15-19 Sep 60.  SOV/137-58-12-24303 Translation from: Referativnyy zhurnal. Meta)lurgiya, 19i8, Nr 112, p 53 (USSR) AUTHORS: Volkova, P. I. , Diyev, N. P~ , Koc),nev, M. TITLE: The Behavior of Zinc Compounds When Matte is Allowed to Stand (Povedotlive kicivedinetity ftm&i pii otro~liv,mii sl~ivvno0 PERIODICAL: Tr. In-ta metallurgii. Ural'skiv fil, AN SSSR. 1957, Nr 1, pp 87-92 ABSTRACT: A Kryptol furnace dnd alunchirn crucibles are used under )aboratoi v conditions to run experit-nenis in whicY Cu mattes cont~iining -25% Cu and various amounts of Zn are dliowed to sland. It is established that up to - 8% of the ZnS in d rn~-It of Cu matte at 11400C is in solu- tion. If the ZnS content is higher, the excess is in the form of a ZnS-enriched sphalerite solid solution, wliich rises to the surface when the matte bath is allowed to stand and forms a th,,ck viscous mass that complicates separation of the matte and the slag. The Zn0Fe203 + FeS=ZnS + Fe304 reaction occurring in the melts causes the bulk of the Zn ferrite to convert to ZnS when allowed to stand for a long period. The magnetite is concentrated by segregation in the Card 1/2 lower portion of the matte ingot, and also in its upper portion, which  SOV/137-58- )2-24303 The Behavior of Zinc Compounds When Matte is Allowed to Stand (cont .) is of elevated viscosity when allowed to stand. Small amounts of SiOz and A1203 found in matte nielts do not precipitate. Ye. Z. Card 2 12  SOV /137- 58-12-24300 Translation f.rom: Referativnyy zhurnal. Metallurgiva, 1958, Nr 12, p 53 (USSR) AUTHORS: Volkova, P, I., Diyev, N. P., Kochnev, M. t. TITLE: Reaction Between Zinc Matte and Metallic Iron (Vzaimodeystviye mezhdu tsinkovistym shteynom i metal] icheskim z)-.elczom) PERIODICAL- Tr. In-ta metallurgii. Ural'skiy fil, AN SSSR, 1957, Nr 1, pp -.93-98 ABSTRACT. The reaction between ZnS and metallic Fe in the 600- 13000C tempera- ture range is studied. The thermodynamic calculation of the isobar potential is studied. It shows that the probability tf~at the reaction would occur rises with temperature. A study is made of the rate of reaction between Zn matte and metallic Fe. It is established that: 1) The quantity of Zri, removed in the process at a given Fe content rises with temperature; Z) the reaction between the solid phases occurs in the first 20 min, after which it ceases; 3) when the Fe content in the specimen is low and the temperature is 10000, the reaction between Zn matte and Fe hardly occurs at all; 4) the marked change in the isobar potential of the reaction between ZnS Card 1/2 and metallic Fe at 9000 corresponds to the maximum Zn removal  Reaction Betvicen Zinc Matte and Metallic Iron established by kinetic investigations. SOV 113-t-58-12-24300 L. S.  VOLKOVA. 1.4 - ~f, - 'i Stratigm*q and faunal characteristics of Nalkop deposits of central Ciscauensia. Nat.VMBI n0,14:79-93 156. (NLRA 10:1) (Caucaefig, Northern-Geolog7. Stratigraphic)  15-1957-3-2636 Translation from: Referativnyy zhurnal, Geologiya, 1957p Nr 3. p 15 (USSR) f AUTHOR: Vo~,kpva,,.. N*S. TITLE: The Problem of the S ratigraphy and Faunal Character of the Maykop Deposits of tht Central Predkavkazlye (North Slope of the Caucasus) (K voprosu o stratigrafii I faunisticheskoy kharakteri3tike Maykopskikh otlozheniy Tsentrallnogo Predkavkazlya) PERIODICAL: Naterialy Voes. n-i. geol. in-ta,1956, vol, 14, pp 79-93 ABSTRACT: The most complete sections of Maykop deposits In the central Pi,edkavkazlye occur along the Kuban' River from Cherkassk to the Yaman-Dzhalga farm, and also in drill- holes in '-he western part of the Belomechetskiy syncline. Six series (svity) are distinguished in the XubaiA section of the Maykop sequence (600 to 700 m thick). These are the Batalpashinskaya, the Septariyevaya, and the Zelen- chukska:ya (all considered to be middle and upper Oligo- cene); the Karadzhaiginskaya (belongs to the lower Niocene Card W  The Problem ol' the Stratigraphy (Cont.) 15-195'1-3-2636 and upper Oligocene); the 011ginskaya (from macrofossils con- sidered to be lower Miocene); and the Hitsevskaya (belonging to the lower part of the middle Miocene, the Gellvetskiy yarus (stage)). All the serieS consist of clays, except for the Zelenchukskayd. series, which contains sandstones. The 011ginskaya series is characterized by molluscs., but it also contains small foraminifers. Among these, X.N. Subbotina was abI6 to distinguish an "arenaceous foraminifer" zone, which is a marker zone for the upper Maykop rocks. West of the Kuban' River, and also south (in the region of the Manych and Sallsk steppes), the Maykop series changes facies, becoming more sandy. This change Is evidence of fluctuatingimovements in Maykop timeo occasioned by inequalities in the sea floor. A comparison of data of the Maykop rocks of southern Yergeni with new data from the central Predkavkazlye indicates that the upper part of the Nugrinskaya series, the AradygBkaya series and, possibly, the lower part of the Tsagankhaskaya series are of the same age and correspond to the 011ginskaya series; Card 2/3  The Problem or the Stratigraphy (Cont.) 15-1957-3-2636 i.e., they are lower Miocene. A comparison-of the groups of fossil species is given for the Maykop rocks of the Predkavkazlye and southern Yergani. N.N.B. Card 3/3  Translation from: Referativnyy zhurnal, Geologiya, 1957, Nr 7, pp 21-22 (USSR) AUTHOR: Volkova, N. S. TITLE: Neogene of the Central Predkavkazlya (Stratigraphy, Lithology, Fauna) (Neogen Tsentrallno-o Predkavkaz1ya (stratigrafiya, litologiya, fauna)) PERIODICAL: Materialy Vses. n.-i. geol. in-ta, 1956, Nr 14, pp 94-107 ABSTRACT: Short descriptions of the stratigraphy, lithology, and fauna of the Neogene rocks of the central Pred- kavkazlyanre given, based on new data obtained'dur- ing structural, bore-hole mapping, and geological surveys. It has been determined that the Tarkhanskiy horizon (7-24 m) occurs only in the southern part of the central . Predkavkazlya, where it lies conformably on Maykopskiy clays and consists of gray limestones Card 1/5 wiih layers of marl or clay containing Spirialis,  Neogeni of the Central Predkavkazlya (Stratigraphy, Lithologyt FaunaY(Cont.) Ostrea cochlea L., Anussium d2nudatum Reusst and other char- ac rTs-tTF=auna. The Chokrakskiy horizon is divided into two parts: a lower (120 m), composed of dark clays with con- cretions of marl and siderite, and with Spirialis; and an up- per (200 m), consisting of shallow-water us clays with layers of sand. The facies of the Karaganskiy deposits (40-311 m) are highly variable; they consist of argillaceous- marly-calcareous-sandy rocks with Spaniodontella; coarseness in grain size increases from north to south. Along the Chal- myka River'I!Xdrobta sp., Mohrensternla sp., Ifelix sp., Mel- anopsis sp., and other fossils occur, the pressure of which indicates a significant freshening of the littoral zone of the Karaganskly sea. The Konkskiy horizon (4-8 m, except in southernyergeni, where it is 15-35 m) is not differentiated in the enLire section because of its lithological similarity to the Karaganskiy and Lower Sarmatian deposits; it consists of dark gray clays with layers of fine-grained sand contain- Card 2/5  15-1957-7-8993 Neogene of the Central Predkavkazya (Stratigraphy, Lithology, Fauna) (Cont.) ing Syndesmya, Spaniodontella, Pholas, and Spirialis. The Lower Sarmatian deposits (20-15U-MT7611sist of alternating dark clays and platy marls. The Middle Sarmatian (from 3-40 to 270 m) contains two types of deposits: a lower clay-marl part distinguished as the Cryptomactran horizon, and an up- per sand-lime horizon with typical Middle Sarmatian fauna. On the basis of lithology and fossil content the Crypto- mactran horizon is subdivided into three parts: a lower (a unit of dense and friable marl with layers of clay, dis- tinguished as the Mamayskiy horizon); a middle (calcareous clays with layers of marl containing Cryptomactra); and an upper (sandy clays with Tapes naviculatus R. 11dern). The Upper Sarmatian rocks (20---170 m) at St opoll have been preserved in separate patches. At the base they are shallow- water deposits, resting on the eroded surface of middle Sar- matian clays, fine-grained sands, sandstones, and conglomer- aties with Mactra, naviculata Daily and fresh-water molluscs. Card 3/5  15-1957-7-8993 Neogene of the Central Predkawkazlys (Stratigraphy, Lithology, Fauna) (Cont.) The Upper part,is composed of clays with layers of marl, friable sands, sandstones,-and shell limestone containing Mactra. Meotian rocks (5-160 m) consistoof sandy, structure- lesu clays and sands with Cardium maeoti4um Andrus., �yn desiga tellinoides Sinz. , ang-o-f-he-re-7-79-ePontian stage T-4-1200 m) is wid-eTy distributed and in represented by sands and sandstones, changing along-the strike into deep-water deposits, calcareous and kaolinitic clays; it rests on the eroded surface of Miocene and Maykopskiy rocks. Akehagyll- skiy deposits are known only from separate localities and consist chiefly of sands, sandstones, and conglomerates with Cardium dombra Andrus and Mactra karabugasica Andrus. The MEWn-ess increases from w-e-sT -to east (from 15 to 80 m). Rocks of the Apsheronskiy stage with Hydrobia and Dreissensin were noted only in the central part OT the-eastern PreJ- kavkazlya. Continental Pliocene deposits (Armavirskiy series) are divided by the author into 2 subseries: a lower consist- Card 4/5  15-1957-7-8993 Neogene of the Central Predkavkazlya (Stratigraphy, Lithology, Fauna) (Cont.) ing of red clays, and an upper consisting of interbedded red- brown clays and layers of calcareous concretions. The lower subseries is similar to the Kimmeriytskiy deposits; the upper corresponds to the Kuyallnitskiy. Card 5/5 M. Ya. Serova  V c, /- M C V A, SHUB. M.Ye.; VOIKOVA. N.5. qu3ntitative determination of phthlyazid. Apt.delo 6 no.6:59-60 M-~D '57. (MIRA 10:12) 1. Iz Voesoyusnogo nauchno-isoledovatellskogo khimiko-farmatsevti- aheskogo, instituts iment. S.Ordzhonikidze. (ISORICOTINIC AGID--ANALYSIS)  VOLKOVA, N.S. Neogen19 of central Ciscaucasia; stratigraphy, lithology, fjtnn#Lo KRt.VSBGBI no.14:94-107 56. (MIRA 10:1) (Caucasus, Northern-Gooloff, Stratigraphic)  el 01 Pvtx-mes LmvivrA jj Lormttion ol viscom f1brt'. z I Y- L NIT M iU itltvn. Afltljti~tt vi hi,"11 am,,wlt- A bl~-, CO.'Wi4U!MbIy thU fCt'.i4tallCl; a ih- f'br'- W f- forslotiou, char.-Ioerk-w(I by the nomlwr ill 1"I'ling (vd'-i m I'leals. 041 increaii1q. , ill, nillount fit Z16(), in Jim %pinillug Imth, w, farther iminnovow,fit ift tho projmtt4'4 W the fil'tt 14 o1- T-A 'jf"ct (41 V;kr),fllq amollm* ill ZII~M' "it illo pf"Iw'll, , d Ill", (mol a ImjolnR 1"th i-t- -I -p~ -l,t, , a-I P'~SO. and Ndt'!~O' W.1% Rtitillf-A (ho JtWkhty d U'll", Ill.. NAI. her Im v~wlm Ttirs vcs t~jat -!Ti. T. T.143 r- TRAICL  VOLIMYA, H.S.; RIPARISOVA, L.D., rodaktorl SPIRINA, N.I.. radaktor; GUTM, O.A., tokbuichegkiy re4aktor. (Fleld atlas of characteristic fauna complexes of Tertiary deposits of Central Ciscaucasia] Polevol atlas kharaktarnykh kmpleksov faurq tratichzWkh otlozhenil Teentrallnogo Prodkavkazlia. Moskva, Gos.nauchno-tekhmisd-vo lit-ry po goologil i okhrane nedr, 1955. 161 p. (MLRA 8.11) (Caucasus. Northern-Palentoloff )  AT ::S.. Mechr,nkSM af frZMAIWtj of TL'ZC"e fibers Z A RA)lfQVM_, - ~ qk_.; ,, c, f,. Fini, ra,ji is. ,.,o 4. 1:~i ,MMTli,ih tL, i.ourc 4nd am( if vilfaccx In the ~PlllnLog hUth .111~ t It" it , f I fih~ I I ) 1"ricked, N,,~-4), KW~ A I 1~lltl ~,'11171 IZ-.11 ~pcr_f~.~ncc (higher tellarily. riongal"", ~.,: ~!" ,f t_Lf~ fwfox, ttfc-Ak) The best I I, obtained ~tzzly ~ i~-ah -mtg NaSO, 21:0. (IJH~h So. 1.5, and Zn",4 ), 1.3 g I It is btlieved that the suffate, b,.,td~q decreasuig the diow. of ll~SO%, which slow% down thv dommim. of xa-ith-coate and leads to a more mnifom 1. dehydfatc3 the sv~;[T~n gel of critulose hydrate, The m-c intensive the dehpiratii5n during focutuicm of 1. the more comfm" and undot-m is the stmeture rA 1: which wiU then have better nacch proptlies. The Mu ion with its )jrgc hydrate bayer 6 a better dehydrating azent than an equirnol. aint. of NIL iots. SmaM arlt3 . o( Z11SO, (1-5 F.A.) added to the batb cmag 2S0 g. Nat';04 C.A., m3zkediy in- cmuic the Tesisttriceof I to multiule defaftuation. RILubeth Sambasb  BABAYAWS, R.A., proferjeor; BATRANOVA. O.Ya., Vzond.wed.rviuk; VOLK ka-ind.med.nauk; KIYAHOV. II.Y., kand.med.nauk; LYKOVAO A.U., klind, med.nauk; MASOLIHIKOVA, T.K., kand.mFid.nBuk- RUDEYKO, V.A., karxi. med.nauk; TORILINA. K.A.. Vand.med,nBuk; bHISTOVSKIY, S.P., kand. med.nouk; KIRPICHEV, M.P., j3anitarnyy vrach; MAKHINNIIKO, A.I.. snnitarnyy vrach; OSHCfffMOV, A.A.. sanitarnyy vrach; PIOROV, A.M., sanitarnyy vrach; ROSHALI. M.A., sanitarnyy vrach; SHONLIN, D.P., stinitarnyy vrech Sewage irrigation of fields and sanitation of natural waters. Gig i san. 22 no.9:64-67 " '57. (MIRA 10:12i 1. Znvoduyushchly kafedroy Obahchey Gigiyeny Leningradskogo sanitarno-gigiyenicheakogo maditainakogo institUtfi, chlen- korrespondent AM11 555R (for Babayants) (WATER SUPPLY WATER POLLUTION sanitary protection of water reservoirs in use of sewage water for field irrigation) IRRIGATIOU same)  VOLKOVA, N.V. Bffect of sulfur dioxide on the organism. Trudy ISGXI 26:39-85 156. OW 10: 6) lefedrs obshch*y gigiyeny leningradskoge sonitarso-giglyonicbe- mkogo neditsinskogo Institute. Zav. kafelroy - chlen-korresposlent ANK SSSR, prof. R.A.Baboyents. (SULYM. effects. dioxide, on rabbits (Sun))  VOU,611A) V.: VOLKOVA, N. V.: "The effect of s,11ftv, dioxide on the or.- nijitt lw-n Eeal-~h SR. Lenin.- rad ene Yediva I In:, t (Dis.5ertation for the Degree of Gandidipte in il'edic~-;l e opis', No 2-,'., SJO: Knlz~nv-a L JOC6  V/9 A/ BARDYSHEV, I.I.- CURCRES, Kh,A.; KAMYSHNYY, A.A.; KOLOSKO. S.I.; VOLKOVA, Commercial production of colophony from spruce oleoresin. Gidroliz. i lesokhim. prom. 11 no.1:22-23 158. (MIRA 11:2) 1.Institut khiidi AN BSSR (for Bard7shev, Cherches) 2.Borisovskiy lesokhimicheakiy zavod (for KamrshW) 3.Upravleniye leenoy prom7shlonnosti $elorusekogo 'fovnarkhoza (for Koloako) 4.Dobrushakaju buzasbm7a fabrika (for Volkova). . - (Gums and resins), (Spruce)  VOMOVA inzh.; USPUTOV, M.P.p kand.tekhn.nauk; Priaimala :-7~.-hastiyet 14MIMOVA, H.I. CDmposition and properties of alkyl sulfonatea obtained from condensates of Shebelinka gas condensate wells. Mul.-- zhir. prom. 28 no.3:26-28 Mr 162. , (MIM .15:4) 1. Kharlkov3kiy politekhnicheskiy institut imeni V.I.Lenina. (Shebelinka region-Condensate oil wells) (Cleaning compounds) I P  6 m 1. to it to Is &A 11 IL bA_j -I a--A-. r 4 04 o K OVA 0o j0 Wis. %3 001 (O'S In, Tits 0"' 004, at" it-I, - -Awl' a Oak I Allmill all .... . ... It it %v -*free 09 SIO O&g cr .91ALLOGiCAL L11FRAU CtASSWICATIC4 W dla I 'It a 1W 0 n it 14 00 0 0 0 0 0 0 0 : :  VOLKOVA, 0.1., inzh. Fusing defects in W alloy castings- Lit.proizv. no.3:47 9r 159. (MIRA 12:4) (Magnesium alloys--Founding)  TOLKOVA. 0.1. of sc4blte in the confectionery industry of foreign countries; United States. Ingland, France, West Germany. XhlebA kond.pron. 1 no.8.43 Ag '57. (HLRA 10:8 1.Moskovskly tekhnologicheskiy institut pishchevey prom"blennosti. (Sorbitol) (Confectionery-liquipment aid supplies)  VOLKOIrA,O.; SHUSTIM,S. Pablic opinion adds the Housing Orfics. Zhil.-kon. khos. 5 no.4:10-11 155. (IMPA 8:9) 1. Up.,ravlyayushehiy domemi, (for Volkowa). 2. GlavDyy Inshener Sverdlowskogo gorshilupravloniya (for Shuster) (Sverdlovsk-Apartment houses-Nanagemebt) -.~ ~,  VCLMOVA. O.V- Wc-sk-n Sensitivitv to hormnes ef ovarJes with diev.-riered irmervat.!cn. Arkh. Pat, 27 no,'10:44-48 165, O"'a" ls-:~') 1. T(afedra glatolcgii (zav. - prat. T.t.,Crigorlyova) 17 meditsinakogo Instituta imeni N.LPirogovao  VOUOV"t, U-. V. Dissertation: "Structure, Functi,nal 3ignificance, and Systemic Position of I','.e In- nervation of the Tongue." Cand T,.ed _"ci, 5econd Yoscow 1-.edic--41 inst, imeni 1. V. Yoscow, 17 May 54. Illeditsinski7 ~~ibotnik, 11`0=ow, 7 May 514. SO: 3UK 2C,4, 26 Nov 1954  m/lIedicine HistoloTjr Card 1/1 Fub 22 - 38/45 Authors. i Volkova, 0. V. Title i The ganglion apparatus of the tongue 'Periodical I Dok. AN SSSR 103/2, 313-316, Jul 11, 1955 Abatraot t Experiments were conducted with wits to determine the ganglion apparatud of the tongue. The findings are analyzed. Six referencest. 2 Engl. 2 Ger. And 2 Russ. and USSR (1889-1950). Illustrations. '.Institution ~Second Moscow State Medical Inst. im. 1, V. Stalin Prosonted by i Academician(Aa I-AbrUos Februar7 27, 1955  VOIXOTA, 0. V. Motor innervation of the tong" and the nature of the go- called pseudo-motor phenomenon. Dokl.AN SSSA 108 no.41729-731 Je 156. (KMA 9:9) l.Vtoroy Moskovskly gosudaretvannyy meditsinskly inetitut. Predstayleno akademikom X.N.Anichkovym. (TONGUB--IMUMVATION)  V ~--)L1