SCIENTIFIC ABSTRACT MIKHILOV, N. V. - MIKHLIN, B. Z.

 Mummy. N.S. Elellotheropy in cold season. Prob.tuberk., Moskva no.2:51-54 Kr-AP 150. (CLML 19:3) 1. Of the Bioclinatic Division of Talts, Clinical Sanatorium (Heads of Sanatorium -- Candidate Medical Sciences G.P.Fe- doroy and Honored Worker in Science BSFSR T.K.Tarantayev).  HTY21thV9, VAtor rakovlevich Photography and aerial photography Moskva, Tzd-vo goodazicheskot i kartografichaskol lit-ry, 1952. 372 p. (53-23920) TR145.H527  USSR/Human and Animal Phyaiolo~V - Internal Secretions. R-8 Abs Jour Referat Zhur - B-'o.., No 16, --957. 70922 Author Mi~bilova, N.V. Title The Influence of the Central Nervous System un the Adrenocorticotropic Function of the Interior Pituitary. Orig Pub Probl. endokrinoi. igormonterapii, 1955, No , 59-64 Abstract The Introduction of ACTH under the skin produces eosino- poenia up to 64%. The same reaction Is produced by cold, burns) electrical irritation etc. The removal of ad-re- nals removes eosinopoenia. Anasthesia produced In rats by nembutal of sodium "evipan", lowers the eosinopoenic reaction on cold on the average to 6%. Introduction of ACTH into anesthetized animals weakens this reaction; in- troduction of Phenamine strengthens it. The irritation of nerve endings which were damaged by burns or electri- cal current Introduces a considerable weakening of the reaction; introduction of ACTH brings it back to normal. Card 1/1 - 48 -  -Ur Wuly_~ . variab"' ', ILear ~Aii6iattiig 4~ovei -throu6- tactiona __h__ b - 11 stttuts interzediate, al-aments have many anion, n whic a s co n: advantagais but their _I~ndan~c was Attle known, lbe paper reports of) tests carried-out tc deternine the effoot of tba peripheral velocities of the rolling bodies, of.tbe lubrication system and type of JU~ cant and of.several daniiNfeatuares. An analysis of the nCUrIMI VI ~to`7b& used -in dealgri-is given.. A graph is included indicating-the rac=mended input_z)2p_Lf_t r.p.la. as a funotion. of the ball diameter. The affIgIaW for splash and foroed bibrication was mCasare4,sboving the ady&ntages of forced lubrication. .The precise _g0 a tqstf? re*- ~trol%f oil quantities' is important. Wuranc vere run 1~io&~~bofbra-vppearande- of fatigue --failures. A table of per iorm4nce v-,Aons for a, range ot'variators glying 10 to I t -a  KHUJSOV, Andrey Yefstaf Iyevich; data., retsenzent; POLYAKOV, V.L, kand, tekhn. nauk, retsenzentj FADSYEV, I.Ye.j, inzh., red.1 DUBASOV, A.A., red. ind-val TIKHANOV, A.Ya.,, tekhn. red. [Hoisting and conveying equipment of plants manufacturing strtictural parts] Gruzopod"emnoe i transportnoe oborudavanie zavodcvv stroitoll- iWkh detalei. Moskva, Goo. nauchno-tekhn. izd-vo ma3hinostroit. lit- r7, 1961. 356 p. (KIRA lAtIO) (Hoisting machinery) (Conveying machinery)  ml.Khili, B.F. i irzh. ; viau.-mv , v.v. , r,- , el,,*,.r .r~t-K%arA4 T h f) r o i i a r, i , 1 ', j (, i ' t. hj Z rh- -, ,, i i, ri t;,-. ! 1, '.,. r - !,,) a a I t, * r ,, ri r, ~A! improvi.-ci. Avt.om. tfji6m. I svifizf 8 no.2:Z,~-1,3 -- li,~. (MI11,A 1":t / i. 1-tichurinsi-qu ;i.3tantijiyr~ ff,~r Mikh In) .  E E-C ( k- ) -2A WAh1WI/T IJP(r-) ACC NRI M6W8544- Monograph m t .�~in Dnitrly Visilt Vi h allid'oh, Avdanche - d1o'dd ('Kromniysvyye stabllitrany) Hosoowv lad"YO ' 1%herglyalw,, 1965, ' III p, Illus,#. b1blio, 18j2do printed'# Series note: Biblioteka.po awtomatikej, vyp. 149 ,BIOPIC TAGSt 'awalanchediodes,sillcoft semiconductor, semiconductor '.i-PWOS13 (;OVMGEt This book Is Intended for technical personnel ~A,'..`:~6rtcerned with the utilization of avalanche'dIodes' an well as for 6t0dents In correspondence courses or . schools of higher edwationd Y06 o0eratidnal princIpIdisp characteristlcs~ and parameters of v0w dh6he'.-diodes are desaribed,'.'~Examples.of the utilization or~ avalanche diodes In radio., eleotronlov. and electrioal measuring nothor thanks, Ng A, Clvoicdkov for his Vats are: give'n VAe -4malstanas..' TA=.: or -Introduct.-ion 6  .C 0 M60 8544 ..,,_IIh,I,.PrIncIples of the operation of avalanche diodes 7 Avalanbhe multiplication 2,-:Internal field emission -- 11 3.1he temperature coefficient or electric field intensity 13 Ch,no Basic characteristics and parameters of avalanche diodes 15 4, Breakdown voltage and-volt-ampere characteristics 15. "5, Dynamic resistance. __ 16 6o Scattering power -- 18 The temperature coefficient of breakdown voltage 19 -Statlo resistance of avalanche diodes and the equivalent capaci- k tance of a p-n junction -- 21 9, Noise and the equivalent circuit 22 7::10, Logarithmic and direct characteristics 25 11, The temperature compensation of breakdown voltage 26 12. Temperature-compeneated avalanche diddes -- 28 13, The effect of current on temoerature-compensation quality 30 '14- ThrOsAayer temperature-compensated avalanche diodes 31 15# Time stability or avalanche diode parameters 33 16, Measurewnt of avalanche diode parameters 36 17, Constant-povfr~l generator for measuring avalanche diode para~ motors! 21h  L 2~814-646 ACC NR, Am6oo8544 Ch.11.I. Avalanche diode pulse and relay circuits 44 18/ Avalanche diode switches -- 44 .19. Pulse shaping -- 47 20,:Rectangular pulse generator 50 21 Digital-to-analog conversions 55- 220' Avalanche diodes In relay circuits -- 57 Avalanche diodes in d-o and a-c ampliflere 61 23, Xnterstage connections In a bias circuit -_ 61 of resistor-bias amplifying circuits 65 25.,d-O lifiers. 72 MTO Use of-avalanche dtodes in electronic and radio engineering ;ircuitO. -- 76 26 Clipping devices 76 27, Automatic amplification control circuit using low-frequenoy Oi. delay -- 78 28*'Limiter for AM and F14 of broadcast receivers 79 80 :'29.:Telematering generator so., Use of avalanche diode self-oapacitance 81 M, Use of avalanche diodes-In,measuring equipment 83 31 Conversion of a'measuring-instrument. scale 83 V4  L 25814-66 iACC NRM6008544 Measurement of frequencies 86 2. 3 33, Voltage calibrator -- 87 34, Accurate transistorized voltmeter 89 35*'Avalanche diodes used as the cold junction of a thermocouple-91 ,Ch#VXL Aviklanche diodea In overload protection alroults 91 Protecting measuring Instruments and Individual circuit components from overloads 91 37, Protecting power-supply sources and energy consumers from voltage overloads- -- 97 38, Protecting power-supply sources and energy consumers from ourrent~overloada 99 Appendix 1-f-Masic electrical characteristics of Soviet-made avalanche diodes -- 103 Appendix 2, Types of avalanche diodes manufactured by some US firma their basic electrical parameters 106 and --Bibliography 108 Stm CoWs DAT& 1806t65/ 0WO RUS 009/ OM MWt 087 Card  .Mlllljlj~ " .Ai GRISHIN, G.T.; MIKHIN, F.I. - .-V~ .'.4T*' - Losses of science, Nauch. zap. Var. otd. Geog. ob-va: f-.1 HA 111% (MI 17.9  MIKIIIN, F. - . :, a ~ I :- ~, a , " ~ _, -, ~* " - :- - :I , , r, r-,n ! ~ : -', p: --s ", - : - ~', ': , I , I " :. je - -~ ., ': -- "A - . Z'- .  L 20930-66 E WH Am at I AP6W95?4 -(N) s'o'uEcs cout uEt/be66/65/boq/o23/bo62Jbo62 AUTWRSs Vinogradow, S. 11.1 Mikhin, 0. Ye.; Arsenkov,, R. T.1 Savopulot L. A* 0801 nonis TnUs Method for fabricating ceramic rings for bydroacoustic apparatus. c,"48 h 2,, !!a 176729 1!( SQUiCts BluUaten' lxabroteniy i tovarnykh znakov, no. 23, 19659 62 TOPIC TAGSt ceramic product,, ceramic material ABSTRAGTt This Author Certificate presents a method for fabricating ceramic rings for bydroacoustic apparatus. The rings are assembled froa ceramic blanks in the form of priaw whose adjacent surfaces =v covered with an adhesive compound and subjected to po2pwrisation. To produce prestressing'af the rings,, the caraaic "Ylanks with the adhesive compound applied to their adjacent eurfaces are mounted on a bod and ars centrifuged at a temperature no greater then 60C. SUB CODSo U/ SUBM-DAUs XW" LcartL2/1 Q L-  31.hin, 1,I.11 SVISTUNOV, N.V. tARM,T!T~- ( Mi - Present conditions and wais of further improvement of the technological plans with respect to the extraction of gold from ores. Analele metalargie 16 no.2t82-87 Ap-Je '62.  NIKH15. M.&.; GORIN, Tel.; KUZIN. NeD.. Inshoner, rodaktor; SHAVELIZOV. N.Y., .-"11101M , redaktor; CHARIKHOV. L.A.. lashener. rodaktor. (AutowAtic control of Martin furnaces] Awtometichookoe rognliroyanto mortenovskikh pechal. Sverdlovsk, Goo. nauchno-takhn. Izd-vo lit-ry pa chernot I tavetnot motallurgil. 1953. 503 p. (KLRA 7:6) (Open-Marth process) (Automatic control)  KOIDKOIDV, 11.14., inzh,j'MIKHIN N.I., inzh.; PMKCPOVICIIF A.G., kand, tekhn.nauk; POL-fiiiR~- , kand.tekhn.nauk Study of a prestressed beam with highstrength reinforcing ba". Trans stroi n no.5:40-42 My 161. (MIRA 14:6) (Girder7e(Bridje-s, Concrete) (Concrete reinforcement)  W. . , : 1, :,.L. , inz~ * S tl'Ln( 1) L r( 14 -,-, fl !, : CJT, , ~ f- IV If3 .rtL' ii ga-wer. i'r I ~ () , cj t , roe r~ I e tin . 11 : 3- r N 165. ( 1,~ I ~A I P -. 1, , ) I i  KRAGELISKIY, I.V.; MIKHIN, N.M. Nature of contact preliminary displacement of solid bodies. Dok-1. AN SSSR 153 no.1:78-81 N 163. (MIRA 17il) 1. Predstavleno akademikom P.A. Rebi-nderom.  SOV/129-58-12-6/12 AUTHORS: Blanter, M.Ye,, Doctor of Technical Sciences, Professor, Kulakov, N.A., Sergeychev, I.M., Mikhin, T.A. and Faynbron, S.D. , Engineers TITLE: Hardening in Water-air Mixtures (Zakalka v vodo- vozduehnykh smesyakh) PERIODICAL: Metallovedenlye i Obrabotka b1letallov, 1958, Nr 12, pp 29 - 34 (USSR) ABSTRACT: The authors investigated systematically the influence of the main factors on the cooling capacity of water-air mixtures for hardening for the purpose of obtaining quantitative characteristics which can be used as a basis for a controlled technological process. Use of water-air mixtures of various compositions pwmits obtaining a wide range of cooling regimes, from cooling in a jet of pure air up to quenching in a water Jet. For obtaining the water-air mixtures, a nozzle with a special end piece was used, the purpose of which was to widen the atomising angle. The air pressure was maintained by means of a direct- action pressure regulator. The water-flow rate between 18 and 116 litres/hour was measured with an RS-5 rotameter and the flow rate of 185 to 1 030 litres/hour was measured Cardl/5 by means of a rotameter RS-? with an accuracy of 1.5-2.5%.  cia,ae; _ir, i:,i Water-air Mixtures SOV/129-58-12-6/12 Special filters were fitted to prevent clogging-up of the water-supply system. Cooling curves were recorded by means of a potentiometer with visual control of the operation of the thermocouples. At first, the problem of the optimum distance of the sprayii*' nozzle from the surface of the plate to be hardened was investigated and the obtained relations are graphed in Figure 3. Owing to great practical difficulties involved in systematic investigation of massive steel bodies, the authors used a method of thermal modelling, as proposed by A.L. Nemchinskiy (Ref 2), which is based on the principle that in the case of cooling of bodies of sufficient length, the cooling takes place as a result of heat tran - f er f rom the long1tudinal arDace whil8t the heat tran f er between adjacent voiumes of approximately equal temperature is negligible. The heat-exchange conditions were simulated by means of an analogue, a sketch of which is shown in Figure 4. The coolinb curves obtained under conditions of thermal modelling of water are graphed in Figure 5. In view of the fact that the objective index of the cooling capability is the magnitude of the cooling speed, the Card2/5 obtained cooling curves were differentiated graphically  Hardening in Water-air Mixtures SOV/129-58-12-6/12 by the method of plotting normals described in an earlier paper of one of the authors (Ref 4 ). The influence of the degree of humidification of the air on the cooling speed is graphed in Figure 6; it can obe seen that the cooling speed will be highest at 800 C except for the water-flow rate of 200 litres/hogr, in which case the maximum cooling speed is at 700 C. With increasing humidification, the rate of cooling increases, as can be seen from Figure 7. The influence of the air pressure on the cooling speed is graphed in Figure 8. The influence of the thickness of the cooled steel body on the cooling speed is graphed in Figure 9. The influence of the degree of humidification on the depths of the hardened layer is graphed in Figure 10. It was established in the experi- ments that the cooling power of the investigated mixtures varies within a wide range and cooling in oil is equivalent to cooling in slightly humidified air with a water-flow rate of about 20 litres/hour under the same conditions. It was experimentally established that the optimum distance from the spraying nozzle to the surface to be Card3/5 cooled equals 500 mm, while the optimum air pressure  Hardening in Water-air Mixtures SOV/129-58-12-6/12 equals 3 atm. For the particular case of hardening of massive bodies with sharp cross-section changes, the maximum permissible water-flow rate for the steel 5KhNV equals 100 litres/hour and the active cooling surface equals 0.05 - 0.20 m2 per each atomiser nozzle- of the applied design. It is shown that investigation of the pertaining relations can be extended to bodies of 400 - 700 mm thick. Thus, use of special metering apparatus permits working out of a correctly controlled method of hardening by means of water-air mixtures, ensuring standard heat-treatment results whereby control of the process can be made fully automatic. Due to the great simplicity of the equipment, the method can be recommended as a completely satisfactory and economic substitute for hardening in Oils and other special media. Card 4/5  Hardening in Water-air Lixtures SOV/129-58-12-6/12 There are 10 figures and 5 references, 4 of which are Soviet and 1 German. Card 5/5  IMIN, MICHIN. T.A. htst hosting of hIgh-alloyed, stainlode, and beat-realutant alloys for forging and stamping,. Kuz.-obtam.proizv. I no.4: 29-32 Jkp 159. (14LFU~ 12:10) (Heat resietant alloys--float troatmont) (Forging)  ILIIIJ, M.M.-, 141YjlIN T.A. ---------- Combinad hmat. treattannt of mmtala. Kuz.-9htt,!2.prrjizv. I nn.': 1-4 V7 159. (MIRA 12: 10) (Metals-Heat tr(tatment)  1 j.A  Sh- - t S I 509 Month List of Russian Accessions, Library of Congress, 195j, Uncl.  M%olti, 'TW- USSR/Engineering- Cold welding Card 1/1 Pub. 128 - 15/26 Authors : Sineok) Ya. Ya.; Baranov, M. S.; Pankul, L. A.; Sapiro, L. S.; Kagan, I. Z.; Glukhov, P. A.; 141khin, V. N.; and Karpichev, A. S. Title : The cold welding of crude iron Periodical : Vest. mash. 2p 68-7ip Feb 1954 Abstract : In order to familiarize and draw the attention of readers to the pressing problems of cold welding (soldering) of crude iron, the Editorial Office published several articles in which various methods of cold welding are discussed, and a description is given of the operations performed and the type of electrodes and equipment used for the above mentioned purpose, Table; drawings; illustrations. Institution ............ Submitted ..* ..........   MINHIN. V.S. Istural reproduction of salmon in the Tomato River. Vnp.ikht. no.12:92-100 159. (IGRA 13:4) 1. Gouudarstvon%7 nauchno-iseledovateloskly inotttut ozernogo t r"chnogo ryhnngn khnayaystva - GaoNIORKh. (Temeto RivAr-Salmon)  KILMN, V.S. lavarst (Coregonus lavaretus pidechlan natio olenelcl noTa) of the Olenek River. Vop. Wit. no-13:71-74 '59. (MIRA 13:3) l.Gesudaretyannyy cauchno-iseledovatellskiy inatitut ozernogo i rechnogo rybnogo khos"yetva (GoaNIORKh). (Olenak River--Whitefishes)  AGWEXOT. T.G. (deceased], MIKHIV. Ta.Ta. Some problem connected with the fusion of lead-bearing charges containing soda. Isv.vys.ucheb.zav.; tsvet.ast. w.6:107-111 159. ()GRA 13:4) 1. SeverokaOssakly gornometallurgichookiy institut. Kafedra motallurgii blagorodnykh metallov. (Lead--Yetallurgy) (Chemistry, Ketallmrglc)  AGEMIKOV. V.G.; 14IKIiIN..-T&.Ta. PyrometalliLrecal method of treating gold containing concentrates. TSvet.met. 32 no.2:52-57 F '59- (MIRA 12:2) 1. Severo-KevkELzskIy gorno-metallurgicheekly inatitut. (Gold-Metalbirgy)  ACCESSION NR: AR4025680 8/0081/63/000/023/0064/0064 SOURCE: RZh. Kbimiya, Abe. 23B337 AUTHOR: Mikhft4 Ya. Ya.; Pogorely*y, A. D. TITLE: Determination of the dissociation constant of Tn2S3 CITED SOURCE: Tr. Severakavkazak. gomometallurg. in-ta, vy*p. 17t 1961, 34-37 TOPIC TAGS: indium, indlum sulfide, indium sulfide dissociation, dissociation constant TRANSIATION: The dissociation constant of indium sulfide was determined by the reduction of In, S3 with hydrogen. Ile equilibrium composition of the gas phase was determined by : the circulation method. The experimeintal set-up and methods are described. The tempera- ture dependence of the equilibrium constant for the reaction 6 IaZS3 + 2H 4 In 84 + 2H in the temperature range 500-860C can be expressed by the equation Ig 7EM/T + 4. For the dissociation reaction 6 IqZ% - 41n3S4 + SZ In the indicated temperature Interval, A Z - 77648-". 66T, ft*om where IMP2 16970/T + 9.76. V. Baybuz 0 SUB COM Mg TD DATE ACQ: Man" ENCL: 00 CMA 2/1  KBOUN, Ya.Ya.; SVISTUNOV, N.V. Present state and ways to further improve flowsheets for gold recovery from ores. Izv. vys. ucheb. zav.; tovet. met. 4 no.5: 133-138 161. (MIRA 14:10) 1. Severokavi*zskiy gornometal-lurgicheskiy inBtitut, kafedra metaLLurgii blagorodnykh i redkikh Mtallov. (Gold-4lotallurgy)  AGEYENKOV, Vaniliy Gordeyevich [deceased]; MIED7, Yakov Yakovlevich; ZHUKHOVITSKIY, A.A., prof., doktor IMM. nMM,--re-tFdffMt-j-- FCZDIfYAKOVAp G.L., red. izd-va; ISIZEIVIEW, P.G., tekhn. red. [Metallurgical calculation; general part] Metallurgicheakie ras- chety; obahchaia chast'. Ploskva, MetaUurgizdat, 1962. 207 p. (MIRA 15:6) Netallurgy-Tables, calculations, etc.)  yo.ya. I Alualtum i nij3tT -I tf In d IA. '.*,-.vi ,. m~ f. . 3.1 ro .,. - ^, ~ r, 1 ', , I . , -, ~, 5"    YAKIMV,P.A.; IODROLIKOV, I.I.; RAKUTINA, N.S.; MIKHINA, A.S. Study of the conditions for purifying hydrolysates and the composition of the nutrient media for the biosynthests of penicillin on a base of carbohydrates from wood hydrolysates and agricultural wastes. Trudy, Len.kh1n.-farn.1nst.,fto.15tl7-22 1624; (MIRA 15:11) 1. Kafedra takhnologii sittiblotikov (sav.'--7y "re .'P.-A.Yakimov) Leningradskogo khimiko-farnstsewticheskogo instituta i laboratoriya gidroliza drevesiny razbavlennymi kislotami Nauchno-iseledovatell- skogo instituta. gidroliznoy i oullfitnospirtovoy promyshlennosti (zav. - kand.tekhn.nauk I.I.Norollkov). (PENICULA) (BACTERIOLOGY-CULTMIES AND CULTURE MEDIA) (CARBOHYDRATES)  MKHEIDZE, P.A.;, MIICHINA I.B. Use of-Awercise therapy in fibrous and cavernous pulmonary tuberculosis after thoracoplasty at the Abastumani Health Resort. Vop. kur., fizioter. i lech. fiz. kul't. no.6:552- 554 163. (MIRA 17:8) 1. Iz legochno-khirurgicheskago otdeleniya (zav. - kand. med. nauk P.A. Mkheidze) Instituta tuberkuleza Ministerstva zdravo- okhraneniya Gruzinskoy SSR (dir. 0,G. Batiashvili).  XMIM, P.A.; MIXIIIRA, I.B. Ixereise therapy recomnended for tuberculous patients between stages of thoracoplasty. Probl. tub. no.5:45-50 S-0 154. (MLRA 7:12) 1. Ir legoahno-khlrurgicheakogo otdelenlya, (zav. kandidat meditain- skikh nauk P.A.Mkheldze) Respublikanskogo naur-hno-issladovatellsko- go instituta 141nisterstva sdravookhranenlya Gruzinskoy SSR (dir. dotsent A.l.Ushveridze) (COLLAPSE THERAPT, thoracopla,sty. exercise ther. between stages) (IMCISIC Tmu", in thoracoplasty between stages)  LARMMMI, M.A.; REMIOV, V.S.; SKIJLIVA, K.I.; MIKIIDIA, L.11L Use of a fine chemical opmy from an airoplare ir cortroll-Ing tick-bome encephalitis carriers in the Anzhero-Sudzherok District in 1957-1959. 11ed.paraz.1 paraz.bol. no-3:347-351 062. (m:rR.,,. 15:9) 1. rz otdola entomo-toknikologii I dezinnektail (zav. - prof. V.A. Vabokov) Instituta meditsinskoy parazitologii i tropiche- skoy meditairy ineni Ye.V. Hartainovskago (dir. - prof. P.G. Sergiyev) Ministerstva zdravookhrareniya SSSR, Gouudarstven- nogo Nauchno-iseledovatellskogo inatituta grazhdanBkogo voz- dushnogo flota (nach. - general leytenant ?,.A. Zakharov) i Avahero-Sufthenskoy gorodskoy sanitamo-epideraiolo(;ichaskoy stantsii. (M.'apmITIS) (ANW)AUTICS IN INSECT CONTROL) (ATIZT010-SUMM'SK DISTPJCT-TICKS AS rARRIERS OF DISFASF,)  (/i V,"o v..3 ~orlv 4-1 P.I.Ofte T'" r C tor T%ZT"V. 02 1 OSEX 0,11Z. ,1q ITO! I Izt;T:.TvT:.; 1-9: ..q. 0. ITT, .1q. I. TA a X*-68 4&96L 4L 17voraoind fl-d '7%Z -IT I-Twal .210912T lLZ%j66LLLl =/fto/Loo/coo/L 9 A I pum zjjpj. P. Ml *,_- q .11.9. .%n .3 29.jv-j 060, 1- v--d -n -ltm. --it ... 4 -qi J- ul Rz OLII IM- 'r0, 1. T-d -&J.1 qj v- 9-4 ..1 ... 2.7 - Vq ..-.j ---ZT-d -7T P- -It- uoT%.I" ..T%.%T%~b q% J.1 -1 --1 Zq qT .... p V.tM.. q, 1%) cnlz fj-.T%nT%-b pwlj~ :1.011%,o4 Im% %Z 1. TTl fcl'i III ..1%.,T ... ZT.d ftl-p 9.1--.0 ...... . qj q%T. Tv.p II.- I .... Id .,A ~ (0111 L-o's'l oc's  MIKHINAI M. Seminar for road construction specialists. Avt.dor. 28 no.11:31 N 165. (~U RA 18: 11)  ii I rv q" 1v T"NOTA, T.I., kaudidat neditsinakikh nauk; ZATSYPINA. N.D.. nauchnyy sotrudnik; KMIYA, fij, glavuyy okullet Mordovskoy ASSR %MWWO~- Treatment of trachoma with synthowyein. West. oft. 33 no.6: 13-17 M-D 154. (KIRA 8:1) 1. Is Itauchno-issladovatellskogo Instituta glasnykh bolezaey iment Gellugolltea (dir. chlen-korrespondent AMS SSSR prof. V.K.Arkhan- gellskly) (TRACHOKA, therapy chloramphenlcols (CHIMLAWOMICOL, therapeutic use. trachosta)  Monthly !,Ist af Russian Accessions, Library of Congress, IV 19 53, Unc I .2  -NIUMA, *Jkolayevna.FROLOVA, Yelena flikolayevna; SHCEMBDA, __T~Iyana r, T~ilyana Vii~iidrovua; KAFYSM'A, V.S., red.; MUILASBOVA, V.A., tekhn. red. [Laboratory manual on the zoology of invertebrntos)Praktikum po zoologii bezpozvonochrqkh. Pod red. E.14.Frolovoi. 14o- skva, V-ysshaia shkola, 1962. 2(77 p. (MIRA 15:11) (Invertebrates)  5~/7tvi/ul/000/1)00/001/003 AUTHORA: Karsanov, G. V., -,;n, B~ P_ Nlagidson,,L A.. 0doye,,.;'.' y' 14. S_ Ti r;,~ina _AIN. , Er. r.~. MikhtnaV.,N,,- Orlova, S. Yc., Candidates of Technical Sciences. TITLE: Problems of the tuchnology of metallic Chrome. SOURCE: Razvitiyo ferrooplavnoy prom ys hictinosti SSSR. Ed. by N.,"I. Dv.hanov and others. Kiyev, Gostckhizdat USSR, 1961, 205-117. TEXT; The paper reports briefly the result% of experimental invc~tittiunm per- foi,.-acd at the Laboratory of Pure Metals and Alloys, TsNIIChcrMct (C,-ntral tkicn- tiftc Rcb,;arch 'Institutc of Ferrous Metallurgy). The dzrcct objective oi thc 1.'%vC.Lt- gz.tion is the development of a method for the making of'metallic Cr that would ob- viate the defects (primarily the elevated content of impurities) exhibited b%- the aluminothermic method currently prevailing in the USSR. A brief state-of-the-art report comprises two graphic summaries of the processing of Cr-containing ores and the technology of the production of CrZ03and CrO 3* Following a brief cott comparison as obtained from various sources it Is stated that the utilization of chlorchrome as an initial source material broadans the perspective$ of the making of pure chrome and reduce* the production costs si3nificantly . The waterless Card 1/3  ,Problems Of the technology of n-., '.allic Chrome. S/764/61/000/000/002/003 chromechloride can be obtained directly from a chloridation of Cr ores a rn;nl- mal number of process operations and a high degree of purity. The present Inve'ti- gation was based primarily on a chloridation of briquets of ore and a G-containing, reducer by gaseous Cl at high T, the removal of the chlorides of Cr, Fe, Al, "iid other elements, and their subsequent selective condensation. A ichernatic t)lcj,.k diagram shows the process procedure for the obtainment of CrC13. The laboratory experiments show that under suitable process condition3 the Cr is practically cam - pletely removed int.) the sublimate. The process is almost total at BOOOC, but tip to 850" it still proceeds slowly. A fastur rate is obtained at 900-11500, but a I.rthcr increase in temperature does not accelerate the process substantially. H.,.d c-1 was found to be the most inexpensive reducer. A cost comparison indic ces Eh,, cost advantaGo of the now p~-oc,;ss. Electrolytic methods were testell at the Labora- tory of 13ure Metals and A.-ya of the TsNIICher.\4et for the producVan of metallic Cr. including: (a) The electrolysis of aqueous solutions 3f CrO 3' %b) the electrol- ysis of polychromatic solutions, (c, the electrolysis of aqueous solutions of salts of the trivalent Cr, primarily CrC13, and (d) the electrolysis of CrCI3 in salt fusions. T"-.e TsNIICherMet developed the electrolytic method of the making of metallic Cr from aqueous solutions of CrO and introduced them into serni -industrial production at the Experimental Factory of ?he -r.NIIChrW, in 195Z. An experi- Card Z13  Problcms of the technology o,' metaii;c Crome. mental production of chrome at the Ze~tafon Iron-Alloys Pl~nt %va~ p- f~ 13" the staff of the Plant under the direction of G. Ya. Siordic. 7he m( thot, ca;- monded for general industrAal application. The high cost of the intial ral. in. '.o a degree, compensated by the high pucity of thq product obtawed. P.1yit-t- matic solutions were developed at the Ural Polytechnical Institute iment Kirov .1i (j at the Ural Scientific Research Lristitute for Metals. A systematic inve%ti~~At%O~ '~ the clactroLytic making of chrome from aqueous solutions of CrCI 3 was pe rforrned by the Laboratory of Pure Metals and Alloys of the TsNllCher?61ct. In addition'to the methods already mentioned, an improved technology for the making of Chr9line by the alectreosilicothermic method wao also performed. There are 10 figures ;-d 2 tables; no references. I ASSOCLATION: TsNIlCherMet (Central Scientific Research Ins-tute for Fdrrous Metallurgy). Card 3/3  3/177/62/000/004/031/,001 j AGWA101 Q'I'HORS MikhIzz, V. N., Karsanov, G. V. TITLE: Preparation of chromium metal by electrolysis from hexnvalent fuid trivalent Phrome compounds .1 zhurnal, Xetallurglya, no. 4, - -18 '1 r PERIODICAL: Re f era t ',.rriy, 1)62, , -21), btract 4G181 ("Metallurg. I khim. prom-ste Kazakhstana. Nauchno-tekkin. sb." ig6i, no. 5, (15), 65-,71) TEX`T.- TsNIIC'nermet developed two technological schemes of obtaining electrolytical Cr. According to scheme no. 1, a diaphragm bath is used for electrolysis of an aqueous solution containing 2110 g/1 Cr chloride and 7r - 125 0 g/1 at-irrionium fluoboride, at 110 - 50 C; D c is 15 - 20 amp/dm2, current efficiency is 76%; electric power consumptlon Is 10 - 12 kw-h/kg Cr. According to scheme 2, electrolysis is made of molten salts NaCl and KC1 (I : I) or NaCl, KCI and Nar0 (1 : 0.45 : 0-3) with 4 - 9 weight % concentration of Cr chloride at 750 - 850 C; Dc is 200 anp/dm2; electric power consumption Is 7 - 9 )cw-hlkg Cr. Approximate calculations yielded a cost price per I ton of Cr of about 1,500 Card 112  A& 3/13-1/62/000/004/0 3 11201 Preparation of chromium metal ... A006/A101 rubles, according to scheme 1, and of about 700 rubles according to scheme 2. There are 37 references. A. Tseydler [Abstracter's note: Complete translation] Card 2/2  316U S/65 61/007/000/073/044 D205YI)303 AUTHORS: Orlova, S,Ye., 1khInft. V.N,, and Kars n.)v, G.V TITLEi Production of chromium by electrolysis of polychromve and chromium chloride solut'.ons SOURCE: Akademiya nauk SSSR. Institut metallurgii., Issledova- niya po zharoprochnym splavam, V, 7. 1961v 280 - 281; TEXT: Owing to the high production costs of electrolytic chromium from solutions of chromic anhydride alternative electrolytic routes from the cheaper polychromates and chromium chloride sol,litions were investigated. The-amount of electrical energy required is also an- ticipated to be lower. Lead cylindrical bathe which also served as anodes and stainless steel, tubular, internally wr~ter-cocled catho- des were employed. The immersed cathode surface was 1 drm2, Tempera- ture was maintained by a water thermostat. The starting reagents were technical chromium anhydride, sodium d1chromate and sulfuri.- acid. Current of 30 - 70 amperes was supplied. Duration of each run was about 7 hours. The following process parameters were 9tud'Led: 1) Concentration of polychromates in the electrolyte in the range x Card 1/;  3/659/61/007/000/0"3/044 Production of chromium by - D205/D303 150 450 g/l total CrO,; 2) The Na/CrO, ratio in the range 0 C~ 0,16~, 3) The H,SO 4/CrO 3 ratio in 0.01 - 0,15 range; 4, The ele: trolyte temperature in 20 - 600C range; 5) The influence of RN03 additiong,. The increase of CrO 3 concentration from 11)C t,~ 350 g,,! results in a higher yie'd of Cr with reepcot to the aged current Further Increase to 450 g/1 does not lead to further improvement. The increase of Na/CrO 3 ratio to 0.115 does not reduce the chromium yield, but a further increase reduces the yield, increases the energy requirements and produces dark, brittle metai. The posBible accamulation of H 2so4will not worsen the process rYaracteristi:s up !o an amount of 5 - 7 % with respect to Cr03; further in~:rease to 10 - 15 % reduces the yield sharply, but does not alter the me- tal quality. Temperature is an important factor, Above '50C a sh irp drop 'In the chromium yield is observed, Increase of th,? cathodp current density from 30 to 70 amp/dcm2 causes an increasf- in yield with respect to current but also increases the energy reiuirements. In some production methods the appearance of HN03 ImPuritles is Card 2/")  3/65 61/007/000/033/044 D205Y Production of chromium by ... D303 pcssible, corroding the lead baths. In some instan:eo the ele-tr,,~- lysis of polychromate solutions in which a dia,iragm-less simple ceil and high current densities can be used gi,cs better techn,~I,D- g:cal results than that of the pure anhydride golutions, The prob- lem of the eAF,,,troiysis of CrC13 solutions is not as yet satisfac- torliy solved due to the hydrolysis of Cr*3 salts at relatively nigh acidities. To obtain a high bufferinE capacity at "he Jes1red pH, additions of ammonium chloride, fluoride. borofljoride, sulpra- te and urea were tried, Vinyl plastic baths were used witi-, a rein- forced perchlorovinyl diaphragm. Stainless steel cathodes and gra- phite anodeswere used. The catholyte was a 1.0 - 1.,5 g-mole/l CrC13 solution with 1 - 2 g-mol/l of buffer additives, the an-lyte a 10 - 12 % sclution of HC1. NH BF and NH4P additions gave best results, Current densities of up to ~O amp/dcm2 could be used an! go~,)d lua- lity metal was obtained. Pilot-scale trials were perfirmed by TsNIAI Chf,% There are 4 figures and 10 referen6es: 4 Sovi,2-bloc and 6 non -S,)vlet-bloc. The 4 most recent references to the English-lani,uage publications read as follows: T. loBida, J. Chem.Soc.Japan, 1955-~H; J, Morisse, Chromium plating, 1954; J. Salov, Galvano, 22, no'. 194, 1953; F. Teilor, Electroplating, 5, 1952. Card 3/5  ORIOVAp S.Ye.; KARSANOV, G.V.; 141KHI14A, V.N.; VOROBITEVA, A.S. Study of buffer properties, electric conductivity, and cathodic process in chromium hydrochloric electrolytes. Zhur.prikl.khim. 34 no*8:1759-1764 A 161 (MIRA U:8) (Chromium chloridel (Electrolysis)  Oe2 :)lI2ul D-1102 /F,J/ca ,J;THO.,S: Mikhina, yx N.. K;ijri%~)v, V., M-igidson, 1. A. TITLEI- I'llectro1j,ti~_- pro,J,ction of chromic chloride Zh,rmil prikLid!.,j,- TE'XT The :iuthors st~ ,idied the effect OUtpul Ind kj. Ift I I ty k) f (" I f)(~ t r0 I,tk~ chroml.,m lepollitu from -!X(mic -lilur,.d(., joliition',3 With ;III NH 11 BF4 buffer. tww~i w ~,)!I- I '3 r. tt_,mper-,it,,~re, curre!.t de,,~;ity, .entrations of Cr-1, ind NH . 4 49 2-t- r + -_,entr:iti )n p1l. T!,e experim,.,ntLi Cr and NH 4 con r.ed out in a 10 amp electrolyzer, in whiA. ~!.e I'll in AF-- _Ompartme'nt~,,, 4ere sep~,ried by 'i pirous Tl.e -3 Jes,_-ribed in letail in'l illu6tr,tted. c)(.,s* rt~_- t-i ined nder tl.t_- f oll conJ 1. t 4,)ns e%tr i t i n~l -if ',r I .. tn,~ (1: - ird  0 0 t t i j, r o ~t -i c t i o r i e- NH -1 BF com;j irtment pf, -ivey, 'emperature 40 - '-)0 ~tnd I i b i d ,,i' tratiin ~n +,,e anode compartnent . I nc g-mol The ~ivcnite , irrent yield )f m, etu 11 i i r m i w!. i n Li () m e e x p t ,3 . even A - i:Id t ~ I (" L3 1) e c " f i --. v t r C' r I wisumpticr. viao 10 k'd-hr/k6., "r. The rt!i3,ilts weve '~irge-s-a~e laboratory e(ju,,pnent. ~,Iu~3e-pickel ',r j, p, were L--b'ained, easily from the t hod e . The e I J 66 - 67,,.' und energy ~:on~3umption ^.,,15 kd-!-:-,'kg, Ti.c- v p- a m; t i i g r ~j m 9 f r - i t rl ~3 --,-herne f,)r the iyidustrl~il j,r~)di,--ti~-)n --f 1,~jjt~tl i ~i t ion ri ~;i n ed I '1. (2 )b n e d ~ r, ti,e I,irte- ~41e57,- Fe - 0.0' 0. 10; ja 1 0.00',; 0 0. 0 J.0'7 _ 0.20; C _ 0. 0) 0 x 0 0. '0; N L B Y '0- 4 TI.u.-e ire 10 f4jures i!,J 'i TfIe t , t  O'~ 0, 0 'Ou~, )o""0 e t J P,.  t P1- -F -- .0 M. AcCESSIO NR:':AT5d02491 SA00064/000/m/0112/ow V. v, G. V. Kalmykov T.V.,' A UTHORLMOIddson., -L A "Ib yor t~yeva, A. TITLE: semi-industrial Installation for the prouction of electrolytic chromi from aqueous solutions V. chromic chloride obtained by the chlorination of chromium ore SOURCE: -Vses0,VuznYv seminar 29 RMOMY jj1gj&2kWMI1. 5th, Dnepropetrovsk, 1962. -GidroelektrOnletallurglya khlorldov (Hydroelectromeiallurgy of chlorides); doklady seminara. I Kiev,! Naukova duraka, 1954, 112-117 TOPIC TAGS:- chromium -reftains chromilum ore chlorination, chromic chloride reduction, -ale~tmIAo,chromimm,-:eleF;rplyzer design ;~,MMCTI -- P r-6vious aw M.vtw to prodwe- a stsWe electrolyzer for the highly- unstable chromic chloride were based on the use,of neutM salts such as ammonium borofluoride and could 'never be applied Industrially. The promt report describes a soml-industrial Installation for the productlan of anhydrous chromic ehloride by chlorinating chrome ore -.fn oi-rd o-r- t-D'- extract metallic obromivm by,.e10cftv1Ys1s i It comprises two basic units, one Of which, chlorinates the, ore while the seoood electrolyzes It-, the unit produces 600 kg of cod 1/  L 0871-6- ACCESMOI~.Nlt: AT500240111 ia6drous cbro,mic-'b~iorlde Der. day -and 7 5 kg of Ours' is In hydroje~t (S-~a Fig. 1 of the Enclosure). Chrome ore and coal grJund to 0. LSMM mesh arefed into the nfter _4 into which a doser 2 delLverm allatline sulfite-ceRulose pulp at a specifte. gravity -of, 1.42. This charge goes into bunker 3, from which a revolving -Iqu6t press 5. Conveyer 6 carries the briquets to bunkers 7 disk 4 tbrowe it Into the br (the dust beiing: retured to the mixer 1. The whole briquetsare fed-Into a resistance furnace 21, where they-are coked for 4 hours at 8000 IA the absence of air. They then go to bunker B;and drop onto sifter 9 (dust from which returns to the mixer). The whole briquetsthen enter'the ShEP-10 electric shaft furnace, where they are chlorinated at .600-1060C.: Ae furnace is 500-mm In diameter ond Its floor Is covered with packed coal which serves as a resistance to the curTent supplied by 6 carbon electrodes. Chlorine enters the furnace from a battery of cyMiders 30 through tank. 29. All components in the ora-4re.Ihus. transformed Into chlorides, all of which are removed except the liquid magaeslu62 chloride, which flows into a container, while the chromic chloride coUeets.inthe.cotid,msertowerll'workingst85O-460C. The pure chromic chloride CrCl . goes In. preparing the electrolyte', while the ferric and aluminum chlorides pre- condenser 12 Waste poses are water corubbed in 13 and exhausted into the c4pla; in atmosphere-at 14. - The Irrigating solution flows Into vat 16 and is pumped back into the Cc id - 2/6  L 23871-65 ACCESKON NR-.:'AT5002491 scrubber at 25. 1he, 6romic chloride is delivered Into a reaction vessel 17 containim distilled water, a little, concentrated hydrochloric acid from 22, ammonium borofluoride (as required), and a small quantity of catholyte containing bivalent chromium to dissolve the chlorl.de in water. This solution contains 400 g/liter of chromic chloride and Its pH is 0.2-0.3. -It is filtered at 21 and fed as needed into the catholytz at 28. Electrolysis takes place in a.hoinmette diaphragm bath with anode and cathode compartments. The catholyte contains 240 g/liter.of chromic chloride and 80-130 Otter of ammonium .,boronuaride; its pH Is 0.7-2.40 and It heats up to 40 or 50CAtzing electrolysis. 'Ibehot catholyte flows continuously from the electrolytic bath, 19. Into a graphite heat exchanger 20, where It cools and collects in 28. Here It is adjusted and pumped by 15 through a d6ser 18 back Into the bath. The anolyte (130 g/liter hydroeMoric acid and 240 g/liter chromic chlorld,e) Is diluted with water during -electrolysis and. flows continuously from the bath Into an ovaporat"er, 34, ~ is cooled by graphite at 22 and collects in vat 30. Here It is ad- justed with hydroohlorlo acid and pumped at 34 back into the electrolytic bath througgh daser_23_,Ch1o_rJne_from the anode compartment passes through the drier 26 and compress- er 27 then 06j-to-the'~chlo or. -EVe-r-y-o-o-r-8-hourwlhwdeWaA-caUw"s-are-moved to table 31 d its are iemoved and the cathodes ciesn6d at 32 In an alkaline Solution. The chromium deposit Is washed In a vat of d1letilled water, 33 and then dried. Orig. art-. haw 2 figuess Cards/5.    HUHINOV. 14. (14ikhinau, M.] The7 build now city blocks. Rat-.1 91&j. .36 no.8:14-15 Ag 060. (KLU 13:10) (Kinatc-Conatructiam workers)  MINHINOW, Y01,r polkovaik v sapasa. Obedience is the soul of military discipline. Toen. tnen. 34 not 6tlO-11 Je 158. (MIRA 11t8) (Military discipline)  MM[INDV, Ye., polknvnik v zapase v'*A,!v,~,dv;,.-- - tlmll Tbiq march and Ito defonse. Voon.inan. 35 w.1:14-16 Ja 159. (KIRA 12:5) (1-furcbIrw)  'K[X:HINCV, YP -palkownik tapasa Toung soldiers have joined the regiment. Voen.zrian. 37 no.4; 6-7 Ap 161. (KCRA 14:4) (Russia--Army)  NIKHINU, P.K.. naahallnik. Standard panel forwork for foundations of equipment and reinforced concrete construction of rolling mills. Strol.prou.31 zw,12:4243 D '53- (KM 7SI) 1. lh~Lrlkovvkty filial Teentrallmogo byuro tokhnicheakoy ponoshcht stroltalletvu. (Concrete constraction-Formork)  HIEUM. 1. Training launch chiefs. Voon.snan. 31 no.10:25 0 '55. (MAL 9:3) (Naval education)  RODIONOV. G.T.; -MIKHIRZV, P.A., Basic patterns of Interartion between bucket and stacky of loose materials. Trudy Gor.-geol. inst. Zap.-Sib. f1l. AN SSSR no.19:7-17 '57. (MIRA 11:7) (Loading and unloading--Xquipment and sup lies)  MIX11mv. P.;'. A F,r),-rinartal Gt'A7 Of -'I] .~qrl. inst. Zap.-Sib. fil.it-H AtR no.19:19-~' (Loading and vinloadire,---Fq,ifpmfmt and gr  mina'Ev. P.A. .......... ~~,2670A'*O" Investigattr)g Vie process of scoopii*; 1,-~s machine models. Trudy ID8t.gor.dela.SI~.ot,.I.j%.; S65IR iio.l: 205-215 158. (14ijtj~ 1;):11) .1--l-Indela) (Mining machiner,  MIKHI IEV --- I . Hathodu of invontigiAing thei dofol-matic), of a layer of ",7ulk materials under tho offoct of tho huckot In oportatinn. Trudy Inst.gor.dn1a.Sib.otd.,kII SSSR no.1:216-223 1513. (141RA 12:11) (Granular mat erials ) (Surfucou. Models of)  KIKHIREV, P. A., Candidate Tech Bel (diss) -- "Investigation of the procesis of filling the buckets of loading machines". Ibmsk, 1959. 20 pp (Kin Higher Educ USSR, Tbask Order of rAbor Red Banner Polytech Inst im S. M. Kirov), 1.50 copies (KL, No 24, 1959, 139)  MIKIIIREV,-P.A,, kand.tekhn.nauk; ZAKIIVATKIN, B.V. Practice of using FPIw-4M loaders in the iron mires of Gornaya Shoriya. Gor. zhur. no.11:51-52 11 '61. (11,11LA 15:1') 1. Institut gornogo dela. Sibirskogo otdeleniya AN SSSR (for Mik~irev). 2. Glavnyy mekhanik gornovo upravleniya Kuznetskogo metallurgicheskogo Irombinata. (for Zakhvatkin). (Gornaya Shoriya-hining machinery)  AODIOI:GV, Gcorgiv Viktorovich, doktor tokhn.nauk; KALINITSKIY, Yakov 13oriijovichp kand,tokhn.luluk) GUI(KOV, Konotantin Stopanovichs ktind. teklm.nauk; F.CSNLEV, Alekaandr Dmitriyevich, kand. tekbr-Muk.; MIKEIREN, Potr Lleksundrovich, kand. tekhn. nauk; MFEEZ, Igor' M,ikha7lovich, nauchrW notr.; SOBOLI, Arkadiy Vladirirovich, st. nauchMy sotr.; SOROKO, Veniamin Vasillyevich, kand. tekhn.nauk; BAZPIIOV, A.F., kand. tekhn. nauk, retsenzent; BULATOV, S.I., red. izd-va; SI1,RNOVA, G.V., tekhn. red. [Loading machines for loose and lump materials; dp:;ii,,,n, toory, and calculation]Pogruzochnyo mashiny dlia sypuchikh i kuskcvyk-h mate- rialov; konstruktsiia, teor-lia i vaschet. [By]K.S.Gurkov i dr. Po- -k _vn, 1/,ashgiz, 1962. 286 p. (MIRA 15:12) (Loading and unloading-C-quipment and supplies)  IUKHIIIEV, P.A.$, ipzh.; GURKOV, inzh.; V.A., Inzh. P.asults of an experimental sLudy of -,he vib-rating vori:irC Ta:-, of a continuous loader. Gor.zhur. no.4-51-54 Ap 162. (,-MtA 15-4) 1. Institut gorno6o dela Sibir3kogo otAdelen-iya A14 SSSR, Novosibir.3k. (Mining machine ry;---Tes ting) (Vibration-Electromechanical analogies)  ITF~A-F.A** inzh.,-, POIIOMLA7x-,V,, V.D.O b2zhe Potentials for increasing the productivity of PPIS-4 rock loaders. Gor. zhur. no.7;63-.64 JI 162. (1-11RA 15:7) 1. Institut gornogo dela Sibirskogo otdoleniya All 33SR Fovosibirsk (for Mikhirev). 2. Norillskiy kombinat (for PonomaxWo (1-UnJng machinery)  MMIREV P.A.; SINYUGIV, GA; KHRUSTALEV, A.A. MPMI-0.12 1oaAIng and hauling machine. Gor. zhur. no.9.54-55 S '62, OaRA 15:9) 1. Institut gornogo dela Sibirskogo otdoleniya AN SSSR (for Nikhirev). 2. Rudnik *EmeI'dzhak* kombinata Aldanslyuda (for Sinyugin). 3. Gosudarstvennyy institut po proyektirovaniyu prodpriyatiy nikelevoy prwqshlennosti (for Khrustalev). (Mining machinery)  MIKIIIREV, P.A.; KOSTYLEV, A.D.; VOLODIKO, K.P.; SAVKIN, M.M.; I-IOGILEVSKIY, V.M. Means for automatic control of the operation of a 3ingle-bucket loader. Gor. zhur. no-3:69-70 Mr 163. (141RA 16:4)  -NIKHMU.-P.A., inzh.; HOGILEVSKIY, V.N., inzh.; SABLIN, R.F., inzh.; KANAYEVV M.G., inzh. Automatic control of the scooping procesp of a single-bucket loader. Izv. vys. ucheb. zav.; gor. zhur. 6 no.6:154-158 '63. (MIRA 16:8) 1. Institut ornogo dela Sibirskogo otdeleniya AN SSSR. IMining machinery-Electric driving) (Automatic control)  NNHIRSTA, T.S. I Chorlo-opithellons of the testicle. IhIrargiia no.9:67 5 153. (KUU 6:11) 1. 12 Xaliminskogo oblastnogo onkologicheakago dispaasera. (Testicle--Cancer)  --~~IREVA, T.F. Lmedi.ate and late reBults of surgical trealment ~f atla--P-ch cfu-lcar. Vol,.onk. 7 nr,.1204~77 'Q. (Y:-eu I --) : 1) 1. 1z Kslininakogo oblastnogo onkologicheakogo dinpanDera (glavnTy vrach - zaaluzhennyy vrach RSFSR TX. Kikhireva). SMACH-WCER) (SMACH-SURGMY)  "Kai nIn ~'nb...' , FAibr~k' b" Kv.C Iatr resLltv ,,f thE ~rcalmpnt ~-' ca: -e:- c," tne rert-n ! on materials of the Kp-llntn *I,cv,n,e ','..gpenAary. 7rp. onk. 9 no.12:84-8t) ; 63. ( ' '; : -, ') 1. 1z Kultninsk~pgi oh:nntnogo cnRoIcyi,7twsk,,,go di"pansora ~glav. vrach - zas.,,zhennyy vrav.1, ':.N. 'Xlkhlreva~.  MIKHIREVA, T.N. (Kalinin, "Proletarka", d. 61, kv.6) Fesults of surgical therapy of gastric polypor-is. Data of t~A Kalinin Province Oncological Dispensary. Vop. onk. 10 no.9:92- 94 164. (MIRA 18:4) 1. Iz Kalininskogo oblastnogo onkologicheskogo dispansera (glavnyy vrach - zasluzhennyy rrach RSFSR T.N.Mikhireva).  GUTERMAN. V.Y.- KIKIRYIWO. V.B.- ZAYTSZV. D.G. 3r1ef reports. 7-ay. lab. 423 no.6-7C6 Je '57. ()G.RA 10: e ) (Cementation (Metallurgy)) (Steel-SUctric properties)  SRI~hemistry -card -Mtkhkell son V..'Ya. f-11-te-71 Cryosco4c.mathad Of determining the molecular weights with the aid of.resistance thermomters ftriodidil .,::'I -Febr 1954 .,Zhurs,'AnaL Xhimp 9j, FA. L, 22,480 Jan Ab'stradt Th4 de4slo nt ofa now cryoscopid Method or determining molecular weights by means of resistance thermometers is described. An import- ant condition In Cne derivation of reproducible results in cryoscopy Is strict observation of heat exchange constancy during the entire testing period. Constancy can be obtained by-thorough heat insu- lation, intensive ard uniform mWrg and use or bath with constant temperatures The. determination or molecular, weights must be carfried out in a dry atmosphere and in &.dry solvent. Dioxam is considered an excellent, solvent for the determination of moleculAr weights of di-atomic phenals, and carboxylic acids. Seven references. Tablesl drawinmao Institut'' '~:Ttm Polytechnical Institute, Tallin# Estonian-= Submitted::'I Aug 9. 1953   Y~ V ne7 .,a rntl* -W, Gr, VP  MIKHKIYEV, A.I.; KOIVUnN, T.M. On drainage practices for swampy soils in Finland. Gidr. i zel. 14 no.1:62-64 J& 063. (KIRA 16:2) 1. Karel'skaya sel'skokhosyWtvannaya opytnays stantsiyao (Pinland-Dminage)  ('~-,M~A7fttive ssm~tlvit7 (~f scme t~c detlerminat'-~~n of antitp--ates. 6C nf,~.9.122-125 S 965. 1. WAel mikxobiologti (zai,. - chic n-karres potAe n t AMN , rzof. V.T. loffe~ lrwt~.tuta eksporlmentalincy med'tsini y -hien A" prof. P.4. Wr kov) AMN do ys tvi te I I riy- YIA Lk rLi rlp-r~t d.  M 1,~ 1-1 KoTA 0 A DOLOOTOV~ N.P... KIMOTAP A.; SINIKO, A.I.; BABOKIN. otvetat-rennyy red.; . Z*A.,-tekhn, red, [Handbook for work3re and minor grade inspectors in mine transpor- tation in the Moscow Basin] Pamiatka dlia rabochikh i mladshego nadzora uchastka vnutrisha)ditnogo transporta Fodnoskovnogo basseina. Moskva, Ugletekhizdat, 1953. 22 p. (KUU 11:7) (Moscow Basin--Kine haulage)  I- lzy~' :- f " k PMIN.M.Ye.: 14IMMOW.I.P.: VASIIZSXU.L.S. Reduction of ferric sulfate by sulfurous anhydride. Zhur.prikl. khim.28 no.6:573-578 Je'55. (KLRA 8:12) 1. Laningradskiy takhnologichookiy institut iment lAnsoveta (Iron sulfate) (Reduction, Chemical)   YARTSEVA, N.A.; MIMLIK, N.B. Accounting for raw TaterialB in hydrolysis plantB. 'J.'drG-:Z. i lesokhim. prom. 17 no.7:23-25 164. ( HIRA 17: 11 1 1. KELnskiy gidroliznyy zavod.  MILUIN. Ber4 y HRRG, A.I.,redaktor; DZHIGIT, I.S.,redak-tor; A.,ra4aktor; SHIRROV, A.D.,rodaktor; TARA$OV. F.I.. redaktor; TRAKM, B.Y..redaktor; CHIC1119, P.O..radaktor; SHAMS=. Y.I..rodaktor; GINZBURG, Z.B..radaktor; CHERVOY, T.S.. takhnichookiy redaktor CAlectronic instruments for production control] Radioelektronnyo pribory dlia proizvodetvennogo kontrolia. Moskva. Goo. enere, izd-vo. 1956. 62 o. (Masovais radlobibliotaka. no-258) (Automatic control) (Alectronic instruments) (Production control)  PHASE I BOOK EXPLOITATION SOV/52412 Mikhlin, Berka Zuslyevio Vyookochastotnyye yemkostnyye I InduktIvnyye datchiki (High-Frequency Capacity Picku a and Variable Inductors) Moscow, Gosenergoizdat, 1960. 69 p. &5,000 copies printed. (Series: Massovaya radio- biblioteka, vYP- 375) Editorial Board: A. I. Berg, F. I. Burdeynyy, V. A. Burlyand, V. I. Vaneyev, Ye. N. Genishta, I. S. Dzhigit, A. M. Kanayeva, E. T. Krenkell, A. A. Kulikovskiy, A. D. Smirnov, F. I. Taraoov, and V. I. Shamshur; Ed.: S. 0. Darevskly; Tech. Ed.: N. I. Borunov. PURPOSE; This booklet Is Intended for experienced radio amateurs interested in electronic Instruments used for measuring non- electrical quantities. COVERAGE: The booklet presents the fundamentals on h-f capacity pick- ups and h-f variable Inductors based on the utilization of eddy currents, which are used in measuring nonelectrical quantities. Card-1/4----