SCIENTIFIC ABSTRACT MALINOVSKIY, N.N. - MALINOVSKIY, V.A.

MALDIOVSKIII N.N.; SREKIITEA, A.B. Endocardial fibroelastosis with cardiac hypertrophy in children. Kardiologiia, 2 no.2:80-85 Mr-Ap, 162. 041 -A 15: 4) 1. Iz kliniki gospitallnoy khirurgii (dir. - prof. B.7.Petrovskiy) i kafedry patologicheskoy anatomii (zav. - prof. A.I.Strukov) I Moskovskogo ordena Leniina maditsinskogo instituta imeni Sechenova. (WART-DISZASFZ~ (HEART-MERTROPHY AND DILATATION)  HALINOVSKIY N N - ABDULLAYEVO G.I. Selection of an approach for the excision of intrathoracic goiter. Khirurgila 38 no.lOtlO6-110 0 162. (MIRA 15:12) 1. Iz gospitallnoy khirurgicheskoy kliniki (zav. - deystvitelln7y chlen AM SSSR prof. B.V. Petrovskiy) I Hoskovskogo ordena Lenina meditsinskogo instituts. imeni I.M. Sechenova. (GOITER)  MALIIJOVSKIYJ, Pathogenesis of Lh.-:-~)cE, 3 i,:' '~,ie :eft at, Y. a n,- s in mitral stenosi;3. 7- e 1. Klini,~a '.,iirekLt,y devstvi~, i r~. Al-21 SSSR proC. tro, gk'y) 1 Mcskovskogo ordena i - tsinskogo in-9titutu '.M. Secheno,,a.  :r,~r. tal -rw, I k3 7'i .-,a s , n ~ K a g r,  PIAMOVSKTY, N.N.; 2ZARGAUI, F.I.; MELEKHOV, V.V. Gorrection of a long hypoplastic forn of ioaretatior, of the descending thoracic and abdominal aorta using a thoracico- abdominal shunt. Azerb. med. zhur. 42 no. 7:37-42 Tl 165 (MIRA 19 r.1) 1. Iz serdechnogo otdeleniya ( zav. - doktor med. nauk N.N. Ma- linovskiy) Nauchno-issledovatellskogo instituta kli-nicheakoy i eksperimentalinoy khirurgii Ministerstva zdravookhraneniya RSFSR (direktor - deystvite-Ittiyy chlen AM SSSR, prof. B.V. Petrovskiy).  a 1% tj ray e x ta 1 I j',Y~j  14(5) SGV/127-59-3-6/22 AUTHORS: Malinovsjk~' N,Ya, Chichivanov, R.P. BlaEonravov _ , , _V_.T_._,__TLrichok, Yu. G. and Popovich, F.N., Engineers. TITLE: The Automatic Control of an Electrically Driven Hoist with an Exciter-Regulator (Avtomaticheskoy? uprav- leniye elektroprivodom pod"yema s vozbuditelem- regulyatorom ) PERIODICAL: Gornyy zhurnal, 1959, Nr 3, pp 24-26 (USSR*,, ABSTRACT: Laboratoriya avtomatiki i telemekhaniki Leningrads- kogo gornogo instituta (Laboratory of Automation and Telemechanics of the Leningrad Mining Institute) developed a new automation system for skip hoisting in the Severnaya Mine of the Mine Management imeni Kirov. A normal direct current motor of PN-100 type is u-sed as an exciter-regulator of the generator. To make the use of such motor possible? its parallel winding was divided in two parts. This winding, generally consists of two coils on each pole. The Card 1/2 dividing consists in connecting coils with a larger  SOV/127-59-3-6/22 Phe Automatic Control of an Electrically Driven Hoist with an Exciter- Regulator. number of turns in series, which form a master winding of the regulator. Coils with smaller number of turns, connected similarly, form the winding of the regulat- ing feedback. This system replaced the old automation system which used a EMR regulator of longitudinal field. The new system stepped-up hoisting operations. There are 2 oscillograms, 1 diagram and 2 Soviet references. Card 2/2  Kethod of prod=tion of digestive notor condittoned reflexes in rabbits. riziol. sh. SSSR 38 no. 5:637-639 Sept-4et 1952. (CLKL 23:3) 1. Isboratory of Comparative Physiology of Higher Nervous Activity, Institute of Physiology imeni Academician I. P. Pavlov, Acadeaq of Sciences USSR.  MALINOVSKIY, O.V.; VORONIN, L.G., zaveduvushchiy. Secondary conditioned reflexes in monkeys. Tnidy Inut.fiziol. 1:205-212 152, (91-Ra 6: 8 ) 1. Laboratorlya aravaitellnoy fiziologii vy9shey nervnoy deyatellnosti. (Conditioned response)  MALINOVSKTY, 0. V. Dissertation: "The Comparative Physiology of Conditioned Inhibition and Conditioned Reflexes of the Second Order." Cand Biol Sci, inst of Physiology imeni I. F. Pavlovj Acad Sci USSR, Moscow, Oct-Dec 53. (Vestnik Akademii Nauk, Moscow, Jun 54) SO: SUM 318, 23 Dec. 1954  V.ALIROTRKIY. O.T. Kethad of Investigating conditioned reflezes in rabbits involv4W movements relating to feeding. J.Phyalol.USSR 152. 38. 637-639. (VY.ItA 5.-U) (BA - AIN Ap 153042)  NALINOVSKIY, G.V. -'~ :'~t~T,,, Mechanism of conditioned responses to complex stizall. Trady Inst. fitiol. no.2:5-15 '53. (KRA 7:5) 1. Laboratoriya aravuitellnoy fitiologii vysshey nerynoy dayatellnosti (saveduyttahchly - L,G.Voronin). (Conditioned response)  KALINOVSXIYo O.V- ,__ - .- - - -- &Arek-it producing temporary connection as a reaction to indifferent stimulL in rabbits. Trudy Inst.45101. no.2:335-339 153. WRA 7:5) 1. Laboratoriya aravnitellnoy fiziologil vysshev nervnoy dayatal'nosti (gaveduyushchiy - L.G.Voronin). (Rabbits--Conditioned response)  KALIHOVSKIY, Q.T. z - 4-i 4 , ~ - Conditioned lia~bition in rabbits. Trudy Inst,fixiol. no.2:470-478 '53. (MA 7:5) 1. Laboratoriya aravnitallnoy fiziologii vysshay nervnoy dayatellaosti (zaveduyushchly - L.Q,Voronin). (Conditioned response) (Inhibition) (Rabbits)  NALIMOVSKly, O.T. . ~~z_ Unconditioned secretion of the parotid gland in rhesus monkey. Fixial. sh. SSSR 39 no. 1:47-51 Jan-Feb 1953. (CIAL 24".2) 1. laboratory of the Comparative Pbqsiology of Higher Marvcus AGtivity of the Institute of Pbysiology Imeni 1. P. Pavlov of the Academy of Sciences USSR. LeniWad.  KALINOVSKIY. O.V. Quantitative evaluation of the streigth and equilibrium of nerve proces- ses Ili rabbits. Dokl. AN SSSR 109 no.1:233-235 Jl-Ag 156, (W2A 9:10) 1. InAtut fiziologit imeni LP- Pefflova Almdenii nauk OW. Predstav- lano akademikom K.H. lbrko7ym. (NMVOUS SYS-IM)  KALINOVSKIY, O.V. Vessaring conditioned motor food-acquiring reflexes observed in experiments in rabbits [with summary in English]. Zhur.vys.nerv. deiat. 7 no.4:591-599 Jl-Ag '57. (MrRA 10:12) 1. Laboratoriya arevaitellnoy fiziologii vysshey nervnoy deystell- nosti Institute fiziologii im. I.P.Pavlove Akademit nauk SSSR. (REYLPAX, CONDITIONS11, measurement of motor food-acquiring reflexes in rabbits (Rue))  v-s K~ ..pwiod mtbu- n- GASTIEWA. 5Kow j ~W--) D. 1-4 1~4 f Tl'. h'.. n%, -k a 7"""d d- lb. tb. P..4 -4 1-6 1- I lAt4rmtlOwl C*047098 of Fadloloa, Mmich, 23-30  KOROGODIN, V.I.; M&LINOVSKIY, O.V.; PORYADKOVA, N.A.; IZHOZHKROV, N.A. Problem of the reversibilit7 of various forms of radiation injury in diploid yeast cells. TSitologita 1 no-3:306-315 14y-Je '5'9. (MM 12:10) 1. Kafedra biofiziki Moskovskogo universiteta. Laboratoriya radiobiologii Instituta fiziologii im. I.P.Pavlova All SSSR, Leningrad, Laboratoriya biofiziki Instituta biologii Ural'okogo filiala All SSSR, Sverdlovsk. (RADIATION--PHYSIOLOGICAL EFFECT) (MIAST)  GALSTEVA, S.T.;(KALIVOVSKIYjt~O.T., PON&WSX&TA, L.F.; MUM. I.S.; CHETTERIKOVA. D.A. Iffect of ionizing radiation on certain aspects of the phosphorus metabolism of the brain. Trudy Inst.fisiol. 8:533-542 159. (MM 13:5) 1. TAboratoriya radiobiologit (zaveduyushchiy - D.A. Chetvarikov) Institute. fiziologii im. I.P. Pavlova AN SSSR. (PHOSPHOHUS KOABOLISK) (BRAIN) (X RATS--PHTSIOLOGICAL EMCT)  KHMOV, V.N.; ILA~~~ Relationship between the individual features of immunogenecis and typological features of the nervous system of rab~ita. Report No.l: Dynamics of agglutinin formation depending on the functional mobility of the nervous processes. Zhur.mikrobiol.epid.i immun. 32 no.l: 10-1316, 161. WRL 14: 6) 1. Iz Voyenno-meditsinskoy ordens. Lenins, altademii imeni Kirova i Inatituta fiziologii imoni Favlova All SSSR. (CONDITIONED RESPON99) (IMUNITY) (AGGLUTININS)  KRYLOV) VA.; MALINOVSKIY, O.V. Relationship between individual characteristics of immmogenesis and typological characteristics of the nervous system in rabbits. Report No. 2s Dynamics of the formation of agglutinins in relation to the functiona.l force of neural processes. Zhur. mikrobiol., W. i immun. 32 no.9:92-96 5 161. RI 15-2) 1. Iz Voyenno-meditsinakoy ordena Lenina akademii imeni Kirova i Instituta fiziologii imeni pavlova AN S33R. (AGGLUTININS) (CONDITIOITED R--SPONSE) (11OWNITY)  MALTNOV-KIYY M.; FHEYFJIN~_ T. ',. First symp-,sluo or. req.,--a--4on Of un~ TSitolclolia 5 -0.0 162. (Ml;i,~ `8!5)  Imm. V~ 1 17 1) 3.      RARSUKOV, V.S.; 14ALINOVSKIY, O.V.; MITYUSHOVA, N.M. Postradiation regeneration of yeast ceils during the stat-,ion-Ary phase of growth. Dokl. AIT SSSR 161 no.1:228-229 1-L- 165. (MIRA 18:3) 1. Institut fiziologii im. I.P. Pavlova k1l SSSR. Submitted May 15, 1964.  ACCESSION NR: AT4044487 S/0000/64/000/000/0041/0046 AUTHOR: ...Barsukov, V.S., Malinovskiy, O.V., Mityushova, N.M. TITLE: The importance of the cytoplasm in the recovery of cells from genetic radiation damage SOURCE: Vosstanovitellny*ye protsessy* pri radiatsionny*kh porazheniya kh (Recovery from radiation injuries); sbornik statey. Moscow, Atomizdat, 1964, 41-46 TOPIC TAGS: radiation damage, genetic radiation damage, mutation, cytoplasm ABSTRACT: In experiments on several diploid and tetraploid strains of Saccharomyces cerevisiae, the yeast was irradiated in aqueous suspension at 30C with gamma rays (C060) at an intensity of 880 rads/minute. At various times after irradiation, the cells were plated on nutrient agar and the survival rate was determined by the appearance of colonies. The results showed that the recovery rate is qualitatively the same for all strains of yeast, but Is inversely dependent on dosage. The rate of recovery Is constant for the first 20-30 hours, after which it drops markedly. Since the degree of damage to the cytoplasm also increases in direct relation to the dose, It appears 'Uhat the recovery from genetic mutations of the dominant 1khal type involves the participation of cytoplasmic structures Card 1/2  ACCESSION MR: AT4044487 and follows the all-or-none law. Mos., such mutations are apparently reversible. Irradiated populations of yeast cellB can be described by a number of parameters characterizing the ability of the cells to recover. Orig. art-. has: 2 figures and 5 formulas. ASSOCIATION: none SUBMITTED: 29Jan64 ENCL: 00 SUB CODE: LS NO REF SOV: 004 OTHER: 003 CardZ/2  BARStJ-AOVt mlry-,OSBGVAv N.M4 Signifleahco of the prodegs of pastradiaticin regenerat-ion of genelAvio structures for the radlosensitivity of cellsa Renn-t I;o.l# Probli, kosmi'~Ioli 4WI~460 165, sirafidance of the pt-oceim or pa�tvadlation ftgene-ration of gene'lula btruatarts for tho vndlom~eisitiltlty of nells. Report No,2, lbid6:461-468  ZHSSTKOV, V.; KALINOVSKIY, P. Improvements in the design of the U2-AP-3 automobile trailer hitch. Avt.transp.34 n0-5:27-28 KY '56. (HraA 9:9) l.Irbitekly saved avtopritsepoy. (Automobiles--Trailers)  KALINOVSKIY. P.I., Inzhener. Irrigation in the Yangtze Bmsin in the Chinese Peeplo's ReImblic. Gidr. i mel. 8 no.12:37-48 D156. (MIRA 10:1) (Yangtze Valley--Irrigation)  HALIMOVSKIY. Pavel Petrovich; FZDOTOV, D.D. [Insanity described as it appears to the practicing physician] Pomeshatel'stvo, opisannoe tak, kak ono iavliaetsia vrackra v praktike. Mosk7a. Medgiz, 1960. 214 p. (MIRA 13:8) (MENTAL  mA 1,:tl(JV-)F, 1y , i . Yu . , ; I z ~.. inr-.rf,,az3inLr w e :-- i - ~ ',-1 ~-,' `rr- ar 11 . I I i ., .-I - - . . . .r Xb.sninGL3tr(,,n,"t- t.,Iy _ r., , ,.. I. ~ -;. -~ L" : ~ ; '  MALTNCVS~lf ti., WOTO'l ar"A P-a- G,.olcwtctl traLaing of soldiers L-rmi =dern condition-s. 0*~~ V00-ruz . n-~.'-2.,3-13 Je 165. (,'-,.IRA 18: 10) . , 1W,!l h6 I ., -,,jr, ." .4 -~ -~ f~ .0 '~ IYYIJ za .   KALINOVSKIY, R.B. The use of glass pipes for plumbing. Ag '57. - (Pipe, Glass) Vod.1 san.tekh. no.8'16-17 (MIRA 10:11) (Plumbing)  MALINOVSKIY, R.B. - Quantity of additional feed water for heating systems. Tod. i san. tekh. no.10:8-9 0 158. (MIRA 11-10) (Heating from central stations)  KAGAN, D.F., kand. tekhn.nauk; VANYAKIN, DX.p kand. tekhn. nauk; LOBACHEV, P.V., kand. tekhn. nauk; YEKHLAKOV, S.V., inzh.; PAVIA)V, L.D., inzh.; IUZIN, M.Ya., inzh.; ARD.MEVA, I.R., inzh.; SWAKOVAp G.D., inzh. Prinimali uchastiye: SM7MIKOV, M.M.,, kand. tekbn. nauk; GEFDRIG, A.K., kand. tekbn. nauk; MALINOVSKIY R B inzh.; STRAS11NYKH, V.P., red. izd-va; ICAEU-10V, D.Ya., tekhn. red. (Instructions for designing,, installing, operating, and repairimg interior water supply systems using vinyl plastic pipes] Uk-azaniia po proektirovaniiuj montazhu,, ekspluatatsii i reinontu vnutrennM vodoprovodov iz viniplastovykh trub. MoBkva, Gos. izd-vo lit-ry po stroit., arkhit. i stroit. ma- terialam, 1961. 91 p. (MIRA 15:2) 1. Akademiya stroitellstva i arkhitektury SSSR. Institut sa- nitarnoy tekhniki. 2. Ilauchno-issledovatellskiy institut sa- nitarnoy tekhniki Akademii stroitel'stva i arkhitektury SSSR (for Kagan, Vanyakin# Lobachev, Yek1dakov, Pavlovs Ruzin, Andreyeva, Shmakova). 3. Loningradskiy nauohno-iss'ledovatellskiy institut Akademii kommunallnogo khozyaystva im. K.D.Pamfilova (for Sapozhnikov). 4. Vaesoyuzn)7 nauchno-isoledovatolokiy in- stitut gidrotekhnicheskikh i sanitarno-tokhnicheskikh rabot (for Gefding). 5. Institut po proyektirovaniYu zhilishchno- grazhdanskogo stroitell stva v Moskve (for Malinovskiy). (Water pi_ 16  MALIMVSKIY. R.B. Universal insertion piece for connecting large units of sanitary p . systems in buildings. Vod. i san. takh. no.3:24,25 161., (Plumbing) (MIRA 14: 7)  ACC NR: AP7003469 SOURCE CODE;- UR/9041/67/000/001/0026/0036 AUTHOR: Malinovskiy, R. (Minister of defense SSSR, Marshal of the Soviet Union) ORG: none TITLE: Marshal Malinovskiy on the Soviet Armed Forces SOURCE: Kommunist, no. 1, 1967, 26-36 TOPIC TAGS: military operation, military training ABSTRACT: Marshal Malinovskiydescribing the Soviet Armed Forces past and present, says that the Soviet Union has equipped its armed forces with new and highly effective antiaircraft-rocket systems and interceptors. Anti- aircraft units are able to reliably defend the Soviet Union against air attack. Military-aviation detachments and troops are equipped with supersonic aircraft with nuclear weapons and new rocket armament. The main type of weapon is said to have become the various classes of air- borne air-to-ground and air-to-air rockets. The outcome of any struggle will to a great extent be determined by the ability of the population and armed forces to withstand the most extreme conditions of a nuclear- missile war. The Soviet armed forces have reliable allies in the Warsaw Pact members. SUB CODE. 151 SUBM DATE: none/ ATD PRESS: 5112 Card 1/1 1- -  ACC NRt AN7006010 SOURCE CODE: UR/9012/67/000/054/0002/0002 AUTHOR: Malinovskiy, R. (Marshal of Soviet Union) i ORG: none TITLE:, Marshal R. Halinovskiy on the Soviet Armed Forces SOURCE: Pravda, no. 54, 23 Feb 67, p. 2, col. 1-4 TOPIC TAGS: military policy, mflitary status ABSTRACT: Marshal Malinovskiy describes the improvements that have been made in the Soviet armed forces,-criticizes imperialistic policies, and states: that Soviet antiaircraft defenses assure the reliable destruction of any aircraft and many rockets of the enemy.. [NC] SUB CODE: 15/ SUBM DATE: none/ ATD PRESS: 5115 Card  1-21-2 19 J-- / /V C v, -Y (:1 USSR /themical Technology. Chemical Products 1-12 and Their Application Silicates. Glass. Ceramics. Binders. Abs Jour: Referat Zhur - Khimiya, No 9, 1957, 1-1656 Author : Malinovskly R. K. Title : Heat Generation of Cement and the Procesb of Steaming of Concrete Orig Pub: Tr. Soveshchaniya po khimii tsementa. M., Prom- stroyizdat, 1956, 381-393 Abstract: It is pointed out that there is no substantiation of the notion that it is impossible to attain on steaming a concrete (C) having at the age of 28 days the same or greater strength than that Card 1/5  USSR /themical Technology. Chemical Products 1-12 and Their Application Silicates. Glass. Ceramics. Binders. Abs Jour: Referat Zhur - Khimiya, No 9, 1957, 31656 of an air-hardened concrete of the same age. In the case of most cements the steaming of C is effective only after a preliminary aging for 6 hours, the beneficial effect of which is due to a discontinuity, in time, between the period of extensive heat generation and the supplying of heat from cutside. It was found that there exists a correlation between maximum temperature of setting and the value of the ratio of strength of steamed one-day old concrete to strength of naturally hardened concrete to strength of naturally hardened Card 2/5  USSR /themical Technology. Chemical Products 1-12 and Their Application Silicates. Glass. Ceramics. Binders. Abs Jour: Referat Zhur - Khimiya, No 9, 1957, 31656 concrete of the same age. For every cement there exists an optimal set of conditions of the treat- ment with water and heat, and in particular an optimal temperature of steaming. The exceeding of the optimal temperature ma4 increase the strength of C at the age of 2 hours but it us- ually results in lower strength at the age of 28 days. For different cements the optimal temperature varies within the limits of 60-95'. The sum of optimal temperature of steaming and heat generation of cement is a constant quantity and is equal to 115 � 10". There exists a definite Card 3/5  USSR /themical Technology. Chemical Products 1-12 and Their Application Silicates. Glass. Ceramics. Binders. Abs Jour: Referat Zhur - Khimiya, No 9, 1957, 31656 correlation between heat-generation curve and optimal conditions of steaming. Addition of 1-2% of water glass increases the strength of concrete, at the age of 1 and 28 days, by 10-20%. Addition of plasticizer does not cause lowering of strength of C. Second vibratory treatment after the lapse of 2-3 hours increases the strength of C by 20-30%. With an expendi- ture of cement exceeding 300 kg./mJ it Is ad- vantageous to lower the temperature of steaming by 5-10'. It is noted that increase in strength of steamed C takes place at a slower rate during the period between the first and second, and Card 4/5  USSR /themical Technology. Chemical Products 1-12 and Their Application Silicates. Glass. Ceramics. Binders. Abs Jour: Referat Zhur - Khimiya, No 9, 1957, 31656 even between the first and third day following the steaming. It is advantageous to remove air from the chambers before steaming is started, which can be done by providing a syphon with a water seal at the bottom part of the chamber. Card 5/5  T "MM-1 ACC'.NRi AP.6010303 SOURCE CODE: UR/0136/i6tOOO/903/006510069 AUTHOR:~ HalLnov skL7, g: I :R. GRG:. none TITLEt,,Ef-fect-.o castinj. temperature on the ci,ystallization of or-imary IntermetalTrc -compound SOURCE: -.,Tsvetnyye,*me tally,.. n0.,-3, 1966, 63a-68 TO P I C~ TAGS: caitLng.-tempera Iture, aluminum allsy, cIhromium con. ta i a L ng. :.alloyi vanadium:containLng.alldy, zir.conium, Co2taLnin&:all6yj niobium contiLnLrig' Aalloyi, -molybdenum- containing alloy.'. alloy,casting, alloy cr y st a- I I L _ia; L on ~ABStRACT: ~Since aw- luminum alloy e quantity of n a a contain a"consLd-erabl refractory interme tal lie compounds such~ as TLA13# elements. which forms NA13, _VAl6v VAl 1-* ZrAl - and HoA13 .:.the effect of CrA 7 :NbA13, 3 cas tLng,, temperature.. on the prLmary-'crystalll atLbn of, these compoundW ~has:_;been -studied* Sma 11, 120-g alloy, ingotg ted from AVOOO wa~ie me I 'alulni inuImg mas .-t e-rallroys,made -.of hLgh-purityl(etals, and potassium flu&~rozLrconatef~jThe ingots. were cast at temperatures 3U-5U to 0-500C hL&her. han the respeictive.lLquLdus was temperatures. It found thai~_ the presence of.solid particles LaconsLderable quantity Card 1/2 6,69.715:621.74  L 22643-66 ACC ..NRi AIP6010303. f a.c.i I i,ta teo the :crystallizatioa~~f intermetallic compaunds. At MSU~ temperatures, these.-, particles are, deactivated, i4e. dissolved in liquid metal. _ln t,~ae, Al-lZCr .:alloy the complete melting of CrA17 compound occurs at. 1005C. Therefore, the, number and. the size of CrALT .cr .y9 ta.i9,:a Ia.11.9y, ca,.st..a,t 10.50C WPA mu'gh. smal ler than Irralloy chroW "~4em6ned In no equilibrium cas t- At' 800C.':: Tlid...res It,- of the Lum -%f the , n solid solutt6ni r du Ing'a igher hardne alloy. A similar Sol p o. c. ;.'Ieffect--:wa's:observ6d.. in llloys.:.~~ in ot er systems the-complete, is ~-i a ture hL &her than elting,of utermeta lie compounds occurs at a temper ;d in :the e exper m, , 13 e el M 8 _-1250,C~: t.he-max1mism.use s I ent Ust d etal do not eastly.~~orm_ the .64Aid a-olution with- aluminum. In the alloys of these sys tems--the 1acrease. o creases the size of the cast ng temperature. in crys .ta-la~.-of Ante .rm.e,tallic com bund. Chromium and to some extent p v.a,na di Iu4, dissolve readili.,in Akbase solid -solution. The respective _.maxi6UM46lubility of N -and Cf7ta Al-bas lid. wollution, is 0.37:and 'J%aki -solubility: of. Zr Nb ~Ia On d . Ho v2s 0. 2 2 -0. 2 8 a ad 0.85%.:JN m"M at o f la dl~'i U~ o - :17,-0. 2 4 X For-.wl-1% ci-- 1% _-, Z r. 'a I loy a ca I tLng a Cu -re j 7f 0 So recommended: it reduces size of CrA17 temp er C Is the -comp Ip 41ndo-*. siren 11 sikens.the solid solution, and contributes to the~uni-. f ormity pt'..alloy,,.-structure*~, Orig#:arto, has I 4_1 igures and 2 tables. SUB CODE: 11, -13/. SUBM DATEv none- ATD PRESSt 2 2 :7  A(0); 4(0)1 2(20) ruma i B= zxFLorrATxoN 30V/:~210 Atamnaya onerglya v avlatall I raket'lay t8khniks; sbaMik zt4t&Y rgy In Aviation and Rocket Engineering; Collection (Atomic In ) Moscow. Voyon. lzd-vo it-Ta obor. ESSR, 1959. 500 p. : l t IO l d of copies printe 1auchno-populyarnaye. blbllotaka) No TsUr i s S $ i not given. Ed. - Compileri F.T. Astashankov, Engineer, Lt. -Coa; Zd.& T&.PL Laders Tech. Ed. a A.R. Gavrilova. FURPOSts This book is Intended for officers of the 3avlot Armed C- mszb re of DOSAAP, and the general reader Interested In PQross . the go of :taalo ~Wrgy And in the development of avlat&oo and ,.,, rocket ... itarlg. CDVZRAatt This collottlan of 46 articles. compiled by 28 Soviet scientists and based chiefly on non-Soviet materials, discusses warla aspects of the use of &tmic ongergy In rocketry and av " = r Ths book survey& the development or atmla and tboruonuc Uan. weapons and weapon carriers, lays down the principles or anti- Atomic defenses and evaluates the 11911cation of nuclear eagerZ7 In aviation and rocketry. Fuel and construction materials. as 0011 As actual physical and technological processes InvOlvjWd, are Fundamentals Of Atomic warfare and combat tac- treated briefly. tics are discussed at &me length. The book is divided into four Part&, Of which the last consists chiefly of anti-Weatern props- 9mnd4- Section r 12 devoted to nuclear weapons and their us* IM Aviation. 3OCtIOn 11 is on anti-4tonle defense. especially no darensi AM decontamination Of airfields and aircraft, and do- feces against radistim. Section M la-on the use Of =clear anergy, in modern aricraft and rocket technology and flight tech- 1-VAN, Including&"* SPOCul&tIQnS an space travel and on the energy of the future. There are 126 figures and 35 non-Sovist reforences (ams in Russian Translation). TABLE OF CORTMMi PArf4nOv, V. From Conventlanal Aircraft Puel to Nuclear Fuel 428 Sedov, A. lCandidatoof Technical $alone**. Engineer-Lt. Colonell. Tratooff-an From Nuclear Radiation In Atomic Aircraft 43T N Iftainser-Lt. Colonel). Employment of ftadlo-coa~ Xl!P r 1. IA - j , , j ti~oll rcraft to Testing Atomic and Thermonuclear Weapons 451 IT. ARXXD FORCES OF TIM USSR - TIM TRUE GUA ZAN OF 12ACIFUL LAWR Speech by Soviet Marshal R.Ta. Ksl~ at Me XXX Congroas - - TSMUTrairTn of the Communist Party of im 463 Bpeoch by Comrade D.P. Ustinov, the DepuAy Chairman Of the Council of It1nisters of ttF~, .. he XXX Congress Of the communist Party or the Soviet Union 472 Speech by Conrods I.T. Kurohatov at the XXX Congress of the communist Party of the Soviet Union 481 CAN 8/ 9 Replies by the Commander In Chler of the Soviet Apned Tomes Marshal of Aviation K.A. VorshInIn to 'Pravda' Correspondent* Concerning Certain WarlIk7o'beil-aratlons Ride by Same Axsrlc~. British and West Oarman General& and Statesman %M Literature Used for the Compilation of This Collection of Articles %90 AVAILABINs Library of Congress MAS card 9'(9 6_17 S9  MALINOVSKIY, Hadion -- Takovlevich, Marshal Sovetskogo Soyuza; SHA,TILOF - . - P. mI.,--paii~vnik, red.; MURASHOVA, L.A., tekhn. red. (Guard the peace vigilantly]Bditellno atoiat' na strazhe mira. Moskva, Voenizdat, 1962. 68 p. (MIRA 16:1) (Russia-Military policy)  YALINGVSKIY9 R.Ya,,, marshal Sovetskogo Soyuza Present-day objectives of the education of Soviet military personnel. Komm.Vooruzh.Sil 2 nooll:3-15 Je 162, (MIRA 15:5) (Russia-Armed forces-Political activity) (Mlitary education)  L 8109-66 U~1_6666165160 0 0110 0136 SOURCE:CODE: ~c C _N~ T5022182 AUTAOR. novaW, R, Ya. (Marshal of the. So det Union, Minister of defense SSSR) Mall 151 77"i ~jf ORG: try of Defense SSSR (Ministerstvo Oborony SSSR) minis TITLE: The SovieVarifidd forces SOU IRi CE '. :~ Vp'yedinomstroyu. (rn a united system). Moscow Voyeaizd at M-va Obor. SSAIA, 1965,: iiO-136 HIS X lbrc6 organization* antiaircraft defense, naval force organization, air OPIC TAGS: artniid e inili so I/Soviet: armed forces, Soviet army, Soviet navy, Soviet fore organization, tary~ er nne air: force Aj3STRACT: -The author traces the, history of the Soviet artned forces, from individual, poorly armed, p6drirtrained units of the Red Guard, fokmed-f6r the defense of the Revolution, to a regular army. Citing Lenin and: the Council of People Is Commissarsi -Ahe'article notes that the need for the creatiow of Uie Red Army Arose in. the face of attac -19 ksladinchedin 118 firstby Germany, theaby-the troopsand puppets of the USA rest 1, England,, Fraacdj and Japanj and the::o1vil warwhich iltod. Reorganizations in the forces and this, role, of the Communist Party, the Soviet government. and the Soviet pdople it their armed forces is noted g g-ressive, acts of the imperialists against the Sovi stlPport Of A Union are recounted,' including the provocationii'of the:White-Chinese and White-Guard -bands (inatigateo b~,: UB-~Britlsh: Imperialistit) lit 1929 and the Japanese, in 1938-39 When fascist 1/2 Card 'J:  L 81094A, ACC NR: AT5022182 -Germaay- attacked. Poland in 19.39, the Soviet Union- liberated the Ukrainian. and Belorussian peoples. lathe landsvccupled by. feadal:Pbland In 192.0, and when the~profasclst Finnish government declared a state of war with the Soviet Union, thq Red Army'attacked -and defeated. the Finns.~ Fascist. Gdrma .ny's attack on.the -Soviet Union started the most difficult and most fer by, the countr That war cussed ine uding the first defeat ocious~,war-.everlb.ukht y Is dis 1 ever infficted on the ~Germans in 1941 near Moscow, the great Stalingrad battle, and events leading, up to th6.:de`feat-6f hpafi.. 'The -reasons. -for Soviet victories, ate discussed. Theroleof fraternal peoples~ in this- war, - including those of Poland, Czechoslovakia, Yugoslavia, Rum i d. Th pre ~nt: for es t el equipment, and s note ep, s role.of the Soviet armed c , h r. trainimg,* and various units are discussed'- including a) the rocket forces, b) anti- aircrat* , f the land army, d) the air de ense-, intended for defense a ainst a nuclear attac c) g. force and~e) the navy.,-.-The recent. developments in science and technology as applied to the armed forces iie- mentioned. The Soviet;, armed forces are entrusted with the task of guarding J :1 the.. achievements of Communism against any and all threats. There are still-reactionary forces in-the worldi headed by-American imper14lism.'which latt_-1v have increased their Aanger6 us''.Act6 of provocation. USA imperialists are, expandin Ithe undeclared war against 9 the. do' e':of South Vietdaing orgMAz'mg*attack~-agaimt_La6s'gi(i:Ca~Libodiiii,committingticts of . P, P, undiswulsed aggiesii6al I against the Democratic Republic of Vietriami: and pushing the -militarization: ofwdst.. Germany, attempting (under the guise. of creating amultilateral nuclear force foil NATO) to give -the Bonn revenge-seekers. access, to nuclear weapons. . It is concluded f that 411 -the plans of- the Imperialists are'. doomed to, failure, as evidenced by the recent peoples of all maneuvers ot the. armed forces of Warsaw Pact nations, and the, solidarity of the :the socialist, - untries 0 ri g. art., h.asi--I . gur - 4 cc fl e M cow: MA1=,65: arl Wt. BM DATE: C  L 38385-66 AC4; NN, 'AN019'761 SOURCE CODE: uR/goo8/66/000/2 h1l.- AUTHOR: Yao(Khrebal of Soviet U010a) ORO: none TITLE: Speech of Marehal R. Ya, Malinovskiy to graduates of USSR military academies SOURCE- 'Krasnaya zvezda, 02 jul 66, p. 2, col. 1-5 -61 TOPIC TAGS: military training, military personnels strategic rocket ABSTRACT: Addressing the grauduating classes of the Soviet military academies, Marshal.R. Ya. Malinovskiy said, among other things, that the Soviet Armed Forces are acquiring new commanders, political workers, military engineers, and other specialists In the persons of the graduatee These graduates include officers from the armies of the socialist countries. A distinguishing characteristic of this year's class Is that graduates of higher military command schools have also received a solid engineering and technical education, while graduates of engineering departments have acquired the necessary operational-tactic4l Wf- V,  L 38385-66 ACC NRs AN6ol9761 and command experience. Because of the world situation, the USSR must keep Its strategic rockets In readiness and its army and fleet in condition to defend the homeland and the interests of the fraternall socialist countries. Further development of the defense Industry and improvement of rocketry and nuclear weapons and of other types of equipment are therefore essential. However excellent the knowledge acquired in the higher military schools, the young officer will some- times have to face far more complex tasks In his practical work. Constant study 13 required to keep abreast of the continuous and swift development of military science. A young officer should unashamedly consult with experienced men, including the sergeants- specialists, when difficulties arise in the beginning of his career. His authority will not suffer from this, and he will learn his job much faster. Young officers should maintain close contac-ti-, with their academies and schools, and they, in turn, should follow closely the activities of their graduates and help them as need be. Military schools are now staffed by outstanding men, mostly veterans, many of whom hold academic rank and degrees. They are not only teachers, but also living examples of combat tradition. The Directives of the 2/3  L 38385-66 ACC NRI AN-5019761 XXIII Congress of the CPSU calling for Improvements in specialized training in higher schools apply in full measure to the military schools. The curricula must be Improved, Independent work stressed and new more effective teaching methods adopted. (Oci SUB CODE: 05ol9/ SUBM DATE: none/ -10010mP Isl. Card 3/3,//,-  ~,rV.i 7-66 [-,WT(d)Z'EWTCmj/E~jLPLh_) SOURCE CODE: UFi/9008/66/000/182/0002/0003 _ACC NRs ANG025978 AUTHOR: Malinovskiy, R. Ya. (Marshal of the Soviet Union, Defense Minister of SSSR) Iq 0 ,ORG: none .TITLE: New frontiers for improving the training of military personnel at higher military schools :SOTJRCE: Krasnaya zvezda, 07 Aug 66, p. 2, col. 1-7, p. 3, col. 1-7 TOPIC TAGS: military training, training procedure, military personnel ABSTRACT: The author discusses problems concerning recent trends in improving the training of military personnel at Soviet higher military training institutions. ,These institutions are meeting the requirements of the troops relative to the present !needs of tne Soviet armed forces. In the reorganization process, the higher military training institutions have done much in the way of improv-ing the training programs. Great work has been performed in bringing out new textbooks and training aids and in ,training by using modern technical means. Ideological and political training of the CardI  ACC NR., AN6025978 student officers and cadets is of the greatest importance at all higher military training institutions regardless of their special subjects. The teachers must give, the student more practical advice on how to implement the knowledge obtained in the struggle for a high state of combat readiness of units and ships, The military train- ing institutions must pay great attention in selecting the most worthy persons from servicemen and the young civilians. The regimental engineer must have good knowledge of engines, radio and electronic equipment, and all other technical equip- ment used by an air-force regiment. He must be a broad specialist. A military engineer must also have certain operational and tactical knowledge. The tasks of the higher military training institutions consist not only in giving the student a certain amoung of knowledge and experience, but also of teaching him to think creatively and to apply the knowledge obtained. Among the problems involving the development of 'the higher military institutions, is that of teachers. There are remarkable pro- fessors and teachers at the Soviet military academies and higher military schools. Many of them have passed through the school of war. Another major task facing the higher military training institutions is that of further improvement of training pro- grams, the raising of their scientific standards, and the perfection of methods of organizing the work of training and education. In this connection, attention must be Card 2/3  ACC NRs AN6025978 !.paid to the research conducted by the military academies and other higher military training institutions. [NT SUB CODE: 15 SUBM DATE: none/  !"k T- TNICAr 1* IIALINOVSKIY. S.; LAYAREVSKIY, L. I., rec &ktor. [Assembling hoisting and tra portation equipant] Rontazh poddemno-transportnogo oborudovaniia. Moskval zd-vo Ministerstva sel'skogo khoziaistva I zagotovok SSSR, 1953.7' P. [Microfilm] (MM 7:8) (Hoisting machiner7) (Conve7ing machiner-)  :11. 'tr MALINOVSKIY, S.S. New match-stick sorter. Der.prom. 10 no;3:22-23 Mr 161. (MIRA 14:5) 04atch industry-Equipment and supplies)  MALINOVSKIT, S.T. Participation of students in the protection of nature. Biol. v shkole no. 6:61-62 H-D 160. (MIRA 14:1) 1. Novosibirsicly oblastnoy institut usovershenstvovaniya uchiteley. (Plants, Protection of) (Wildlife, Conservation of) (Student activities)  T I-.;iI-incvsJ-iy, T. 1. "The X-ray- structural investigation of c!-jr-,.:le-~ com-1-o-unds of clivalent cob-,4,'t of t1he type COX22A." Acad -mci USSR. Inst of Crys tall o~-:,raplay. L ,101col,', 1956 (Dissertation for the degree of Candidate in ~hysicomathe- maticp.l Science) K-lizhnaya letopis, N - ~ 1956. :'osco-.-r No 25,  AUTHOR: Malinovskiy, T.I. 70-6-5/12 TITIE: X-ray Structure Analysis of Crystals of Uobalt Dipara- toluidine Dichloride (Rentgenostrukturnoye issledovaniye diparatoluidin-dikhlorida kobal'ta) PERIODICAL: Kristallografiya, 1957, Vol.2, vo.6, pp. 234 - '~41 (USSR) ABSTRACT: A number of compounds of the type CoX 22A were examined and found to be structurally similar. They were CaC12 diparatolui- diar-1 C012 diparatoluidine, CoC12 diparaiodoaniline and Co12 diparaaniline. The first of these was selected for complete analysis because the Co atom lay in a special position on the twofold axis. Analysis of crystals confirmed the formula 0 COC12' 2H2.N.C6H4CH 3' Crystals were biaxial with 2V almot 90 and refractive indices (for wl~ite light) l.?Ol, 1.652 and 1.610. For X-ray examination the crystals were enclosed in cellophane bags. The cell dimensions arS a=12.30 � 0.05, b=4.59 + 0.01, c=26. 10 + 0. 10 KX and 0 = 93 4~~)'. dobs.~ 1.483, Z=4 and d calc.~ 1.55. Lixtinctions indicated the sDace groups 12/a or Uardl/3 Ia. Retigraph photographs of the five layers hOl, h1l... h41  ,?O-E)-5/12 x-ray Structure Analysis of Crystals of Cobalt Dipa-ratoluidine Dichloride. were taken with Mo radiation -ivinP-' 556 reflect-ons JLn all. , muit`ple f'lm tech- Intensities were estimated vluually usiiiK I niques and standard scales. The Patterson proiecti-Dn oa to 010 was calculated and showed the apT.,roximate positions of all atoms because of the presence of the heavy Go atoms on the centres of symmetry. The xyO and Oyz projections were also calculated a,ad also using all the reflections, P(xOz). (The Ul-Ul peaks in the latter made the group I 2/a where tLe Cl atoms are related by a diad axis the more likely.) Fron these the following atomic parameters were derived (x, y, z): Co (0.250, 0.384, 0.000); Cl (0-386, 0.116, 0.074); N (0.184, 0.616, 0.054); C1 (0.170, 0.4?0, 0.103); C (0.260) 0.419, 0.133); C (0.205, 0.1~u6, 0-1~5); 2 3 C4 (0.125, O~066, 0.180); C5 (0.042, 0.116, 0.135); C6 (0.0?31 0.320, 0.100); C7 (0-095, 0.155, 0.220). When the correspondinE structure factors Tere calculated from these parameters a reiiability factor Df 0.22 (for ail reflections) was achievecl. ~Graphs oi the Nalues are kLard2(5 TLe structure is molecular (irle Co per zolecule) two zoI~ziles  't'0-6-5/12 IL-ray structure Analysis of Crystals of Cobalt Diparatoluidine Dichloride. of Daratoluidine being att~-ched to each Co atom, throjw-h ii links so chat the molecule has a form recaiiing a maple seea. The two N and two Cl atoms form an almost r8gular tetrahedron round the Co. The Co - N - C 1 angles are 105 The CH 3 - ErouDs' the N atoms and the Co atom lie almost in a plane, with the benzene rings directed back to the same side of the Co atom as the Cl atoms. The Co-Cl and Co-N distances are 2.26 and 1.95 KX1 respectively. The carbon positions are estLmated to an accuracy of 0.03 KX- Eller's work on the chiorhydrate of Daratoiuidine (Bull.Soc. Franc.Miner.CrystalloEra~hy. 78, 2/5, 1955) is supported as against chat of Wyart C.R.Acad.Sci.Paris, 200, 18621 1935) on paratoluidine which is thought to be erroneous. Acknowledgments to Prof. G.B.Bokiy, Prof.A.V.Ablov and Dr. M.A. Pore-y-Koshits. There are 5 figures, 2 tables and 8 references, 5 of which are Slavic. ASSOCIATION: Moldavian Branch of the Ac.Sc. USSR. (Moldavskiy Filial All SSSR) SUBMITTED: January 12, 1957 AVAILABLE: Library of uongress. uard 3/3  AUTHOR: Malinovskiyp T.I. 70-3-3-21/36 TITLE: An X-ray Structural Investigation of Cobalt Diparatoluidine Di-iodide (Rentgenostrukturnoye issledovaniye diparatoluidin- diiodida kobal'ta) PERIODICAL: Kristallografiya, 1958, Vol 3, Nr 3, PP 364 - 366 (USSR). ABSTRACT: Crystals of Co12'2NH2C6",C". were obtained by e-Tap- orating a solution of CoI 2 and paratoluidine in ethanol. Dimensions of the unit cell, uniquely determined to be of space group F&M = Cl 2~ , are a=16.75 � 0.06, b = 5.08 + 0.01 and c = 41.2 + 0.1 A . d obs. = 2.02 g/cc . From intensities measured on a retigraph a three-dimensional Patterson distri- bution was calculated giving the co-ordinates of the I atoms as x = 0.047, y = 0.292 and z = 0.048. The complete structure was then solved by the heavy atom technique. The compound is molecular with a Co-I distance of 2.63 + 0.03 A and 1-1 distance of 4.36 + 0.03 A . The Co atom i'9 tetra- hedrally surrounded. The Ftructure of the corresponding Cardl/2 chloride appears similar but has the space group  ?0-3-3-21/36 An X-ray Structural Inve-stigation of Cobalt Diparatolui-6-ine Di-iod-i-je 12/a C6 = 2h Acknowledgments to Prof. G.B. Bokiy, Prof. A-V. Ablov and M.A. Pora~~Koshits. There are I figure and 2 Soviet references. ASSOCIATION: Mcldavakiy filial kN SSSR (Moldavian Branch of the Ac.Sc. USSR) SUBMITTED: July 10, 1957 Card 2/2  5(2,3) AUTHORS: .,blo,/, A. V., llali,.ov~,ki,,, T T 3'~V, 2o-123-4-28, '53 TITLE: The Stri,cture of t-%o ;addition of to Zinc Halides (Stroyeniye pr,)du',:tav -,risoyedineni--a ar,-.atiches- kikh a-minov k jalo,eni(l-,~ t~-inkz) PERIODICAL: Doklady .1'1kade.-.iii nauk S33R, 1~56, Vol 123, lir pp 677 - 651C (7TS~3R) A:33TRACT: Two closely connecte-i theories try to exilain the e,fect of the ligands on thr~ ~)e`~aviaur of the d-olectro-.s -)f t;Ie central atoms of ele--ients of tho middle of the first Fr.:at period of Mendeleyev's systen: 1. This t;:eory is also called the tneory of the crys'alline field. The aut'.ors mortion the criticism foun,1 in p0hlications (Rel's 1-5)". 11: ThiL the-,ry de7!ands a p,-Lrtl,, cov;,lent cl~-ir-nter -)f t~,.p bonO.9 in the romulexes (Rofs (;,'I ). tt:e (10M:,our~,!n of zinc with %romatic Itlaill(jIft JILI(I tf,) 'if) r)(,t;0iodr,n1 ntriicturv. Tiif: :'iiiul con- clusions were not ij.-oved ~y bon,)., of bivtiert co,.,nlt (No'a The explai.,ation of the ,vobl,~~m mentioned in t-e title w:is Card*1/3 of si)ecial interest. F~)r this ~-,tr one t-.e str ctitre nf t.,-ie  The Str!!cture of the A~-Iition c~7 A-mines to Zinc Halides additit.n :ro-1, ct of rr,ra-tolui(lire to ~,inc chl -r~ de C H i n,i en t i, -i i t P d . T 1c ry,_ I s o f 2';>P_~ this coin,-Ioun~ were invecti;,.,tterl hy x-r~iys, bi -leariv of a pycnometer, a, d ',j-- r-_cJio;-orio.-.1etric pictur S. Based on these invest ion s 2--dimen.-ional F2 I- lines were hk 1 plotted ",)r the zero, fir.-jt and layer-'Linu-.. The maxiriu I and 2 were clearly or. the ~rojertion: they .)ere i identified -is t-,.(, vector.9p,-.1-cl and Cl-Cl. T~.orefrom the distance Zn-CI 2.~5 + 0.05 1, was detvrmined. Thic tends to !-.how pre,!oj'.i:.:!' t1.; C.)V_.._'ert bindi :)f t%e ce;~tral atom with the as ic the case in tl~- Cocl 2' 2p toluidine (Ref 11). 3everal gifni'- ir charuct,ristics caused the authors to t'~iat t'.e 't~ 'ition :)rof~!_ts of parri-toluirlino or; zinc chl )rile t3 'Tiell ;ku or. cobalt (111, chl:Dri~e ,rc I'sost ruct-i- I ( Fi - 2 ~ . T!-~erefrom it is ~on- I! I ~ed th-A the strt-ct-~,..-e Df Z.-iCl,.:-'p.-toluiA_'-ic is molecu1ar. Tne zinc nto-I is ir t~'e of -In tct:-,,~edron two points of whi2~. ---e occi!pjed, !,,y C1 atons '~nd t-uo others C,-rd 2/13 by IT, -.to-.,. Th-.,,!3, thc. co._-rlin- tion. numher of ~,_`nc in  The Str,.-cture of the Addition ProOuctq of .ro-.at-4c 2o- 1-'-,'-26j 53 Amines to Zinc Haiides of the type ZnCl 2' 2A is not cz-.;~-n"t~d lue to a s~;stitution of ammonia bv an aromatic .-iinc; this is -11su tne in t,..2 correr,pondin'r, compourds of I;iv-lent co~,,rtlt. Ya. K. Syr'Kin, Correripandinj -,r Metriber, Acale~-y of Scicn(,es, USSR, trok )-Irt in the discvssion -of the re,:111Ln Thei-e --ir-e 2 fit;ui-ep. lir.h ,Lre Soviet. and 12 referencen, 5 of whi ASSOC7-ATIOT.': I:iolrlavslr-iy fili-il Al,:ademii -Loll, 339R (M-)Idavian Br;-.,ich of the Academy of Sciez.ces IU s, F, R ) PRESENTED: June 26, 1958, by 1. 1. Chernyayev, 1'1(,Aeriiiician SUBMITTED: June 23, 1916 Card 3/3  5'(4) SOV/76-4-.2-24/40 AUTHORS: Ablov, A. V., Dr-dyu, V. 1. TITLE: The Structure of Mixed Heteropoly Acids (Stroyeniye smeshan- nykh geteropolikislot) PERIODICAL: Zhurnal neorganichegkoy khimii, 1959, Vol 4, Nr 2, PP 397-401 (USSR) ABSTRACT: The mixed phosphor-6-molybdenum-6-tungsten heteropoly acid was investigated. The roentgenograms of the non-mixed and the mixed heteropoly acid were compared and it was found that the intensity of the lines of the mixed heteropoly acid is weaker than that of the lines of the non-mixed acid. The structure of the anions in the mixed heteropoly acid is analogous to the structure of the anions of the non-mixed acid. The 2-n-, tensity of the lines of the mixed heteropoly acid found by calculation corresponds to that found by experiment8. The geometrical position of the atoms of molybdenum and t,~ngsten in the complex anion IPM06W12-6040j3- is equivalent. The dried mixed heteropoly acid is a pentahydrate; as is the non- Card 1/3 mixed heteropoly acid. The cesium salts of several mixed  The Structure of Mixed Heteropoly A--ids SOV/78-4-2-24/40 heteropoly a,--.ids were produced and their zoentgenogTamB taken: Ca H iW 0 .0-2H 0 11-78+().02 'Cell. parameex-1 3 IS 12 401 2 Os 3H LS'Mo6W60401 0-2H 20 11-72tO.O4 C -_ 3 [~MOJ6040!j .0--2H2 011.81+0.02 CS 3H2EPM01OV2 0 401 .0-2H2011.72+0-05 A, The cesium salts of the mixed heteropoly acids are more stable than their initial acids. In the formulas three atoms of cesium correspond to I central atom. The following formulas were suggested for the mixed tungsten-molybdeniLim-phosDhor-.c acids and the vanadium-molybdenum-phosphoric -.aids: [AMO W 0 - and FAMO V 0 - An attempt cf n 12-n 401,' - n 12-n 401m . producing heteropoly acids containing tungsten, molybderrum, aird vanadium (tetrahetc-ropoly acids) did not prove suc2essfu. because a strong reaction takes place during the produscion. There are 4 figures, 1 table, and 15 references.. 8 of wh-,ch are Soviet. Card 2/3  The Structure of Mixed Heteropoly Acids SOY/78-4-2-24/40 ASSOCIATION: Moldavskiy filial Akademii nauk SSSR (MoldavianBranch of the Academy of Sciences USSR) SUBMITTED: December 4, 1957 Pard 3/3  ~Zu AUTHORS- Kiosse, G.A., Malinovskiy, T.I. 32612 S/137/61/000/01i/o68/123 Ao6O/AlOl TITLE- X-ray structure investigation of alloys from the system Tn-Sb-Te PERIODICAL: Referativnyy zhurnal, Metallurgiya, no. 11, 1961, 23-24, abstract 1lZhl42. ('Izv. Mnld. fil. AN SSSR", 1960, No 3(69), 3 - 9)(Moldavian resume) TEXT- Alloys of sections InSb-In2Te3 and InSb-InTe of the system In-Sb-Te were studied by the method of X-ray analysis. The smelting of In, Sb, and Te (all with purity-99.99%) was carried out in evacuated quartz am- poules at 720 - 7500C with subsequent slow cooling. It was established that in the alloys of the InSb-In2Te3 section a continuous series of solid solutions Is formed. The mutual solubility is possible only within a narrow region in the neighborhood of the original binary compounds. An InTe compound with NaCl structure is formed. In alloys of the InSb-InTe section a compound was dis- covered with the nominal In4SbTe3 formula (alloy InSb'3lnTe) with NaCl Card 1/2  K,612 s/1,17/6i/ooO/011/068/123 X-ray stricture ..... ... Ao6o/AlOl strucT,ure and a = 6.128 t 0.003 ~. There are 22 references. Z, Rogachevskaya [Abstracter's noted Complete translation] Card 2/2  80.06r~ S/020/60/131/06//27/071 B014/BO07 AUTHORS. Malinovskiy, T. I., Samus , !. D., Belov, N. V., Academician TITLE-, The Crystalline Structure of the Cobalt Rhodanopentaramine Nitrate [~O(Nll3)5NCS'J(NO 3)2 1 PERIODICAL: Doklady Akademii nauk SSSR, i0o,, vol, 131, No. 6, pp~~ 1327 - 1329 TEXT: The crystals investigated were bred by the method developed by A, Werner and H. Mueller (Ref. 1). Laue diffraction patterns were made. The crystals were found to belong to the cubic class; the length of the elementary cube is given as 10-73 + 0.02 a. The pyonometrical-ly determined density is 1.766. It Is found that the'Uo atom is in the center of the cubic nucleus, that the Co-, and S atoms are distributed in the rock salt like the Na- and C1 atoms, and that the NH groups are oatahedrally distributed round four Cc atoms. The further structaro of the lattice is described in detail,, the Patterson projection (Fig; 1) being -used for the clarification of the position of individual atoms and atomic group'3,, There are 1 figure and 5 references, 4 of wh1ch are Soviet. ASSOCIATION: Moldavskiy filial Akademii nauk SSSR (Moldavian Branch of the Card 1/2  The Cryst lline Structure of the Cobalt Rhodanopentammine Nitrate O(NH ) NCSj(NO I . - 3 5 3)2 SUBMITTED: 8n- 0 8 -,, S/020/60 131/06/27/071 B014/BOO~ I.cademv of Scienoes~ USSR). Institut kristallografii Akademii nauk zoon kinstItume or Crystailography of the Academy of Scienceeg USSR) January 269 1960 Card 2/2  HALIU,MKIYj, T.I.; S1140NOV, Yu.A. GMtal 13tructure of cadmiun bromide dipyridinate. Dokl. AN SSSR 147 no.l*.96-98 N 162. (MM 15:11) 1. Predstavlono akademikom N.Vl' Belovym. (Cadmium bromide) (Crystallograpby)  SIMONOV, Yu.A.; ABLOV, A.V.; MALINOTISKIY,-T.I. Crysta2line structure of diadetate diaminocopper. Kristallo- grafJJa 8 no.2:270-272 *-Ap 163. (MIRA 1-7:8) 1. Institut fiziki i matematiki AN Mbldavskoy SSR.  MALINOVSYIY, V.A. Selective extrantion of hydrophobic and hydrophobized particles and of certain surface-active substances by foam separation. bokl. AN SSSH 141 no.2:420-423 N 161. (MIRA 14:11) 1. Predstavleno akademikom P.A.Rebinderom. (Extraction (Chemistry)) (Surface-active agents)  1 4 S I Q it u it u it to U 1# to is 06 IF A It U u w 13 it IS If &I it 44 41 d W I OL L 0 f Q It I I V J!L . - - Cam! *0 03ud4u= d ad&% 1311VAniff dUrtag d ZVC fa li V Z 00 I 00 i mg. O TUW .-A. JN 19m. JI - . CA-1 No 4 h i 04 Z . . t e nfutnm al oxiijalitigj i J l" f ut tis ar as or &Aatkm on the kx*m iti taLtu"I due to I -GO 44 d he ~r It of ulkfiscd Mms act the autfaces of the suirl(If pitilicks. The rntalts led to the fOuvrin c -00 00 1 an. g =..n i 1 Wi h C us ons: ( t ) IA or pylitte CU OM oxj&jjua hu M so 00 apprecw* civect an the rtsults of datawn. (2) Sol. sailts litmed by Olwatiact of Cu4n ums. cw Pb PIP-ZO .00 , 'Lnd CU-Zn um CQUIS. pyrite and chakopyr,le are %~rr 00 harniful. (3) OxidAtiou of pyrite its &MtA- 00 13 00 al zoo 04 7 zfill, 0=0 :00 of so* ~00 00 00 00 SL4 4fT&L;.VPUK-1 LITEOITOt CLAWFKATIGN It fe 8 roo 7,, t I 't TM, U An L t it u 0 N 4 or 64 It (1 4 It 3v Or It I, it K ff ft if It a a 0 05 dP 'or CP Q a e 's a is KAO IS 1 1. dill i 000 4 0 0 0 00 0 of 00 0:: - - a a e 0 a a a 0- a 0 0 0 0 4 0 0 0 0 * 0 a, 0  -W 0- w 0- w iir V. r- 9--g- 00 00 ji 004 1 The 1*0 100 00 4 n *0 a 0 004' 4M- V.A. rs"W A(dd. IOU. No. -00 H. &t. er -* 0 004 00 so 06 00=11 654-$L& 94141AUROCAL LATIROWS CLAUVOCATOM u Lf 00000000004 ,:G:,:WGe*~eooo*QO -00 690 Zoo coo co 0 too WOO 6*0 goo X00 400 SOO bee coo MW moo 1 0 Gd q a * I w 0 d3 a 3 4 q X 00000000*0*0000000000 0000000000*0*00000000  60 .1 go a 00 0 4w A ft AV 'a s$ FAlattivot dotattoo of dimmitiated Lovilittlask or** at the Ximvgmd coacautratar, V. .8, - -00 11te (we voiiiain- Obolantel. Zhur. No. 1. 1619(107) - Cu 0.0-1 J% Zn 1.7-2.5 and S 13-t7%. Vp to IWO only Cu was cxtd. The Cu concentrate had 11-1 15% Cu and 11-14% Zu. Extu. of Cu was M-911%, In IWO tht, plant adopted selective flotation of Cu, Zn and Pe.1.'j When completed, the plant will produce per month 8-vt T " O C ' '. . u thowww tons of pyrite conce"Irate c0mg. Zu 1 S 42-4570 and 14-0 hundred tons of Zn concen- q trate contS. Cot 1,5.-2.0, Zn #"5 and S 34-403%. The 1 Cu concentrate will have 20-22% Cu and F,10% Zu. H. Z. Kamich ~o 0 coo coo z00 ZOO 300 300 -100 *o too %;v 0 cot 0 a 0 o oo 0 1 0 0 Obo 0 a 0 g : 0 1 0 " r,a a 10 0 tr a a a a a 0 0 : : : ! ! _ .  we* *few r* 'i it Ot ts f& u vs of a n2 a1A Is a It u Is fil Is IF a 0 0 . I'm IL h 4 A-A 0 41 00 00 00 0* v. A. 46 25-WIM.- N d M -00 o0 s;! o. . a study of dcotad- U-WOOS, t 00 elp DWWAd -60 00 zoo *0 a coo zoo sro 0 10-A Z;oo 1,00 $m-$LA k91 ALLAINCKA LITINATLAS CLASUFKAT11:0 Ul- Ito 0 salabi .40 akv lot SIA&SIO-R! I T 41 1 .9 F iff IR gi t - N ft It * An 4 1 V Od 0 0 0 1 W11A '3 a - I INA arill . 4p Cra0 4*1 I 0 o 04 0000000004 0 000 00 AL " =I- ~ - & - - - ~ - Al, -A- Ah -- - 00 --  44- ~W 'Pot a m Its 11 tr m a sm S& 00 A A 00 f rill 00 d 60 a 641 9 a a m 2 JO 9 a 4P a a a a 41 4 Ril alri IN its-'aaaltim d wqc~eii;" V. A. M&Ua*vAd. 1'OWxYf Afratt. 1030. 4A4W,:~__fjW ft&JJM Qf CU-Zjk OMS - StWitJIL pulp Im "Mmted" br nitfog" and air 411 mimsals CM11. ka"m a=m of Col. t I uwd to stwy the affeco of air oa The mictivatiots as im The following T =ewsm Is, =121 "o, iJ:7,==a4h the mnem of the air CUS04 jWbCWW. This is then di.md. to fam Cm i=JbUW* 6tdftft the ZQ bku*- of chall-wite -d (hWAtim 0( 60 a that a ChLkv- borttite, vromd% at *06*4lomme dum pyrite. (6)CyatsWeadkoldf lbeCstfiWoodm9mr(amof Me,,& OW fWW Cantprier Cm eywide Wts am mm, (OCChaftbemirde- Cts eymide mm to lorm Cum, _ _ ? W .= mcdvate* the In Weade. (d) Cu d. = = 00 910210 918C with xanthates form xanthocruse cupw" aud Capr;C ";&S which activate the 7n bk-tWr- fe) 00 , reacting with Clettwntary S. f- tbkx'Yumtcs twe dcactivnic the In bkftde but Merely (MOMW the Cyanide. Thm cKpts. denweLmraited the ir-juri~ effect of piokx ged maincl of the pulp with air in the K4Kwe d(Aistim, d Ph-Its and CU-Zft om~, owing to the a. 11. N. Dandod 'of In blende by Cu im Wfivatim UZ 0 Goa A 0 40 41ALMM IT-- st a LV 10 It I I Oigw eAK CWv isl .1 1 A, J, 7 a 4 3 0 se ~64601 so cr a a MOM !-40 _*O -00 -00 1*0 -40 -00 .00 4*0 31--oo see too  0 Zi7;7_~9676 "')f)U tsto A Jk_ _L_J_fi, A __L a -14 1 Q 61. 0~. 1, 00 00 8,; 00 496 40 00 j 0 : 0 A 00 f a 0 6 0 ale 0-se-w*# Q'Qr 114 it A) 21 Ij n 24 1) 16 11 .1 ?. 1: 11 V 11 S4 R $-A V so Cc X, If.. k n U I? V 13, with certain cuncruttatton 4 Crkoll), the pyrur is -00 Ph =less rds cc& 4 M01V_~~ ad staeanus; am activated owing to the formation of hydroplubc filin. 00 0"41 U. V. A. Maliauv*& radayir MeW. ink In the flotation and agitation in air the Cat0H)1 is ocu- . No. 4. 1".- PnTimsly (C.~A. J2. 6W) U. "Ported Ualued by HtSO. formed by oxittAtioc of Fc.% and by .00 that oxygen of the air sclivatto pyrites In griading. agita- CO*, forming water and CaCO.. With agitation by oxy- 40 tion and f1citation, which results in its greatly increased gcn, activation of pyrite is insignificant and cca-ses when . flontability. A ACGrY was PrdPosed that assicent HvS04 = sonic excess CaO is timserit. In the cairber investigation .00 tamed an the of pyrite particks clicsimi tk~e pyrite at was shown that CukCN), tons aic formed in the pulp w% 09 V-- of ferric hydroxide and of baw suffates which am the rcult of reaction between copper salts and cyanales. - finally cmvvttcd into ferric hydroxid.. To vecilly this IlIme cyanutes Ii,re dremitiosed by the CO* of the iur to :0 0 theory The action of air an Pyrrhatite was investigated. form CuC(.h which IlLmot-iairs. The Cu kms then arti- It is known that OU&NIIII of Py"hotite by oxygen pro- vatetheancblende. Inthepreftntworkanitimfigation ducrs 1e3& J119), than tile 0144tion of pyrite; a unall Wks inade to dirtetininc whether c(inipict copper cyanide -00 An-at of 110h is formed by oxidation of the ea-ein 8 kins are decutuipcmd in a pulp of tiff below 7. 'rheresults atom of Pct.%. Fsprtuncuts sbqwcd that pyrrho(ite is %howed that detompusition (if the ~In3 is determined out not oxidized by oxygen of the &&. The laucace of by the Increased acidity of the pulp due to C(h. but by cyanides and tune (detiresows) a the activation of pyrites their deciotuposition by COl. Tests made on complex Cu- AO was next investigated. This Aowed that whes excess Za ores showed that the flotitability o( zinc btcndc is cun- cyanide is present the Pyrite is depressed becaum of forma. sidcrably increased by CO,. The undesirable action of -00 (-a of hydrophific film; wffxrk " mcdvaftj Lbe COv may be prevented by neutralization of CO, by intro- 00 Pyrite by removing the fihn. With small ansounts of ducing small amounts of linie or soda into the pulp or by ' cyanide. agitation in air and datsition activate the pyrite. removing COS from air by passing at through a tune 'K _'46 The action of CA(011)1 is Similm to that of cyanides, that IlWi solution. B. N. Dandoff &%*.ILA _00 URGKAL LITERATURI CLASSIFKATIOM JaCTALL _F _F_1 I 1 it Im Al e) I L s s 'W a 4 n t ar And U is AV W3 As I ft it X no n 1 14 w 0 it it as it K a It 91 X 0 0 Ak a 0 0 IS 0 0 0 0 a 0 1 0  OF #2 it A - WOOS 00 is 14 it Is 03 4i 00 00 du and tic Coamatmtes , w l o ro-Olma e U11.013. No. 9. 44 " M .00 06 y V. A . =Sixdus",42,67.-TheProPOwd-'tyslellI m. I ~- , - & 6 o il , . froem dbwt wJective detAtkm with wx~- t4iffr- -00 40 Lrate. thrn of a Zu -norntral, fire of a Cm ocam, qtvu. go . utrate. in thAt there 6 A milk, aw findy of a Pyritic CoOm ff%mi which i~ live ZO.PlAte flotation. tho CCC-iratrate 00 hen gepd. into& zncon"t1trate and pyritic Lmlivrittate rhe systtm is &ppticabje to both temn anti rich ufc.'- zoo A. PaPinclu-COutur zoo if =00 00 ;00 00 '1000 00 goa oj g 00 00 a* 0 00 0 so -~e 41 I z - too L L11(flAy LIJFIIKA At's-$LA I 0 00 0 0 4, e n 0 so s of 0 1 0 0 OC e 0 00 00 0 00 G o *-"! - Cr  OW WO O'W OW 03 1 1 1 1 1 4 it If if 4 " 1z 9 0 it U a Is as U v I 1 A 1 i 9 1 t i . !!o o A Is? wv ).P lisoff, 7 AND PIPP-tv"', -.00 so 00, Neuttralimbots of injurious effects of ozygen and callatin .00 00 r ; dioxide In the flottittlon of caner-titic arrii. V. A 00 1 Malinovskil. rnwwyf MddJ. 1039. No. 1. 44 N) - 00 lit exih~r repcwtq (C. A. 33, tr.121 - ~ it was stated thal L'0, .0 so a decompy. Cu cyankle low to form Cu" rocks; these dr- And thus it an the surfs" of Za bleude and activate it K 00 , l r raise the Zu content 4 the Cit ctoncvntrate. hl. dr- ~ek,ped a new grosip of reativnts (catxtytic adsturtacrsi 41: 14W neutfulLostian of (he injurimi'% vffiviv of Cu* ' inns -00 0 17hese ."a ts "t cottlowal sutfid" of Fr. Za. Pal &ad N' 0 0 of . rhey were pirvpd. by mixing the rulfides of these metal,% : with Na sulfide. Colloidal sulfides; were introduced into A*oh%.ofCuW,. Resialtitaftiumemuscipts. showed that Of 3~ ZnS it the most efficient deactivating reagent; it improv" f C h coo ' e u into t wlertivity and do" not diriffftse the rvtn~ o - Via cuncentrate. Analyses rat filtrate, ~howrd 11.01 1,, coo 1 0.015 C. Cu per I.: without the AsAdn. the Cu rtxst~nt sea, go 4 0M)to0.30g.pcrI. The action of these colloidal sulfides " is due to the adsorption of Cu- ions on their xorfac- coo 00 ill Sponge inica isalso used tot piarg. Cu" ions, Wit the col. - - s loidail sulfide reagents are supericer to it. These renilts #7 W W were corroborated by tests oir corn. wale. and v he me$ boil 600 tjj~-" has been adopted in some of the licktation mills, It i~ claimed that the extn. of Zn was increased from ill t., .100 and that of Cu from 81 to We'- B, N. D. woo o A 14 - 11. A 41 is led", I WOak.. ULLURGICAL 4.1114041111 CLASIMICATICal re 0 141all'i 'kit a-, a-( 'l. a , i 1, ;A RAI olle itessi litill 1 I a 1 10 Oil 0 a 0 3 KW a I to ~ z ~ s 1 1 ~d'saa "Govo 0 o 00e ovf*#ooooqvq*eoGoo*- , 6 0, 0 & a 0 0 0- 0 0 111 0 0 0 0 of 00 046 0 0 * 0 0 0l  rc t Fri :0 0: 8: 0 0 : 00 d 06, 0 &&-*I The ladueact of tiott sulfate and tine hydroxide on the dataliffity, d Atte bleade. V. A. 1,iYN~y Jfdal. 1939, No. l*-11, U-S.-Mupts-were tnade to i1cf. the ptmAibilhy ti substituflng Zn504 and Zn(Oll), for 7 NaCN. Quartz mixed with ZnS free frmn Cu films wa~ floa(rd in the sbv-n" of air: N was used for saitntion and flotatkm~ Wh" thiq C11.0tv US was doated with K tanthate the estn. of ZnS was U)%. After activatimi of Ihe mixt. by CuSo. the extn. of ZnS was 1r.-97%. Witt, t addn. of NaCN thc results were: 25-30"c extri. with 150 a. xan-hate per ton, and 6-9% with 2R0 g, per (on. ZnS " activated by Cu ions was depressed by NaCN and KOH or NaOll, activated Zn, was not depreA"i hv I NaOff. ZnS depressed by NaCN remains deprr,-wd e~vn upon removal of water contil. CN ions. Thii is expLLined bir the formatiton of hydrophilic films. This is also true (if depression by hydroxyls. In the fintation in an alk, Inedium by VaC,*J and Zn.SO, the ZnS is apparently tic. prrssed by Oil films on ZnS. The problem was to find a reagent that will depfe" ZnS activated by Cu itins. whiels "I form a hydTo%yI film an the ZnS particle%. Fxpti. showed that ZnbOt dep"ssed the ZnS twcau%c of forms. tion of Zo(OH), in its reaction with an alkali such a, time The expt%. also showed that in the dotation of Zn-Cu con- centrates the V&CN can be replaced by ZnSO. and CaO with equally good ciln. of Cu. l1references. R. N. V. A 6 a I L A 1111TALLMOCAL L"IfEAT1149 CLASSMOCATM ~ -00 600 coo 0 0 7 00 400 ZOO 0 0 tsee 00 4v 63 r.1; U a ('I at a I KA AMI tofu* *w'jff a -43 1  MALDIMM, V. A. "The Influence of Zinc SuInhate and Zinc Hydroxide of the Floatailitj of Zinc Plendell Tsvet. "et. 14, No 1D-11, Oct.-Nov. 1939 REPORT U-15c)6, 4 O-t- 1951  M&LINOVSKIY T&A. prof., doktor tekhn. nauk. --- " ~~- I Treatmant of high sulfur content coal sludge using concentrativg tables. Sbor. inform. po 61bog. i brik. ugl. no.1:32-35 157. (Coal preparation-Equipment and supplies) (KIM 11:4)  MALIffOVSZIY, IV' A-,Mof..., doktor tekhn.nauk '!IS~ZTk ~ Prepnrntion of strip-mined, high-ash coals. Sbor.inform. po obog. i brik. ugl. no.2:5-10 '57. (MIRA 11:5) (Coal prepsration)  MALINOVSKIY, V.A., prof. doktor tekhn.nauk . , Yew coal preparation flowsheet for coking. Sbor. inform. po obog. i brik. ugl. no.4.-21-30 '57. (min u:6) (Coal preparation) (Coke)   jZ'; 68-10-4,/22 AUTHOR: Mal inoysklyi-Y.A. (Dr. Tech.Sc.) TITLE: Decreasing the Sulphur Content of the Donets Coals (Snizheniye sernistosti Donetskikh ugley) PERIODICAL: Koks i Kbimiya, 1957, Nr 10, pp.11-18 (USSR) ABSTRACT: Beneficiation of the high sulphur Donets coals is discussed. A beneficiation process for high sulphur Donets coals based on integrationof flotational and gravitational methods, devel- oped by VNIIU is outlined (Fig.1). Using this process the content of sulphur in concentrates can be decreased by 30-35% (as against the present level of 15-20%). On the decision of the Ministry of the Coal Industry of the USSR, an experimen- tal plant of a capacity of 130 ton/hr will be erected at Novo Golubovsk TsOF in 1957. There are 7 tables and 5 figures. ASSOCIATION: VIIII Ugleobogashcheniye. AVAILABLE: Library of Congress. Card 1/1