SCIENTIFIC ABSTRACT MOLCHANOV, YU. S. - MOLCHANOVA, L. V.

L 29938-66 -.&(T(I)/T A ACC t4Rt AP60075cll scmcg cMt MV0240/66/0W/001/0039/0044 S7 ,AUTHCat VDIchanov, Yu. S. S-0 CRGs Chair'of ThAustrial 4jrgiena and Occupational Diseases# Ukrainian Institute for the AAvancej Training of Physicians# Khartkov ILKaredra ogiyany truA& L protsabole- an y Ukrainakop.imtItuta usovershenstvaVaniya Vracharl @0 t Changes of tha boAyfa immunobiologica reactivity, un-Aer the in1flueace of low- TI) Tintitity' infrared raAiation SCURGSt Gigiyana I sanitariya# no. 1, 1966# 39-44 TOPIC TAGSt Imminologyp thermal rsAiations experiment animalp infective Aiseaset vaccine, infrared radiation, biologic effect ABSTHACT: An infrared rMiation Intensity of 0.2 cal/cm2/min at =3 micro- coulcmbs was useA for a periv of 9 1/2 months6 The agglutinin titer"" after hypa- dermie immunization with typhoiA faveff vaccine containing L5 billion Microbes/ml servei as the immunobiological reaction in4ex, anA InAicated the phagacytic acttvitr of blood neutrophilso The experiments were con-lucta4 on 21 rabbits. The 13 rabbits the experimental group were Eubjected to prelimir-ary raAiation for 1 1/2 months anl were lsubi;equently irctriunized.-The remaining 8 (control group) vere immunizeA only* The Imiminization of both groups vas carrie-i out at the same time an4 their -liet was Card 1/2 UDGS 612,017.014.444613.165.6t6l2.ol7  NR: Ar6007591 i4entical, "ghft long-term irraAiation of thq animals causei a consiAerable increase in their Imnunobiological reiactivitys which manifestel itself in %n increass in phago- cytic; activity of tho noutrophils anj in the agglutinin titer after the typhoid fdVar vaccination. There was a slight rise in the acetylcholine, 14vol aM In cholin- esterase activity. The globulin fraction of the blood, serun was Increased at the ex.. cc i anA c(2 globuling, anA the albumin fraction was re4uce4. The sulf- hy,;ryl group content increasei. Howeverp no chanrs were noted in the content of 17-katostero,ifte Clcige art* bass 4 tablase SUB CODE.; 06/ SUBM DATE: 25M&765/ ORIG RUt 0081 ATD PRESS: Card .2L2  flikolay Iv-,tndv-tch,. A-p red. [Internat';.ona-I cypA49m of unita Vezhdunarodnaia slatema edinits (51). lzd. 2., ispr. i dop. Minsk, @Yssbaia shkolay 1965. 93 P. (RIRA 18:8)  0 t a pieparation of hypophysis on car P ea , t h e at -exc , S. At. . L augw ftes. A, .. Afolc1lanova, aud T.- 9. Vakuslieva, (All-Utnots- In". @ @-irp@@V(T&H I m Wimp. 2. fr,@ra cittle and ' swine iiae tzeatua fbfl6wi@. id.*iffi,4014 -N40H or at pit 11. fractionated I I IS04 d with (NIij dMized-b6ile fGr- IG-15 ulill. at PH io, and POW."widi (CHillco or Riolf; Will all Y, . 4-5 g./kg_ of glzlild. This yrelin. coutains tive fractiun wliich iliduces it trausicut accumulatiou uf hit in ilm liver, an increase in p oxidition produm of Lit ('-.etc?ne bodies), an&ictardafloit in iveight gaill ill X picc. atild rats). 'Liver glycogen and blood "i'llAsAl ugar relliallt. lanaffeeted. , These Offects are not pmlaced 111v ljsf4 kmmn cump3netit of t1te gland. and 4@pauibility nf jb@&kste,, of., new culnp6acInt is thus @ilidicatea.  VAYNSHMINP O.Ya.; MID RA11f)VA- A-4- 2 D.Ya.; MYUKINA,, T,A.; __ f POVOLCTISKIY SHULIKIIIs -.L. Production of MENU and l5KhGIITA steel in open-hearth furnaces. Stall 23 no.7:621-623 Jl 163. (mmA 16:9) 1 (Steel allays-Metallurgy) (Open-hearth furnaces)  L-01517-66 EWT (MVEA(d) /WP1(t)/WP (Z)/EWP (b) IJP(d) KYW/IJD ACCESsrou nR:-_ APS014375 UR/0383/65/000/OOIIV061/0065 669.187.6--0 AUTHOR: Zhukov, D. G.k Keys, INI. V 5_; Men'-shenin. Ye. B.; Pegov, Vd G.;-' Molchanova,. A-z A.- V0) 3 5 TITLE: Treatment of electric steel.with 1@quid s ynthetic 21ag d( SOURCE.- Metallurgicheskaya i gornorudnaya promyshlennost's no. 1, 1965, 61-65 TOPIC TAGS: electric steel, synthetic slag .-ABSTRAM.- The treatment of.electric steel with liquid synthetic slag was adopted on a mass-production scale at the Chelyabinsk metallurgical plan*"t6r the first -time Inthe history of Sovi lurgy in July- 1964. The chemical composition 5@t metal of,the materials and the prbcedure employed in the preparation of the lime-alumina slag are described., ShM15%teel was treated with the slag obtained. The slag treatment -was found fo -rediice' considerably t4e contamination of the steel with nr.--.-. metallic impurities, to decrease the sulftr44ontent, and to raise tits output 01F the electric furnaces by 12to 15%. The macrostructure of-slag-treated ShKhl5 steel shows virtually no differences from that of steel of standard 1katches. 0   LUBEHETS, I.A.; ZHUKOV, D.G.; VOINOV, S.G.; SHALIIDV, A.G.; KOSOY, L.F.; KALIUMIKOV, Ye.S.; CHERNYAKOV, V.A.; YAFTISEV, M.A.; GOLIKOV, Ye.S.; PYSINAY G.Ye.; Prinimali uchastiye: KEYS, N.V.; PFC,07, 7-I.G.; MENISHENIN., Ye.B.; BARNOVALOV, M.A.; SHIPER, G.B.; SHATALOV, M.I.; MOLGHANOVA, A.A.; PIIISIMOVA, M.Ye. Refining steel with synthetic slag from large-capacity are furnaces. Stall 25 no.3:232-235 Mr 065. (MI-RA 18:4)  KOLCHOOTA, A. I. Spoiseadirg oak in irrigatect arsaa, lzy. All trr.= no.l.-80-84 t53, (Soviet c4utml Asia-080 (NM 1113)  MURANOn' A. 1. Dissertation: "Forest. Chativation Tbor the Sowing Method Under the Irrigated 'Conditions-PirevaiiLing In Vzbekletan.4 Cand.Agr Sci, Tashkent Agricultural List, 17 Jun 34. (Pravda Vastoka. Tashkent, 8 Jun 54) SO: SUM 318, 23 Dee 1954  M.S7RGVi R.G.; 140WHAITOVA. A.I. Organization of work in shelterbelt forestry and landscape gardening in the Golodnaym Steppe. Hat. po, proizv. sil. Uzb,. no-15:448-455 t6O. (HIM 14t6) 1. Glavgoladnostepstroy i flauchno-isoladovateltgUy institut lesnago khozMstva Akademii seItsk0khozyzyatvennykh nauk Uzbekskoy SSR. Golodnaya Steppe-Windbreaks,, siielterbelts.. ate.) loduaya-Steppe-Landscape gardening) M  PETROVSKIY , Ivan Ivanovich; VOLMMOVA, A.K., red. ---- [Electron theory of semiconductors; introkiiietion to the them7l Elektronnaia teoriia jjoluprovodnl@av; vvederii(,- v teoriiu. Minsk, Vysshaia shkola, 1964. 218 p. (Mlillk 18-2)  TSEMIK, Mikhail Semenovich, kand. fiz.-mat. naukp dots.; 131RICH, Yevgeuiya Vasillyevna; MAMEVA, Galins- Pavlovna,- SAVIUMA, Inessa Fedorovna; 11MMINA, N.M., red.; MOLCqmlO-VA..-A%x-S[@,rqd- - (Graphs in physics] Fizika v grafikakh. [By] 1.:.S.TSedrik i dr. Minsk, Vysshaia shkola, 1964. 258 P. (MIRA 17:6)  TSEDRIK, Mikhail Semenovich, kand. fiz.-matem. nauk; KITUNOVICH, Fedor Grigorlyevich; MIKULIGH, AleksF,7 Stepanovich; KLCHI111SK1Y, Anatolly Hildiaylovich. Prin-im-al uc@--Astiye YUMEVICH, N.A.; 1@191@TWIIPVA, A.K., red. [Textbook on physics for persons entering schools of higher education] Posobie po fizike dlia postupaiushchikh v vuzv. Minsk.. Vysshaia shkola,, 1965. 278 ps (MIRA 18:6)   -AL=fOU, A,&-tKaumt) Pathogenesis, diagno-sis and treatment of syringonyalia. Kaz. med. zbur. no.5378-79 S-0 261. (MM 15-.3) (SYRINGOMYELIL)  MMCHANOVA, A.M., assistent Dystonia with painful mansifootations of traumatic origin cured with a novocaine block, Kaz,med.,zhure no*WG-81 Kr-AptO, (MIRA 16t1l) 1. Kafedra, nervnykh bolezney (zav. - prof. L.I.Onorokov) Kazanskogo m-editsinskogo, inatituta na baze Respublikanskoy klinicheskoy bollnitay (glavnyy vrach - Sh.T.Bikchurin (deceased]),  MULGWOVA. Aja..,_,kand. skonom. nauk; KANIN, I.I. Improving"wages for railroad transportation workers during the transition to commism,,Uch. zap. LIIZHT no.3:115-137 162. (MIFL4. 17: 3) 1. ZELveduyushchiy otdelom truda, i zarabotnoy platy Upravlen-4ya OhyabrIskoy,zhelemoy dorogi (for Manin).P.  HOWWOVA, R.K.; GEMIMCff., A.N. Case of intravital diagnosis of tuberous iralerasis of the brain with changes in the fundus oculi, Test. oft, 76 no.Ic 78-80 &L-FtO. (MM, 166) 1. Eafedre glaznykh bolemey (zav. - prof, I.F.Vorobtyev) Saratovskoga meditsinskogo institutae (TUEEROUS SCLEROSLS) (EYE-DISMES AND DMGTS)  USSR / General and Specialized Zoology. Insects. P Abs Tour: Ref Zhur-Biol., No 2, 1958, 6851. Author *djahaa"a-r7@@ Inst Ivaaovo Agricultural Institute. Title The Use of DDT Against the Poplar Moth. Orig Pub: Sb, nauchn. tr. Ivanovsk. S.-Kho in-ta, 1956, vyp, 14, 222-229. Abstract: The high effectiveness of 10% DDT dust and of 0.1-3f. suspension of this dust against poplar moth butterflies, has been established by lab- oratory experiments. The use of DDT is recom- mended during the moment of mass emergence of the butterflies from their wintering places and during the period of mass births of the second generation. The DDT dust is not effective against the eggs of the poplar moth. -- V. G. Gubina. Card 1/1 44  ii666-. 7aflur tn. =tt7vanp, , Mmu alt to i&MA6.1it4@5, K, st latc. glassvs with'. _MW LtImi-91-1 i, 40% 164- orvqoWi@td MIXId tog gi; A VW,tyt@- Am- QJ&ls 7fi@j6@ oq wescruf qd  PROSV=, V. (Riga); VWOGRADSKAR, re.(Rigah MOLCHANOVA.. G.(Rigm) Phase changex of transient class steels by deep Coalinga Testis Latv ak no.IN65-70 960. (MI 10: q: 10) 1. Almdemiya. nauk Latviyakoy SSR, Institimt mashinovedeniya. (Steel)  I P FMTMM.. Y. (RigL); mmamnu, Ye. (RigL); MOLOUROVIL,. G. (Rig&) Dispersion hardening of some high alloy stools. Teatis laty ak no.12: 39-42 t6G. (EFAI 10: 9) 1. Akadamiya nauk Lmtviskoy SSR, Institut anargetiki i elektrotekhniki. (Ste.el)  3, 7 6L 0 S/ 123roZ/000/008/0 161016 A004/A101 ATUMHORS: Vinogradskaya, Ye. A., KolcLh2g2yA,_0__L, Prosvirin, V. I. TITLE: The specific features of phase transformations In transition type steels PERIODICAL: Referativnyy zhurnal, Mashinostroyaniye, no. 8, 1962, 2, abstract 8G12 (V sb. "Prevrashchenlya v splavakh i vzalmodeystviye faz". Riga, AN LatvSSR, 1961, 3-19) TEXT: The authors have plotted hysteresis loops of 37 -2;" 06 and 06 transformations for a group of steels of the transition class, which are charac- terized by a variable nickel and aluminum content. These loops, showing "the nature and kinetics of transformations, made it possible to establish the 11critical" temperatures of martensite transitions. It was found that alloys of this category containing 7.75% nickel at a Cr-content 0of 1%, pertain to the group of steels whose austenite is stable down to -78 C. If the Cr-content is reduced to 12.5%, the nickel content of the alloy should be increased to 9.5% to obtain a0stable austenitic state. Increasing the heating temperature from 850 to 1,050 C considerably affects the kinetics of all subsequent transformations. Card 1/3  S/123/62/000/008/016/016 .The specific features of phase ... A004/A101. If the temperature is increased, a difiNsion of the secondary phases is taking place, which results In the solid solution being enriched with alloying elements, increasing its stability. Therefore, steels of this category may not have a mar-, tensite transformatfon after high-temperature heating. A protracted holding of the steels at such high temperatures az 850 - 950 0C leads to precipitation processes of excess alloying elements and compounds from austenite and to a decomposition of a-ferrite into a mixture consisting-of TO and carbides. In both cases 'the formation of less alloyed austenite promotes a more complete martensite transformation during the subsequent cooling. The preceding heat treatment, during Which and C* -> 'C transformations were taking place, lowers the stability of austenite formed at high-temperature heating and contributes to its more complete transformation during the subsequent cooling. Hardening is effected up to 5000C in the case of a partial or full martensite transformation preliminarily taking place in the steel. The more complete the martensite transformation, the more considerable is the effect of precipitation hardeni@g. A hardening of the steels may take place as a result of the secondary phase precipitating from the austenite subjected to phase workhardening in the process of martensite transformation. The energyadditionally Imparted to the steel. on account of deformation during phase workhardening lowered the stability Card 2/3  S1123162-1000100810161016 The specific features of phase ... A004/AIO1 of austenite during heating and moreover, caused a precipitation of the secondary phases at a lower temperature. High-temperature hardening (700 - 7500C) is accompanied by diffusion processes of precipitation in the solid solution and can be observed in those cases in which the steel is not undergoing a preliminary martensite transformation during the heat treatment. Hardening is taking place during the precipitation of secondary phases from the solid f-solution which is analogous to the hardening of austenitic and heat-resistant steels. [Abstracter's note: Complete translation] Card 3/3  D205/D301 AUTHORS:- Vinogradskayaq Ye.L.? Molchanovap G.A., and Prosvirin, V.I. TITLE: Peculiarities of phase transformations in steels of the transition class SOURCE: Akadeaiya nauk Latviyakoy SSSR. Institut avtomatiki i mekhaniki. Prevrashcheniya v splavakh i vzaimodeyst- viye faz. Rigag 19619 3 - 49 TEXT: The present work is concerned with the phase transformations occuring in high resistanceg low carbon steels lying between the martensitic and austenitic types. A critical survey of the publi- shed work on the subject precedes the prc;o4ntation of the performed investigation. Two groups of alloys ha7--- been studied. The first group includes alloys having constant Or and Mo contentsq (15.0 and 2.5 % respectively) and variable Yt and Al conteii-ts (in ranges 5.9 - 7.75 and 1.2 - 0.7 % respectively). The second group includes al- loys having a lower Or content 12.5 %p Ni from 7.88 to 9.57 %; Al from 1.4 to 0.9 % and Mo - 2.5 as in the first groupo Ma carbon Oard .1A 8/685/61/000/000/001/004  S/685/61/000/000/001/004 Peculiarities of phase ... D205/D301 content of all alloys was 0.07 %. In the range 5-9 - 9.57 % Ni steels ranging from austenitic-martensitic have been prepared. 6- ferrite was revealed in both groups# its amount in the first group being somewhat higher. In every groupp howeverp the amount of 6 - ferrite varied from alloy to alloy. After smeltingg the specimens were forged to rods of 7 - 8 mm radius# quenched from 105000 and annealed for 3 hours at 7500C. The obtained state was considered as the starting structure. The kinetic and the quantitative rela- tions of the phase changes were investigated by the magnetic metho& The'microstructure and hardness of the alloys were also measured. Hysteresis loops of the y a and a -'A V transformations in the +700 to -7800 temperature range are given. From these loops the tem- peratures of the martensitic transformations were determined. It was found that alloys containing 15 % Or and 7.75 % Mi preserve their austenitic structure down to -78QCv If the Or content is low- ered to 12.5 %, the Mi content is to be increased to 9.5 % in or- der to ensure the stable austenitic state. The zhermal history pre- ceding the cooling-neating cycle of the hysteresis loop has a large influence on the loop itself. the increase of the pre-heating tem- Card 2/4.  S/685/61/000/000/001/004 Peculiarities of phase ... D205/11301 perature from 850 to 105000 causes the dissolution of the secondary phases and thus the solid-solution is enriched by alloying elements and its stability increases, the martensitic transformations being prevented. Prolonged pre-heatings at high temperatures cause sepa- ration of the excess of the alloying elements from the austenite and the decomposition of the 8-ferrites into y' and carbides., en- hancing the martensitic transbrmations during the hysteresis cycle. A complex secondary thermal treatment in which the T and a ---s y transformations take place enhances the martensitic transformati- ons during the hysteresis cycle. The quantitative data on the in- fluence of pre-heating temperature and the final cooling temperatu- re on the phase composition and hardness of the alloys (Vickers de- grees) are given for alloys of the I and II groups. The influence of annealing for 1 hour in the 300 - 70000 range was investigated., The annealing strengthens the alloyso but the exact character of thi-s depends again on the previous history of the alloy. If uhe al- loy did previously undergo a martensitic transformation, the high- est strengthening occurs below 50000t otherwise the strengthening occurs at 650 - 75000 and is quantitatively lower than in the first case. The influence of ageing performed at temperatures from 400 to Card 3/4  -94/685/61/000/(JOO/001/004 Peculiarities of phase ... D205/D301 150 OC for up to 36 hours was also studied. Againg the hardening du- ring ageing depends upon the annealing. There are 21 figurest 6 ta- bles and 22 references: 11 Soviet-bloc and 11 non-Soviet-bioa. The 4 most recent references to the English-language publications riad as follows: G4braithq Austral. Nachineryp 119 19589 1179-23-31; Iron Age, 181, 19589 22, 68-89; Whitey Metal Progr., 739 19589 69 74-'M; Westq Metalay 159 19579 109 62o Card 4/4  8836T S/125/61/000/001/004/013 11 DO 311119152 AUTHORS: Vinogradskaya, Ye.L., Candidate of Technical Sciences, and Molchanova, G.L., Engineer TITLE: Inflizence @of Martensite Transformations on Fine G"'rystal Structure PER1QJ1G'AJ,: M.etallovedeniye i termicheskaya obrabotka metallovt 1961, No. 11 pp. 20-25 TFXT: 'Phe relation between changes in individual parameters of fine ory3tal structure of phases and transformation ef feats has be-'?n repo*,-tad (Refs 1-7). The authors describe their work on the fine crys ml. structure of gamma and alpha phases in the course, of for,4ard and rever3e martensite transformations In. an iron alloy With 113.10'j" @;, 13.8% Mn and 1.8% Cu. The fine structure was measured 10'rom the width of X-ray interference lines of t1he Ka- serie3 (200'j and (211) for the alpha and (220) and (311) for the gamma phases, Trith iron-radiation on a type YPC -70 (URS-70) irutallat-ion. A definite region of the same specimen, heat treated to give first the forward and then the reverse transformation, was photographed. The degree of transformation was found with the aid Card 1/3  88367 S/129/61/00C)POI/004/013 9111/F.152 Influence of Martensite Transformations on Fine Orystal Structure of a magnatometer, as described by Ye.L. Vinogradskaya (Ref.8). The heat treatments and corresponding changes are shown in Fig.1 and Table 1 for an uncteformed specimen. To observe the effect of external load on the fire crystal structure changes of alpha and gamma phases, the standard specimen was cooled to a low temperature and deformed by extension at room temperature to 2.1%. The treatments and corresponding changes are shown in Fig.2 and Table 2, This table also gives results (shown In Fig.3) when other deformation and heat treatments were included. The authors concluae that the state of both alpha and gamma phases changes in the forward and reverse martensite transformations; the observed stabilization of the ganima phase with prolonged holding, at the critical temperatuve shows that there are factors additional to hardening which promote stabilization. Slight plastic deformation of the hardened specimen promotes relaxation of heterogeneous local stresses, watch in the gamma-phase lattice favours additional transformation to alpha and, perhaps, growth of coherent scattering regions in the alpha -* gamma transformation. Card 2/3  8S367 S/129/61/000/001/001+/013 3112/3152 Influence of Martensite Transformations on Fine Crystal Structure Plastic deformation at 20 *C of both hardened and untreated Specimens has no effect on the critical temperatures of the reverse marterLsitic transformations, and the effect of plastic deformation is completely eliminated by suitable treatment. There are 3 figures, 2 tables and 10 Soviet references. ASSOCIATION: Institut mashinovedeniya AN Latviyskoy SSR (Institute of Science of Machines$ AS Latvian SSR) Card 3/3  S/i26/6i/on/oo5/oi2/oi5 E073/X1535 AUTHORS: Prosvirin, V.I., Vinagradakaya, Ye.L. and Moleh or &_ TITLE: On Phase Transformations in Steels of the Intermediate Class PERIODICAL: Fizika metallGv i. metallovedeniyo, 1961, Vol. 11, No- 5t Pp. 775 - 78L TEXT: Steels of the intermediate class, i.e. intermediate from martensitic to austenitie, are characterised by a combination of properties and phase-transformations which are characteristics for both martensitic and austen!tLc steels. The results are described of investigations of phase- transformations in three steels of this class. Of these, Steel I is nearer to the martensitic class, Steel 3 is nearer to the austenitic and Steel 2 occupies an intermediate positiou between the two. The contents of C, Cr and Mo were maintained constant and the quantities of N:L and Al were slightly varied (C 0-07%, Mn 0.07%, Si 0.4%, Cr 12.5%, Card 1/7  S/126/6i/on/o05/012/015 Ozz Phase Transformations .... W75/E355 Ni, 7-8-8.8%. Al The ratios of the yield point to the UTS for the Steels 1, 2 and 3 after normalisation treatment at 1 050 O'C are, respectIvely, 0.76,, 0.23, 0.21. After a second normalisatisn treatment at 950 C and additional cooling to -70 C, followed by subsequent &going at 500 .2C for one hour, these ratios reached2values of 0.9. For a maximum value of. 6*0.aT = 150 kg/mm frSteel 1, & = 14% and T = 54% were achleved. A feature of these steels is that they occupy a very narrow range as regards composition, which involves practical difficulties during manufacturg. An' increase in the hardening temperature from 850 - 1 050 C (air quenching) brings about a large increase in the quantity of the residual austenite, particularly in Steel 3 which iv nearer to the austenitIc-class steel. Fig. I& shows the influence of the hardening temperature, 0 , on the quantity of the residual austenite, A, %, and on the hardness RV Fig. 16 shows the decrease in the quantity of the austenite (6 A, %) and the increase in the hardness -A liv as functions Card 2/7  S/126/61/011/005/012/015 On Phase Transformations .... 9073/933.5 oi the hardening temperature, 0C, after cooling the -specImeng to -194 OC. The influence of stepwise heat was also iztveztl*-- gated. All the steels were subjeo@ed to stepwise heating for one hour at 350, 500, 650 and 800 C for one hour, with intermediate cooling at room temperature, After initial cool- ing'to 15 0C'ard after cooling to -194 'OC. Regardless of the original hardening temperature the steels hardened considerably (by 40-50%) as a result of subsequent heating to 500 OC. However, the quantity of austenIte remained practically unchanged and this indicated that oprecipitatIon-hardening occurred; reheating even to 650 C resulted in a decrease in hardness which was still higher than the original value; the autenite quantity increased by about 121%; for all the tested original hardenin� temperatures. A further heating of the specimens to 800 C brought about a further decrease in hardness and a decrease in the quantity of austenite. The increase Ln. the quantity of austenLte on heating to 650 oc is due to reversible martensitic transformations during 12eatLU To reveal more clearly the nature of the hardening Card P*7  S11261611012.100510121015 On Phase Tran formations @... EG73/E;335 of the hardened steels during stepwise heating, the tempera- ture steps were made more Close. Each specimen was first heated to 3.50 0C for one hour, cooled to 20 0C, again heated to 400 OC, cooled to 20 OCt reheated to 450 OC, etc., the maximum temperature being 1 050 OC. The prgliminary heat- treatment was hardening from 950 and 1 050 C and parg of the specimens were first subjected to cooling to -78 C. The obtained results show that the increase in hardness of the alloy on heating it to 500-550 aC will be the more intensive the more complete the martensitic transformation. The close temperature steps used in experLments have rev*ale4 a very interesting feature, namely, that regardless of the original heat-treatment the steel tends to reach a certain limit hardhess of about 300 Vickers units, which is conserved up to temperatures of 900-950 0C. The nature of precipitation- hardening durLn &going was investigated for hardened steel, heated to 400, t50, 500s 700 and 800 OC Cor- durations of i to 36 hours; part of the specimenswere deep-cooled to Card 4/7  s/i26161/011/005/012/015 on Phase Transformations .... 9073/9535 -194 GG for 20 min prior to heating. The results confirmed that_precLgLtation-hardening in the temperature range 4oo 500 C was associated with rejections from phase- hardened austeuLte. If the martensite point Was not reached during hardening but the final cooling temperature was near to the martensite, point, a slow precipitation- hardening was also observed. This may be due to diffusional development of martenaLtic nuclei which do not develop into martensitic transformation. Phase-hardening by precipitation- hardening produces hardening of the austen&te which is unstable and.decreases on prolonged heating to 500 C-' Higher heating temperatuves produced active processes of rejectLoix, d:Lg;sol- ution and coagulation. Results obtained for steels aged at 700 and 800 OC indicated thatt regardless of the original state.steal heated to temperatures up to 700 vC tended to reach a hardness of 500 k9/mM 2 after 36-40 hours. At 800 0C the process of coagulation of secondary phases was more intensive and had a considerable influence on the process of Card 5/7  S/126161/01110051012/015 On Phase Tz-anof'ormatLons .... E07519335 softening; at 800 *C both hardening and softening proceed simultaneously. There are 7 figures, L table and 10 references: 6 Soviet and 4@ non-Soviet. The four English-language references quoted are: Ref. 3 - A. GLbraith." Austral Machinery, 1956, 11, No* 117, 21; Ref. 4 - (RevLowl Iron Age, 1958, 181, No, 22, 88; R*f. 5 - (Review) West Metals, 1957, 15t No- 10, 62; Refs 6 - R, thite, Metal Progress, 1958, 112, 51. ASSOCIATION: Institut avtomatiki i mekhanLki AN Latviyakoy SSR (Institute of Automation and Mechanics of the AS Latvian SSR) SUBMITTED: August 29, ig6o Card 6/7  .37533, P/197 621000/0041001/001 B104XIO2 74fOO' AUTHORS: Vinogradskayal Ye., Uolchanova, G. TITLE: Regeneration of the initial structure of alloys PBRIODICAL@. Akademiya nauk Latviyakoy SSR. Jzvestiyat no. 49 1962, 27-31 TEXT: The oacurrence, growth, and loss of the magnetic phase of an alloyed steel (0.12@ C, 12-93% Un, 0-167-4 00, 1.61% Cu) during and-A-d' phase transitions were investigated with a magnetomet4r. Samples 4 =- in diameter and 70 mm long were heated to 6500, slowly cooled to -1960C in the bath of the magnetometer, and again heat.ed up to 60000 and higher temperatures. It t If @' 6oooo, austenitic transformatica was complete. During a second cooling to - 1960G the samples did not undergq a "--)A phase transition. Higher temperatures in this treatment 0 tj Card 1/2  S/197/62/000/004/001/001 Regeneration of the initial structure B1040102 reduced the atability of thaj-'-phase during the cooling process. When the samples were heated up to 8500G# they became completely unstable. Another cooling to _1960c produced the same amount of.A-Phase as had been' obtained in the first phase transition. The original structure of slightly deformed samples was completely restored by annealing them at 0 tIf + 2540 C for a given.time, followed by slow cooling. There are 3 figures. ASSOGIATIONc Institut avtomatiki i mekhaniki AN Latv. SSR (Institute of Automation and.Machanies AS.LatSSR) SUBUITTEDt November 25f 1961 Card 2/2  AWFSS101W M AT4040795 S126851631000100210003fam AUTHOR: Vinagradskaya, Ye. LACandidate of tachnical aciences); FrQaTirin, V. 1. (Doctor of technical sciences); Holchanava, 0. A,@ TITLZ: Propertias an4 structure of aust4nWc steel SOURCE: AN tAtSSR. InatLtut avtomatLki, L makhaaLkL. pravrashchanLys, v splav" L vralmodayawLye fax, no. Z, 1963, 3-21 f TOPIC TAGS: steel, steel structure, steel macbanical property. austenftic steel. @ransiticn steel. plastic deformation, heat treatment, allay &,,act, ferrite IABSTRACT: At the present time, considerable attention is being paid cc the aus- ef-aitic-ferritic alloys - 'the go-called tranaftion grada; stdcls. Us strength of these steel& is determined by martensWe transformation, and can be increased by aging as wall as by &train hardening. The present authors investigated a steel of the traaaLcica class (0.07% C1. L5.0% Cr; 5.9% B(L; Z.5Z Ka; L.2% AL) in ardor to" study its structure and properties ir. relation to beat treatment and various da- greas of plastic deformation. Specimens 5 mm, in diameter and 20 = Ion after 20 1 1 :ain. awwalLng at temperatures of 1200, 1050. 9iO and 850C. with'subiraquarm air * -*',. VU caaliAg, ware, arAmLwd microscopically, and tha,efface of p1sgC14 deformation JAVgstiptad Ott apaCLOUS of VMjag original &44, aglilated, 46 to obtain a card  ACCESSION Mt: AT4040795 5 x: 20 = specimen after deforAtion. res.!lts of phase cr@'ansfo-_macLon and i mLcrahardress tests are graphed. it is concLuded-thac two basic phases are pre- served in the structure of,austenitLc-ferrLtic Occal after all possible variations. in treatment - austenite and delta-ferrita as se arate grains. of various sizes And. form. in the process of high-temperature annealing, diffusionat.interchanze may occur between the grains of austenite and delt@7ferrite, producing variations _'n the concentration of allaying elements in these phases. As the regult of such an exchange, the properties and structure of the are chanpd, and correspond- I ingly also the final properties of the alloy. ks shown by microbardneas, distribu.-t tioa.grains of austenite and delta-farrita ate heterogeneous with regard to thaLC composition, even within tha@tfzftx of a micrograin. Cold plastic deformacLoa strengthen& austeafte grains to a higher degree them dalca6farrEta grains. Be- -onaLdarable, hataroganeLty.Lm composition of the graLust their cause of the strangthenfag due t* phase transformation, precipLutLaa. or plastic deformacLon is notvvAiform. Drawing of an alloy ac 600 C reduces the strength of the grat" in phases obtained by quenching from high temperatures (1050;11200 C) and strengthen& the grains in phases obtained by quenching from low t4 mp4rtturgs ($SO 0). Oxig. #rt. hass 5 graphs and 25 phQt*a=G&V&ph*. Coed   'AC113ESSION NR: AT4040799 9/2686/63/000/002/0023/0030 'AUTHOR: VinogradgkaM Ye. L. ML-1cba=M#'G- A- ,TrrLE: Changes in phase structure and hardenin; pattem of high alloy steels in the process', ,of cold forming SOURCE: ANX-08H. In-Atitutavtomatikiimckhaniki. Prevrashcheniya Y splavakh L vzaimodeystviye faz, no. 2, ISC4$ 23-30 1TOPIC TAGS- steel, plastic deformation, high alloy steel, steel structural changes, steel 1 phase conversion, steel hardening pattern, heat treatment@ preqipitatioa hardening, phase ,conversion, deformation level, work hardening, annealing ,'ABSTRACT: Four compositions (see Table 1 in the Enclosure) were tested for the effects of' iheat treating procedure (air cooling after 20 min. at 850, 9501, 1050 or 1200C, preceded by annealing for 3 hrs. at 750C) and deformatioa levels (cold forming to 3-18% deformation) on changes in phase structure and hardness. In addition, samples of alloy No. I were hardened "by air cooling from 850, 1050 or 1200C, then step-tempered from 350 to 10COC at 50" Inter- vals of I hour duration, to determine effects of deformation levels (4.7-17. 9%) on processes i lof precipitation hardening. It is concluded that the pattern of changes in phase structure and mroperties of aa alloy are governed by Its phase stability. Alloys containing high proportions Lc@@ 11w,:4  MIN iACCr!.SS10N* KR: AT4040796 of austenite obtained by high temperature hardening are not subject to phase conversions as a result of plastic deformation. Strength increases (from 200 to 300 kg/mm.2) as a result of excess phase, separation from solid solution and work hardening. Supplemental annealing- ia- creases hardening still further, especially above 65aC, due to precipitation haraeming caused :by submicroscopic separations of secondary phases. Plastic deformation of alloys with less stable austenite, obtained by hardening from lower temperatures, leads to hardening due to 1partial Y to CC conversions and work hardening processes. Annealing at 500C enhances hard@ Iness further, to levels of 500 kg/mm2. "The authors thank Ya. M. Potak (Candidate in the Technical Sciences) and V. L d@ugun@v,(Engineer) for preparing the alloys. 11 Orig. art, has: 1 table and 3 graphe. ASSOCIATION: Inatitut avtomatBd I mekhanild AN @IAWR (Institute of Automation and Mechanics,, AN 1AMR) SU13M=ED: 00 DATE BEL: Wul" ENCL: 01 SUBCOM. AM NO REF SOV: olo OTHERL 006 Crd vrz-    KOLCHaOTA, G.Ta..kandidat meditsinskikh nauk. Itialogy of face preffentatian. Akush. E gin. 32 no.1:19-23 A-Y.156 MRL 9:61 1. Is kmfedz7 akasherstva i ginakologii lechabnaga fakulltata (sav. Prof. I.Y. Zhordania) 11 Moskarskogo meditsinskogo instituta imeni I.T. Stalin&. (LLBCR, POMWICK face, stial.)  KOLCWOTA,.@ GoTa.,`kand. med. nank. Diagnostic errors in the determinatioxt of face presentation in labor. Sov. med. 23 no.3:53-58 Kr 159. (NM 12:4) 1. 1z kELfedry akueherstva, i ginakologii lachabnogo fakmllteta (zav. - prof. I.P. Zhordania) It Kaskovskogo ueditsinskago instituta, imerd If. 1. Pirogova. @'CIAWR faae, dlag. errors (Rus))  OSTROMMOT, G.Te., prof.; 9PL.C,HUQTk, kaiad.med.nauk Yature plans for the publication of textbooks for medical schools. Sov,med. 23 no.9:132-136 S 959. (MIRA 13:1) (BOOKS) (MUCATION MIDIMI)  ,,@Lcw ovlm= . . . (Diaeases of v=enl ZhensUe bolezni. Noskyar K@zp i-7@. 36 p. I - (MM 14: 8) tWOM-DIStMS)  HOLGE00TA, Genriyetta Takovlevna fYace pressatation of the fetus] Ditsavoe predlezhanic plod&. Koakva, Kedgiz, 1960. 94 p. (KIRA 13:9) (LABOR (OBSTEMGS))  EOLCIWt'OVA G Ya zed. nauk; NIKONGHIK, O.K.,, kand. med. -'nauk; PDIADOVAt M.D... kanJ. med. nauk; PAYAWK-Z'S, 32.13.? red.; @LILICHIKOVA, Yu.53.jp teklm. red, (Transactions of the Tenth All-Union Congress of Obs@etriaians and Gynecologists.. December 11-18, 1957 in Moscov]Trudy Vse- soiuznogo suezda almsherov-ginekologov. Moskva, 1957. bloskva, Medgiz, 1961. 189 p. NIRA 15:11) 1. Vsesoyumyy s"Yezd almsherov-ginakologov. 10th, Noskv,, 1@,57. (GyIJECOLOGY-CONCRESSES) (OBSISTUGS-CONGRESSES)  ALEKS-ANDROV, Mikhail Sergeyervich; SHOKAREVA, Lyidndle. Fedorovna; MOWHANOU, G.Ya.,, red.; KUZII-'i]31A, tek-hn. red. [sxtra-u-terl-me pregnancy] Vnematochnaia berexennoW. Haskvn, Nedgiz.. 1961. 239 p. NM 15: 3! (PUMIANCY 5 EXTRA-UTER=)  ,, MOLCHANOUF G*Yaor kand.med.nauk (Voskva) . Publication of textbooks for medical schools, Med. sestra 20 no. 203-35 F 161, (MIRA 14:4) 1 (MEDICINE-TEXTBOOKS)  r OSTROVEMOV, G-31e., prof.; MOLCWIOVAs G.Ya., kand.med.nauk Publication of mdical text@baoks in the socialist countries. Sov. zdrav 20 no.2.1:74-77 161. @GOMJNIST COUNTidFZ--I&DICIN&,&TkXTBOOKS) ("41RL .14:12)  MUCHMOVA, ',-.Ya.,, kand.med.nauk Uss of dimelin in obotstrical practice* Akushi gin, no.loq@- 63@ 162. (mm 15:11) 1. lz latedry akusherstm i ginekologii (zav. - prof. A.A. labodev) pediatricbeskogo fakulgtetm II Hookovskogo meditsinskogo insti- tata, imeni N.I. Pirogova i rodillnogo doma No.25 (glavwy V-mch Te.K. Sitnikova). (P=OLINE) (OBSTETRICS)  ,. @a@.mednauk . OPstatrical problem na.5p -valtd I akush. 28 I no-5:994 IWO. (MM 16:7) (IABORO COMPLICATM)  MLCHANOVA G....Ya., kand. red. nauk; ELIZAEOVA, I.F., kand. M-ed. nauk Resuscitation and care of aaphyxial infants. Sov. md. 28 no./+: 90-95 Ap 164- (IURA 37:12' ) 1. Nauchno-issledovatellskiy institut ak-us-herstva i ginekologii (direktor - prof. O.V. Mikeyeva) Ministerstva zdravookhraneniya SSSR, Vidskva.  44; wild . U is, S Ph Iraciric-inethod for 'dclcr@, in ull -11, lilij@ ototolot flilfors and leother@ V. L: Vultst 'hovA lull -3 No_ 21, W-V; - Khhil@ M4, No, '41318,-Boif x itlelY Rcrerat. Atir. rl -)I(- of leather Jar Of 30% IfO,. Cont and dif, to 2-50 ml, . To, 5 ird. A file sm . takr;aJoranaly5b ayWT.t65nA-. al bliankadd,6 rill, of- * : in to nmke@ 81) 1., I ff Hut, .5 vrll.@ 01 3N- NI-WXv, wa ter and 5 nil @ of 0.1% aluminixt sulti. kept for daYA. .D it. to ail., auld viov irt i plicitocolorime ter after 10 n: in; itlia, Rest re@-,ulis are olitnined )Yitl. 0.01-0A ing. grccji- Mter, MAN) mi. of scAn. M. 11vo  M=UANDVA, I.K. Cbrcmaffin elements in leeches. Uchzapo"uno 220 no.6e76- 87 f6O. (MM- 16 921 (leeches) (Mromaffin system)  51.  KOLCHMOVA. 1. 11. Kethod for detecting chromaffin. elements In the animal organieff, Biul.ekup.bLol. i mad. 45 ao.2:123-IZ5 r 158. (MIRA 110) 1. rz kafedry obshchey biologii (zav. - doktor b1ol.nauk prof. T.T. Izosimov) Kazanakego, meditsinskogo, instituta. (PARAGAYGLrA, detection of chromaffin elements in animal organism (Rus))  L ..ksD/A---'ETC JD AR3 C@@V- ,,Iq: 006904 SOURM, RM. Metallurgi Abs 7=6 aaoirt' I.'- P AUVOIlt.- S--e-ynb rg, .,Farafonov, V* K.; Kodes, re. S. TIME: Investigation.of the:kindtiew aus@enite decomposition ahd the then-al of stability of EI-415 isteel CITEU, @SOURCE: Sb. Metallovedeniye i liteyn. proiz-vo Sverdlovsk, 1960: 5a-62 TOPIC TAGS: austenfte,*steel, EI-415, thermal stability.. carbide, ferrite, austenitization TRWISDITION: The kinetics of the decomposition of supercooled austenite (A) or steel ZI-1,15, with composition (in Q: G 0.19, Si 0.21, P 0.006 1 0.24, Cr 2.47j, W1 0.42, 0.51, V 0.7, was investigated by.the methods of mAcrostructural, =-Lnzet-ic and dilatometric analyses (under isothermal conditions and edth con- tinuou3 coolina). -@he characber of the structural components w*as. studied, and the racrohardness 6f'the decomposition products was measures. The influence of the character of the,structure on the thermal stability of the steel was also iiivestigateds. The'@iesence of.two stages of the decomposition of A, separated 6rd  L 19305-63 V;" ACCESSION IIR: 04 07 a temperature intetnial of relative stabilitr of A, -was established. The relatively low. C conont and the character of the alloying of the steel are responsible for the unique mechanism of the decomposition of k according t@ the e 82G-6259)': the mechanism of decomposition first degree typ emperature range of A into a f arrite-carbide mAxture not eulbe6toidally, but by the f ormation o A. supersaturated ferrite, followed by the deposition of carbides-Oom it, Proved Pdnaltically- more favorable. Rates of cooling 3250 deg/@hr are'recuircd.to mpo@ition of A acdording suppresi the deco. to the first degree type. Decompoxi- tion oil A according to a second degred type,be ins at 4650 and reaches a miximum c pleteness at. 300C. (degree of conversion 8;%50 Increasing the temperature of ova austenitizetion from 960 to 1020C somewhat increases the stability of A in the first degree temperature region and exerts no noticeable influence on the Idaet- ics of the conversioA at the second degree temperatures. Steel with an initial structure of supersaturated ferrite ioossesses a minim= creep resistance; steel with a beinite initiil structure pos;esses a maximum. The thermal stability of Steel Ath a mixed structure can be ext tremely varied, depending:orx the &zzanti- tative ratio and mu arrangement of the products of. the first and second- t4al degree decomposition of A. A. Nefedov. DATE ACQ: 12Aug 63'. AB CODE: M &NCL: 00 Card 2/2  MOLCHMVkV lap. PartidipoCtion of students of the Institute of Fdrextr)r in the revolutionary movement during the years of the new rmluticnaa ary uprourge. Nauch.trudy LTA, no.95tl27-137 t6l. (MIU 16t2) (Leuingrad-Ztudents) (Leningrad--History)  ACCESSION NR.- AT4042637 S/31%/"A00A05/0048/0054 AUTHOR: fteynberg, M.3LJ, (Di2ctor of TechnicAl Sciences)l Malchanavas I* Pop (Engineer) TITLE: Effect of noodymimn on. the breakdown of undercooled grade 25EhlMF austeftits steel SOURCE: UrallslOyn2aahinostroitellny*yzavod. Sverdlovsk. Kauchno-fasledovatelloldy insfatuttyazhelogomashinostrayen.Lya. Profzvodstvokrupqy*khmPszhfn, no. 6, 1964. Metallovedenlys I termicheskaya obrabodra. (Metallography and h@at treatment)-, aboralk statey, 48-54 TOPIC TAGS: neocbgnium, neodymium alloy, steel undercooling, austenite transformation, austeafte breakdown, alloy steel, 25KhlMF steel ex, ABSTRACT: Rare earth metals are being ever more w1ddy used In metallurgy sin.ce they affect the structure and properties of fron-carboa alloys. - The published inforniatfoa. haw- ever, considars mainly maater alloys contaInIng aerium a@d similar rare earth elements. The Present investigation is concerned with the effect of neodymIum on the breaklown. of Card 1/3  undercooled, austanitic, grade 25MIMF steel (R2 ated) used for ateam turbinexotors. X., Samples were preWed with 0. 05, 0. 10, 0. 15 and 0. 20% neodymium. added to.the steel. the samples were homogenized, normalized and tempeko& Austenitic transformatioa was studied both under Isothermal conditions and under a constant cooli% rate. - The austenite structure was exumined by the structural and magnetic particle inspection methods under hio.thermal conditions and by dilatometry atconstant cooling rates. The. cooling temperature interval for the afructural method was between 775 and 300C. Beginning at 5500 and lower; the magnetic davicedesfgned by D. S. SELteynberg was used. The "Chevenar" dilatometer was used for Investigating austenitic; transformatioa under constant Cooling rates of about 18000yer ind 800, 406,'300, 250 and 100C per hour in lurnaCe. -0. 15* neodymium Increases austenite stability a The authors found that 0. to significantly during the first stage of transformation. A further increase In the aebdiinfu= content (up to 0. 25%) does naC&ect the. kinetics of M4 process. Allaying with -slight IncreaseAnAlis first atgge temperatur (250). -.The effect qf odymium leads t6 a. 0 Card  ACCESSION HR.- AT40G63t neodymium during the second stage Is Insignificant- Additiott of neodymium. as aa a-Ilo, to steel improves the balate annealing.propertiep, &Uqwing the zone depth free of excess ferrite to be Increased significantly in. IMs seationa, thus Ltaproving the heat realg- t9ace of the steel. OrIg. arL has: 6 gra@hs, and t table. ASSOCUT10116 INauchno--Issledo;Mtelfskjy institut tya&8lbgO rnq hfn stroyealya. Uriatskly* m2 hinoatroltalIny*y zavod, .9yerdlovsk (EWentifte Research Institute for Heavy Kwhine Building, Urals Machine Desigm Plant) SUMMED: 00 EXCL: .00 SUR CODE: MM NO REF BOV.- 002 OTHER. 000' Card 3/3  KM,ONIKL. G.I.; KOLCHLUOTAL I.T-.,- SUBBOTIRL. re.K.: TIMOYAYW-40SOVSKIr LT.'; TITMBDYA, A.A.; TrUMMMOT. A.M. Axperimental iweetigation of radioisotope distribution in no;tuml biageocoenoses. DokI.AN SSSR 133 no.2:484-487 J1 160. (KM 13'.7) (Radioactive substances) (rorest ecologr)  MKHONIA, G. I. - MOLCH"OVA, Ij .a Prinimali uchastiyet TITLYANOVA, A.A.; Investigating the behavior of,very smajl quantities of iron and zinc in soils. ITauch. dokI. vys. shkoly; biol. n-gl'H ro.4:218-225 @61. (141RA 24:11) 1. Rekomendovanm--kafedroy pochvavedeniya Moskovskogo gasudarstvennogo universiteta im.-M' " nosova. (,C,I,,--I,O, CROTTMOM) (SOILS-ZI,NC CONTENT)  AGRE) A.L.; 1,10WHANOVA, I. V.; N.V. ,@If-purif'icatlor. of water "rom cestum-137 in bodie3 Of' Wat6r with slow circulation at dilTerent speeds and volturie of water 1) and cesium concentration. filul. 110I' . Otd. bLol. 69 no. 3-, 20-21, My-Je 164. (141161 170)  1h889-66 AQ(@ NF9-kF6026573 SOURCE CODE: UR/0186/65/0()7/006/0687/0692 AUTIHOR: MmIchanova, 1. V.; Titlyanova, A. A. ORG: none: TITIS: Behavior of micro-quantities of yttrium and cerium in soil SOURCE: Radinkhimiya, v. 7,, no. 6, 1965, 687-692 TOPIC TAGS: yttrium, cerium, soil chemistry, sorptiont colloid chemistry, adsorption ABSTRACT: Sorption of micro-quantities of yttrium by soil: is practica23,y complete within a broad range of solution pff and yttriun concentration. ,,When hy&olyzable elements (Al and Fe) are present in s6lution, yttrium :Sorption drops off in the weakly acidic and neutral region, which is :,probably due to the formation of negatively charged yttriurm colloids. The .50 , rption of micro-quantities of cGrium by soil depends on the ceriurt :concentration, the solution pH, and the presence of h@rdrol,7zable elements in 'i the - solution. In the alkaline range, cerium sorption drops aft with an 'increaca In cerium concentratAon, and also when iron and alundnf= are preaent in the solution. This is evidently associated with,the formation of negatively free or adsorbed cerium colloids., Orig. art. has: 3 figures and 3 tables- 1JPRS: 36,4551 SUB CODE: 07t 06 / SUBM DATE: 2-3JUn64 / ORIG REF: 006 / GTH REF: 002  HARANOVI, V.I.; PAVLOTSKATA, F.I.; FEDOSEYEVp G.A.; TYURYUKAHOVA, E.B.; RODIONOVA,, 11J.H.; BABEREVAt Ye.V.; ZATSEPINA, L.N.; VOSTOOVA, T.A.; Prinimali uchastiye: YEIAELIYAHOV, V.V.; BELYAYEVA, L.I.; IMINA, N.I.; Distribution of Sr9O an the surface horizon of soils of the Soviet Union during 1959-1960. Atom. energ. 18 no.3:246-250 Mr 165. (MIRA 18:3)  TFA 34/49-,75 Me d ino Pwiicillln', merapy .''."Treatment of Acute Purulent Maxillitis With Peni- oillin,"'K. A. Molchano-va, Chair of Kaxillary Burg, Seconcl Moscov 'Med. That imeni, 1. T. Stalin, 41 pp *Stomatologiye No 3 Jkterial on. 50 cases. Describ5s nine in detail. amicluaes that -.penicillin is an effective a@lie`ry' therapeutic mdim in treating acute - purulent in-, flammator7 precesseff of the face, neck, an& jaw$. 34/49T75  MOLCWOVA.% K. As Ch. I%xilla Surgery,, 2nd Moscow Ned. Instj Im. 1. V. StaLin, -Clc/48-49-. "Treatment of Acute Purulent KwcLUitis with Penicillin," Stomatologiya, No. 3, 1948; Pathogenesis and Clinical Aspects of Lymphadenites of the Mandibular Region," ibid., No. 1, 1949.  KOLOMOTA, K. A. Use of penicillin in treatment of osteourelitis of the jaws. Khirmrgifa, Moskva Nd*12:39-43 Dec 50. (orn zo:5) 1. Of.the DeWtmeat of Mxillaz7 Surgerr (Head--Prof.IA, StaroblnakV), Sotcon& goncow Radical Twtitute imeni I#T. Stalin, IL  MCLOW, OVA, K.. A..-, Physician-- - @ (-erpf4 IJL&Pj ra I Set "Morphological Changes in the Tissues of the Teeth aM Amphodcata During Hypertonic niness, Rheumtism and Lingei-ing Septic'Endocarditis." Sub 8 Cct 51, Second Moscow State Medical Inst Imeni 1. V. Stalin. Dissertations presented for science and engineering degreas In Moscow during 1951. SO: Sum. No. 480, 9 MAY 55,  FOLGIM07k, K., k. Teeth - Diseases Morphological changes in the dental tissues and periodeatium in hypertension. Stomatologii Ma. 3, 1952* Moathly-Li*_t of Russiga Accessio Library of Uongress, December 1952- Unclassified.  14OLCHUOYA, X.A., (Lotseat %,1 10-- Use of antibiotics in treating acute inflaw tory processes of jaw aad adjacent soft tissues. Stomatoloelia, 35 no.1:34-38 Ta-71 56. (KM 9:6) 1. Iz gaspitallaoy khirmrgichaskoy klialki (zarectuyuahchl;T professor L.Y.Gulyayev) pediatricheskogo fakuleteta, It Kaskovskogo gasudar- stvannogo, meditsiaskogo instituta iment E.T.Stalina. (J,LWS--DISVAM) (ANTIBIOTICS)  DFiLCHMOVA, K. A.: Master Med Sci (diss) -- 'The conservative treatment and prophylaxis of scoliosis in children of school age". Novosibirsk, 1958. 12 pp (Novosibirsk State tied Inst), 250 copies (KL, No 6, 1959, 145)  KOLCHOOTA, X.A., d Use of intrawsal, navocaine block in the treatment of inflamm- tory processeg of the maxillofacial region. Stamstal-agiia 38 no.3:54-57 KpJe 159. (KIRA 12:8) 1. Is stomatologicheskoy kliniki (sav. - prof JF-K-Khitrov) It Mookovskago, meditsinskoga iustitmta imeni, 11.1.pingava (dir. - prof GoT.Kerbikav). (NOVOGAIIM) (FACI-DISEA S)  MOLCHAKOVA, K.A., dotsent Necrotic processez in-t-he ore2 cavity in chronic cardiovascular insufficiency. Stamatologiia 40 no.2t3-3-39 Ur-Ap 161. (KM W-5) 1. Iz kurae stou@xtologii (zav. - prof. F.H.Khitrov) II Magkovskago meditainakogo instituta imeni IT.I.Pirogova (direktor - doisent M.G.Sirotkina). (MRT FAILUM) (MOUTH-ULCM) (NECROSIS)  MOILWOVA, K.A., dotsent (Mosl-va, TSvetnoy bullvar d. 9, kv. 32.) Correction of gaping dellects of the phary-r-geal wall a---d cervical segm-e-mr, of the esophagus using the tissues surrounding the defect. Vest. khir. 91 no.11:30-32 t63. (MIRA 17@-22) 1. Iz stomatologicheskoy kliniki (zav. - dotsent K.A.Molchanova) 2-go Moskovskago meditainakogo instituta imeni U.I.Pirogova.  SAVCHENKOV Ye.D.; MLCRANOVA,,K.A,.. Pathomorphological basis for restoratiye operations folloving a compound treatment of cancer of the lavynx. Ked. rad. 10 no.ll-. 20-27 R 165. (MIRA 19: 1) 1. Patemorfologichaskir otdel (zav. - dotsent Ye.D. Savchenko) Gosudarstvennogo nauchno-issledovatellskogo rentgeno-radiologicheskago institute Kinisterstva zdravookhrananiya RSFSR I. stomatologicheakaya klinika (zav. - dotsent K.A. Kolchanova) Il Moskovskogo meditsinskogo, instituta Imeni N.I. Pirogova. Subuitted March 3, 1965.  UZAK, V.I-.'.; Effect of the arCle cf p4ti-I f - i of a ser-im cm the nize G" -- action surface of combustion in thin coal seams. Trudy VvIlliPod- w.mgaza no.1-0:57-67 164. (@IIITL?i lV)j 1. Labora:Z@ily-- gornogeologicheskay-a V,-qasoyuznago nauchno- 0 issledovate-l'skogo instituta pcdzemmoy gaziNkatsii ugley.  @GARBZR, I.S.; MOLCHMOVAP F.P. Selection of an expedient not of prospecting holes in exploita- tion prospecting under conditions present at the enskiT underground gasification station. Nauch. trudy VNIIFbdzemaaza no.Et:27-34 162. (MIRA 16t6) 1. Toesoyuznyy nauelmo-Assledovatel'skiy marksheyderskiy insti- tut i Veesoyuznyy nauchno-issledovatellskiy institut podzemnoy gazifikatsii uglev. (Donato Basin-Coal Lyasification, Underground) TB-oring)  PAVMT. ff@K.;KOWHWOTA., L.A Damages of the visual organs in children in rheumatism. Test. aft.. Kbakva. 32 no.4:1.4-21 -TVIT-Aug 1953. (GUM, 25: 1) 1. Professor for PaTlov; Departmental Physician for Kolchanova. 2, Of the Glinic for Eya Diseases of Stavropolt Medical Institmte.  - KOLOHAVOTA. - D.A. - fortian nalarts; with prolongs& incubation In Turkmenlas Ned, parsz, I paras. biol. no.4052-353 o-D 154. (MML a: 21 L Is lastituta malyaril I, maditsinskoy parasitologii Kiniaterstya sdravookhrananiya Turkmanskoy .SSE (dir.jnatituta 1otsent G.A.Pravikov) (MARIA, spideziologT, In Russia, tertian. malaria with prolonged Incubation period)  KOLCHA11011A L.G. 3ffect of heat treatment occurring during the welding process an properties off the weld metal. mde with uEre of law-alloT electrodes. Svarka I.-49-6o 158. NIRA 12:8) (Electric welding) (Weldin&--Testing) (Ketalloopranhy)  KOLCH"OVA, L.G., kELnd.tekhn.n&uk-, POGORELISTATA, K.Z.-, SHTATOV. Yu.I.r, inz4. Iffect of tempering on the properties of welded joints in ahromiurr-mal,vbdonurj--vanadium steel. SvarkEL 1:61-72 '58. OURA 12: 8) (Chromium-malybdenum steel-Ifelding) (Ghromium-vanadium steel-Welding) (Tempering)  MOLM"OU, L.G., kana.tekhn.nauk ... -- 7&ct of the structural shape of velAed. loints on their strength. Svar)aL l*.U5-IZ5 t5g. (KIRA 12:8) (Steel, Stritatural-Welding) (VeldIn,-,-Taatjng)  MOLCUMOVA,. L.G kand.tekhn.nauk; FOGORELISKAYA, K.Z., kand.tekhnnaukf SrUffdV: 11 Yu. I. , U,'zh. Effect of subjecting it to long intervals of high temperatures on the brittleness of welded chromium-molybdemm-vanadium steel* Svarka 2:110-120 159. (HPA 14:5) (Chromium-malybdemm steel-Velding) (Metals at high temperatures)  LAY,BNIK, VS. (Lizabnyk, V,V,); MOL."HA;1OVA, 1J.P. ------ 1-1--@ Spectroscopic method for dct-;rmining f"erric oxide in sand. Leh. prom. no.1:63-65 Ja-Mr 165. (MIRA 18-4)  MOLCHANOV I L A _ @V @- Effect of antithrombin VI lintraverious introduction an the blood coa&-laltion system in reus, Vop, med. khim, 0 no.A.., 3-20-37 Ja-;-g '63. (KMA 176) 1. Laboratoriya fiziologii i biokbimii avertyvaniya krovi biologo-pochvennogo fakullteta Moskovskogo gosudarstvennogo universiteta.  ACCESSION MR: AP4040687 S/0129164/000/006/0012/0015 AUTHOR: Nagorskaya, No D.; Itolchanova,, L, _V. ; Rayevskaya, H. V. Novoselova, A. V.; Fridlyander, 1, No; Yatsenkoo, K. P.; Rogova. Le Kof TITLEt Crystallization in the Be-Nb system SOURCE: Metallovedeniye i term'icheskaya obrabotka metallovi no. 6, 1964, 12-15, and insert facing p. 25 TOPIC TAGS*. beryllium niobium system, beryllium niobium alloyo. alloy@ crystallization, alloy structure, alloy phase composition, &711oy Wardness, niabLum beryllide, nLobium berylltum solubility ABSTRACT: Investigation of alloys of the Be-"16 system containing up -Nb showed the existence of three phasest the beryllium base 1 to 53% a-phase, the Nb-Bel, compound y-phase, and the NbBeI7 compoun.d 6- phaie, In the alloys contaLning up to 46% Hb, the a- and y-phases, form a eutectic with a very limited amount of the latter phase., The Vickers hardness of the alloy annealed at 850C for 14 days and-water quenched increases from 1XI at' 0*7%' niobium to 1108 at 59% niobiumd Card  ACCESSION HR: AP4040687 The cast alloy had roughly the same hardness as alloys annealed for 29 days. The Vickers-hardness of individual phases (antiealed and water quenched) was found to be 110 for the a-phase* 160 f 'or the eutectic, 480 for'the y-phase, and 1060 for the 6-phase. The solid state solubility of niobium in be,ryllium is low. A considerable amount of NbBelz was found in an alloy containing as little as 0.7% HI The eutectic of the a- and Y-phases co'ntains 2.5% Hb. The eutectic temperature is close to the melting temperature of pure beryllium. Alloys of the eutectic.and hypoeutectic compositions have a fine structure, but at a certain amount of primary formations Q.f inter- metallic compounds, the fine structure di.sappears. In hypereutectL alloys the structures of the uppe.r and lover parts of are ingots different due to segregation. Orig. art. has x 3 figures and 2 tables. ASSOCIATION: none SU BHITTE.Dt 00 ATD PRESSt 3051 ENCL: .00 SUB CODEs NO REV SOVt 004 OTHERt 006 'Card '2/2  KUDRYASHOV, B.A.; MOLCHANOVA, L.V.; RAZAVIAN, G.G. , -, .. . .. I . .: @ , I @ @ Fibrin-stab4lizIng faCtor in various functicaal. states of tLe physiologicAl anticoagulation system. Vop.med.khim. 11 no.6:77.- 79 N-D t65, (MRU 18:12) 1. Laboratoriya fi,ziologii i biokbimli svertyvanlyl@ krovi pri. katedre fiziologil oftelovelea i zhivotnykh Moskovokogo univeral- tata. Submitted April 21,, 1965.  KUDRrAS B.A., 1Vj9H&NQYA,-L.Vj BAZAZ trANO, G.G.; KALISHEVSKAYA, T.K.; ITTINLY N.P. Preventive action of antithrombin V1 in experimental thrombo- genesis. Vop.med.khim. 9 no.1:69-72 Ja-F c62. (KIRA 15:11) 1. Laboratoriya fiziologii i biakhimii avertyvaniya krovi kafedry. biokhimii zhivotnykh biolop-pochvenriogo fakullteta Kbilwvskogo gosudarstvennago universiteta imeni Lomonosova, Moskva. (THROMBOSIS) (ARrICOAGULANTS (MEDICIIIE))