SCIENTIFIC ABSTRACT MOLODTSOV, G. V. - MOLODYAN, I. P.

 I-ODTS o 61- TODUF, G.G.; SETMOT, L-X-; DIDENKO, T.Ye.; IFILIPPOT, B.S.; TSAW, N.H.; ZASHVARL, T.G.; LITYMMO, K,S.;KM7XW, K.P.; LGAWT, K.I.; RUBIJr, P.G.; SAPOUNIEW, L.K.; T YUNRI DMITRIM, X.K.; LEYTJMf T.A.; LMUMRI B.Z.; KEDVNW, S.K.; MUM, L.A.; TAIGHER,K.K.; TSOGLIN, )(A.; MORIN, S.S.; RAX, A.I.; OBUKHOY- SKIT, @Ys..K.; KOTMA.K.; ARONOT, S.G.; VOLOSHIN, L.I.; VIROZM, TO.T.; MAUS, SA.; GINSBURG, Yaje.; KOLUNDRf L.Tla.; BEMSUYA., KUSHRUNIGH, I.R.; BRMTICH, A-I.; NO-SAUTICH, I.K.; SHTROMBBRG, B.I.,- KIROSHRIGHWO, A.K.; KOPSLIOVICEL. T.K.; TOPORK07, V.T&.; AlOSIM. K.B.; GOFTK&M, K.T.; RKE&MO, D.P.; ITAMOV, Te.B.; EMAMOM, I.E.; EDIAKOV, R.K.; IZWLIT, I.K.; KUM, I.S.; UFTLK, S.I.; CREWYKE, K.S.; SHUMO, A.I.; KffALA UURI, G.S.; SYM, P.Te., GARAT, L.I.; SqMCSON. L.S. Boris losifovich l(ustov, obituary. Xoks i khim. no-2:64 '55-(KLU 9:3) (Kustov, Boris losifovich, 1910-1955)  KOLOI)TS.Ort 1. @Xper=enca in extinguishing fires of petroleum products bystirrill, PoFh.delo. 3 no.8-.Il+ Ag 157. (XLRL 10--a I.Rachallnile poxharnoy komancly, Varo-yominsk, (ratroleum industry-Fires 4n& fire prevention)  _4 A 7 j AUTIHORS.-Kozyrev, Vr.P@._f Moloatsov,LCr .Peysakhzon.- r.B@r68@5-6/14 Podzolkorr, L_KE.. and, Florinskin, lGr. TITLE: On the paper by- Y.Z. Lerner @On_ changes of the composition of coke oven department in order to increase considerably the number of ovens in a batteryw'.- (K statl e R@.Z.Lerner& MOb izmenenii kompGnovki koksovogo, tsekha 4@a znachitelf nogo uvelicheniya chisla pechey r betareye".) PERIODICAL: ITKoks i Khimiyall @(Cake and Chemistry)t. *1957, No'.5, '23-3- .19, 3.11, P& T-M P ABSTRACT: In the original papers L'.Z. Lerner proposed. some changes in the composition of the coke oven department in order to increase the--.n=bex of ovens in one battery to 100' Ser- vicing, of such a battery would, be carried, out by GL set of coke oven machines. According to Lerner the proposed, Composition of ttLL- coke oven department: 4 batteries of 100 ovens each in comparison with the standard. composition (65 ovens per battery) has the following alvantages:@- the number of personnel-req:uired. will renain the same as for the standarcl, battery but the labour productivity 'Will in.- crease by 64@.2% and, the capital expenditure will be 10-12% lower. Th.-- present authors consider that the advantages card 1/2 Lerner expects are unfounde(i. To prove this point the,  On the. paper by !.Z@, Lerner "On changes of the composition of coke oven department in order to increase considerably the =mber of ovens in a batteryKt . (Cont'. 68-5-6/14 authors quote-labour requirements f6r the often practised separation of 2 batteries with 90-110 ovens into an inde- pendent unit - (Table'.1) and compare them with those stated by Lerner (Table 2). A similar comparison for tbLe l4bour productivity -of main coke oven craftsmen for 78-110 oven units and 61-m69 units is-given in Table 2'. Very approxi- mate calculations indicated thatthe capital expenditure will remain the- samt-.. The editorial office commini cates, that Lernerts paper was discassClAuxing-a special session of Glavk6ke with the participation of Giprokoki, In view of-the'division of opinion Giprokoks was requested to de- sign a coke- oven department according to L(mnert s proposals and to prepare a technical-economical comparison with the usual design..' - The final decision on the problem will be published in this journaf. There are 3 table4 ASSOCIATION: Giprokoki. p. d "Y AVAILABU: I" Card 2/2  SOV/68-59-4-15/23 AUTHORS: Molodtoov, I.G. and Raskin, B.A. TITLE. al rnyes in- the Coking Iniustry of the USSR (Kapitallnyye vlozheniya. v koksokhiud icheslaiyu promyshlennost, SSSR) PERIODICAL:Koks i Khm-1ya, 1959, Ur 4,P PP 49-5.75 (USSR) ABSTRACT: Capital rinvestmats . for the coking industry during the individual periods of the Soviet rule is outlined (data given in table 1). The distributioa of capital :Layestm6nte - according to the industrial regions is given in table 2, the distribution of the number of coking works according to the size of their output in table 3 (in 1930 and 1955) and dynaiaics of increase in labour pvcductivity during the period 1940-1955 in table 4. Changes in the value of the total production 'per ton of coal blend for 1930 and 1955 and changes in the structure of the output for the! same period are given in tables 5 and 6 respeetively. Changes in the specific capital invesizi6nta per 1000 roubles of the value of production during 1931-1955 are shown in table 7. It is pointed out that the duration of the Card 1/2 construction of coking works increased by about 10 months  c:01"/68-59-4-15/23 Capital avestmats the Coking Industry of the, uSSR considering that normal duration of tAe construction of a 4 battery works should not exceed LO months. This results in a,consistant lagging behiai in constructional work, an increase in aon-operating cagital ixLvexjaj6ntg (table 8) and loss of production. Thire are 8 tables. ASSOOIATION: Giprokoks Card 2/2   AUTHO R: Molodtsov*, I. V. SOV/30-58-9-48/ 51- TITLE: Tasks of Library 6ataloguing (Zadachi bibliotechnoy klassi- fikataii) Scientific Conference in Leningrad (Hauchnaya konferentsiya v Leningrade) PERIODICAL: Vestnik Akademii nauk SESSR, 1958t. lfr.9, PP- 122 - 123 (USSR) ABSTRACT: The conference took place from April 24 to April 26 in the Library of the AS USSR. Research work in this field has been and will further be carried out by the Ysesoyuznaya knizhnaya. palata, (All-Union Library)t Gosudarstwenraya biblioteka, ia. .Y.I.Lenina, (State Library imeni V.I.Lenin), Gosudarstvennaya; biblioteke im.M.Ye.Saltykova-Shchedrina (State Library imeni M.Ye.Saltykov-Shchedrin) and many other libraries. Scientific cooperators of the institutes and libraries of the AS USSR participated in the conference as well as cooperators of the Academies of Sciences of the Ukraine, Belorussia, Kazakhstan, Turkmenistan, Latvia, Lithuania, Azerbaydzhan. The following reports were heard: _L..L9ajqdtsoy spoke about the fundamertala of classification. V.11.Voronov on the fundamentals of the methods of classifi- Card 1/3 cation.  Taaks of Library Cat4loguing. Scientific Conference in Leningrad Card 2/3 SOV/3o-56-9-48/',-). I.G.Liorentsevich recommended to classify separately the problema of social life. L.I.Morozova reported on problems concerning the classi- fication of the history of economics. Y.A.Dinaburg.spoke about the systematization of chemical publications. N.I.Kats about the basis of classification of the history of the KPSS. T.I.Skripkina spoke about ["he establishment of systematic library catalogues. V.M.DukelIsk.iy about the classification of physical publications. V.P.Barzakovskiy disapproved of the including of chemistry in physical and mathematical sciences. A.A.Panov dealt with the prospects of mechanization and automation of the working process in libraries. B.Yu.Eydellman approved of the order of classification from inorganic to organic nature. Ye.I.Shamurin, E.N.Ambartsumyan stated that the- interruption of the natural order of sciences from mechanics to bi-ologi  Tasks of Library Cataloguing. Scientific Conference SOT/30-5a-5-48/5L in Leningrad by technics is unjustified. laGvKhandzhayan emphasized that at the beginning of claaai- fization not only Dialectic Haterialism but also Marxism- Leninism as a whole should be placed, Card 3/3  KSANMFM, Ta.F.; WTLTAP,-,Klr. D.I.; rGYATOTI. T.A.; AIKINL, K.Kh.; inth.; SMIMVV,, ru.A.i inzh.; XMTSIMA, T.I., inzft,@; IdXATOYA, H.T., inzh; KIRSAWT, A.I., elaktromakhanik; HDIOD-TSDT, N.A., inzh.; RCMIKD. G.T. Discussion of two articles mStamping apparatus for signaling. central control ancl balck systems.m and 'Periods for testing relays used in signaling, cantral control and Uack systems.' AvtGm., telem, I. aviaz' no42:35-36 D 157. (MIRL 10:12) 1.1rachallnik Adzhikabullgkoy distanteii sigiializataii I avyazi Azer@ @aydzhanskoydorogi (for Isantopulo). 2.Starahir elelctromekhanilc KoskGvekoy- distantaii signalizataii i avyazi OktVabrTskGT dorogi (for lCotlyarskiy-). 3.Ayaguzs)mqadistanisiyv. si 'alizataii i avyazi Turke- gn stano-Sibirskoy-doragi-(for Alkina, Smirnor, Xunits7na, Igmatova). 1+.Zaveduyushchi)r postom diapetcher'sko7 teentralizataii Ayag=zkor di4tantsii signalizateii, i avyazi, Turkestano-Sibirskol, dorogi (for Ignatov). 5.Krasnolimanskaya, distantsi7a. signalizataii i"svyazi Donetakor dorogi (for Xirsanov). 6.Kookovska7m distantaira signali- zataii i avyazi Gortkovskor dorogi (for I@olocttsav)- 7.Zameatitelg nachallnikEL sluztLbT signalizataii i sv7az'j. Orenburgskay dorogi (for Rodlko). (Railroads-Signalinc)  KOLODTSGT, KA. ----Bxtand the life exPectanc,7 Of signal I'l-ght lamps. Ivtom., telemi eviast 4 no.2:44 F '60. (KML 13:6) t. Starsh@y inzhanar otdola kovtroI'uo-izmeriteI'uykh priboroy Koakovsko-Gorikovskoy dUstantaii signalizateii i evyazi Koskov- skoy dorogi.. (kilroada-Sigualing) (Railroada-Alactric a(Luipmont)   KROZOV.T.T.; KOLCDTS07,X.K. WWWOMM&Mr- Pneumatic equipment designed for loading charcoal into freight cars. Gidroliz. i lesokhim. prom. 8 no.2:20-21 '55. (KTRA 8:101 1. Sys;vskiy Isaokhimicheakir kombinat (Charcoal-Transport&tion)  MOLODTSOV, NaK. of,ftbi'ne6d turpentim production. Gidroliz. leaokb#4 prcvi@ 14 W.6.,19-a f6l. -Vakhtanskiy kanifoltho-ekstraktsionayy Z&VOd. (Vaklitan-Guma and resitt) (Vakhtan-Turpentine industry-Equipment and supplies)  500) SOV /7 !@--29-7- j d , I., AUTHORS; Kochetkov, Is. K., Nifantfyev, E.Ye.., X"olodtSOV-1..'@V, .1 ..... .................. TITLEt Bromination, oz. Ketoacetals(promi-rovaniye P-ke toats,-- taley) PERIODICLL: Zhurnal obshchey khimii, 19159, Vol 29, Pr 7, pp 2330-2337 (USSR) PSTRAOT: Hitherto the easily aocensibla P-ketoaaetals RQQCH'CII(OIv)2 Q vere used either aa potential @-dioarboi-,,Yl compounds (-Ref s 1, 4), seeing they resemble the vinylke tones in their reactions or as ketones, having another reactivet substlituent. A. thirl possibility, i.e. that of introduaing substituents into the central methylene group of-the ketoacetal-I has so far been diaregardedy even thcu,@;h the resulting compounds could be utilized for synthesis in various directions (Ref 8). As first reaction of thiL a kilnd- the hitharto unlkncyrn bromination of the Card 1/2 ketoacetals was undertaken. Thus, tyro methods uere elaboratel, one for the synthesis of cc-bromo- P-k-etoaIdehydes by bromination of P-ketoaldehydes inaquelous solution in the presence of barium carbonate, and another for the preparation of ethylene aGetals of OC-bromo- P -katoaldehydes by bromina-.1-on of the ,ethylene aceta-I 5 of -k,@@toaldehydss in ether in the presence of barium carbonate. By conlensation of oc-bromo-@-ketoaldehydes  Bromination of P-Ketoacetais 8 S07/79-29-7-49/-.1 ''with urea, the 2-amjru)-q-acyIox-r-xoles Trere ijbtairzed; on. condensing Tjj@h.thiourea ani th-ioamides of acils 2-aubstituted 5-acylthiazoles were formed. Thusr it was demonstrated, that the oi-,-bromo-@-katoaldehides react simf..'arly to OC-brozoaldehydes in the reaotions under irnrestigation . On treating et-hyle-n,* a--etals 'of a -bromo- @ -ketcaldehydes vith @-naphthol in the presence of iron chloride and hyirochloric acid 2-alkyl-3-broma- naphtho-(1f2;51j61)-pyryl'salts Trere formed. Table I shows the synthesis of the or,-bromo- @-ketoaldehydes: D R-CQ-CHBr C and table 2 the synthesis of the ethylene oMo- RA- acetals of oC-br jetoaldehyles; 0 CH,2 R - 00 CHBr CH I - CH9 There are 2 tables and 15 references, 6 of which are Soviet. LSSOCILTION: Moskovskiy gosudarstvennyy -,iniversitet (ffoacov State University) SUBMITTED: Ju-ne 5, 1958 Card 2/2  L@00 6795L A-W BOV/20-130-1-26/69 AUTHORSt Nifantlyer', E. Yee Molodtoov, N. TV Kudryashov'@ Ls If# Kochetkor, ff. K. TITLEt Ethylene Acetals@ of cc-Bromaroylacetaldehydes an& Their Transformations FERIODIGALt Doklady.Akademii nauk sm, ig6o, Vol 130, Kr 1, PP 94-97 (USSR) ABSTRLM The authors wantei-to synthesize -ketoazetala with functional groupIain the Moltioule -For this purpose,.they investigated the exchange reaction. of t@e bromine atom in the cv-, -bromo- fl -keto- azetald RGO-CHBr-CH(ORT),,the synthesis method, of which they had. vorked.out recently (Ref-2). a@-Bromo-substituted ethylene acetals*of the aromatio series-ArCOCHBrCH(OCH.). were best suited-Buch,cowipounds were.produced, by bromination. of the ethylene acetalls,',of aroylacetaldehydes (see Scheme)@. The 4 In. ethereal bromination.-w a achAtived either- by 'I)romine action solution-in the,preq.ence of barium carbonate (Ref 2) or by bromosu(~oini;aid6.1~Tile'products obtained and mentione& in the tit1e.%ike-6t4b'La, crystalline substances. Their bromine atom is quite readily:exchangea'by'interao n with salts of some mineral Card 1/3 acids. Thus, -corresponding a(-s%ibst:ILtuteI ethylene acatals, of  Acets;le of and SOV'/20-130-1-26/69, Their Transformations aroylacetaUehydes; (see Scheme) are ftrmal@ namely 0@-iodine- and OC -thioayanogen-substitute& athylone aoetals. k little more difficult is the substitution of bromine by the nitro group while c@'-nitro-fl -katoaoetal is formed. Thot above compounds represent a valuable.initial material.for the synthesis of some h&rdly accessible substances such aa@4-lbenzoyl-2-oxythiazol. The interaction of brominatei ketaacetalu with me.reaptanes proceeds smoothly. The reaction of tha-:ethylene adetal of 0(,-br0mobenzoyl&cetaldehy4& with aodiumbenzy1meroaptide. in @zathanol -16tal@Pfcx-benzy1thiobenzoyl- -produces the ethylene a acetaldshyde (see scheM62 Fig I t I - Ibe U7 speatran). The same differently with acdium.phenolate, No pure compound could,be isolated from the resulting comilex mixture by tht-reaction. ime, reaction in .4n acetone. On the atherhandp the s methanol yie-lde&,& crystalline substatce the analysis of which to the /J.-phenoxir-/3..metboxy-ae-oxy-Hydrocinnamic. ildehycle Its UT speotnm - (Fig 1 t II) .'prove a the missing bensoyl group: and. confirms th struattxe mentioned. It seems that- the- reaction with sodium phanolate.proceeds via a transient oc-oxide Gird 2/3 (similar to reactions described by T. 1. Temnikova, Ref 5, set Sdwmel  EthrIene Ac.etals of ocr-BromaroyladetIaldshydes and SOV/20-130-1-26/69 Their Transformations The interaction of bromokqtoacetals with amines i@ complic&ted by the fact that besidAs,-the exchangei of the bromine atom the a etal group enterI9-the reaction. q:hus the phenyl-o@,P- di-4-'@ipariaylvinylketoni develops in ei, high yield from the. ethylene acetal.of the 06-bromobenzoyleaetaldehyde and piperidine (UT spectrum# Fig 1 t IT). TeLble *1 showd the constants and yields Qf Lthe substances produced,, There are 1 figuref. -1 tablo, an& 7 referencea,:5-of'which i@re Soviet, ASSOCIATION& Mookovskiy gasudarstvelanyy univeraitet im. No.T. LamonosGva (Kos c@ow@ State 'University imeni K. V. Loixonosay) PRESENTEDs June 1959? by A.R. Resmeyanor,16ademician SUBMITTEN. June 6,, 1959@ Ca@rd 3/3     MOLODTSOV, N.Y.; KCGHETKOV, M.K.; DERKVITSKffAp V.A. Glycopeptideal Fart 6t Further develoPment of the synthesis of N-aminoacyl derimtives of amino sugars. rzy. AM SSSR. Ser. kh" no.12:2165-2172 D 163. (KMA 17: 1) .1. Institut kbimli. prirodnykh soyedineniy* AN SSM.  DEREVITSKAYA, V. A.1 MOIDDTSOV, N,.V,; KOCIHETKOV, K. K. Glycapor.11-ides. Report go, St Synthesis of X-galacturowylpl-iine. Izv AN SSSR Ser Khim no. 4t6?7-680 AP 164. (MIRA 17-.5) Inatitut khimii prirodnfkh soyedineniy AM SSSR.  9-;- @ , KOLOMOT, S., ste@r-uhiy nawhnvy sotrudnik. ' Problem of the continental shelf. Itor. flot 18 n*.10:28-29, 0 t58. -', @,@ j (KIRL Il,.IlY 1,, Institut pmva AN SSSR. (Continental shelf) (Maritime law)  "-,-L NEOVS S V Covremennoye I'ezhdunaradno-Fravovoye Polozheniye Antarktike (Contemporary !&.err Law Situation of the. Antarctic) 'I.od-.ra, ational Cosyurizdat, 1954. 46 P. -np At Head of Title: Mademiya Nauk .9.:SF. institut rrava. D/3 102-5 f A7  KOLODT3OV,. V. @V. Stalin on-.the objective character- of th e 1wis of nature and society, Prof. soiazy 8, No. 2, 'LQ,53. vonwtuy List of. Russian Accessions., Lihrary of Congress, may -1953. Unclassified.   KOLODTSOV-.T.A. - 1 a r are isproving industrial orgnnizatioa and raising econogic indexes, Deroprom.4 nG.7:26 ji'55. (KIJU- 8:101 1. Kanturovskir fanerW zarod (Kanturaro-Teneera and veneering)  Ju Air, ' It r@ ril a  M A-ID P 2293 'Subject USSR/Chemistry Cardl/l Pub. 152 19/21 Autho.r Maslov., N. Ya. and-V,@ AV KolqdtsoT @Title Fatty oi` fr e om se ds of Digitalis lanata Bbrh. Periodical: Zhur. prikl. khim.) 281 no.3, 334-336, 1955 Abstract The,chemical and physical properties of the oil are described. The composition of the oil has not been definitely established. Eleven references (8 Russian:- 1885-1952). Institution: Chair of Organic Chemistry,of the Moscow Agricultural Academy.of the Order of Lenin (im. K. A. Timiryazev) Submitted Ap,11, 1952  'HOLOD2607 ToAw Characteristieff of irrigation Aspositff of. ths Shri-.rkand- oasis [with intmary in ftlishl. sochvovodanle no.2-*W-25 7 158. (mm. 11*1 1. Fachvvnnv7 institut im. TT, Dokuchayoirm AN SSSF,   I m    W57 S/193/60/000/010/006/0155 A&04/AO01 AUMOR: Molodtsov, V. F. TITLE- The 1532- and Kq-65 (Ku-65) Double-Colunal Vertical Boring and " rr-ing La+hes T L PETKODICAL- Byullet:Miko-ekonomicheskly Informatsii, 1960, No.10, pp.221-25 TEXII,I In 191,Z-9 the large model 1532T vertical boring and turning lathe was designed and built at the Kolcmenskly zavod tyazhelogo st-ankostroyeniya (Koloa=a Heavy Machine-:J'ool Plant). The lathe is designed for the turning and boring of cylindrical and conic urfaces, -face machining, grooving and other lathe oper- ations on ferrous and non-ferrous metals. The lathe possesses an increased rigidity of the@main units, which makes it - possible to machine.on it large and heavy workpieces with great precision. The new large special purpose KTJ-65 double-aalumn vertical boring and turning lathe has been developed and is manu- factured by the same Plant. It has b(en designed for machining cylinders of powerNI steam turbines and cyltndrical and conical surfaces of other heavy parts. Based on the 1580A (15RJOL) vertical boring and turning lathe, the new KU-65 lathe has alarger portal and an additional cross beam to increase the rigidity of the Card 1/3  .86057 S/49316-0AWAO, ZVOC-5-AD 15 A004/AOOI The 153ZY- and KY-65 (0-65) Double-Columr. Vertical Bor1rZ and Tuming Lathes portal. Rotation of the -able azd the setting and ope-ratlon feeds are effer.ted by a d-c motor, while rapid displacement of slides and cross arms is actuated by. am asynchronous electromotor, All controls are N'lly automated, The tables of both the 1532T and M-65 lathes have flat guides reinforced with the LLAM-10-5 (TsAF-1V . 5) antifriction alloy and are centered on the stationary base pivot by way of pre- cision bearings.. A special copying device with elect-rocont'act pickup, controlled by ele&;romagnetia couplings of the feed box, makes it possible to machine parts with stepped or cu--ed surfaces with hig4 precision and sur:Eace finish. The KU-65 machine Is equipped with television for observation of the cutting process, toj wear, and surface finish. To extend the technological possibilities, the manu- faoturing Plant furnishes the lathes also wiih a milling head, a device for the. Umning of sloping cones, and a boring bar for deep holes, Besides, We model 15327 can be fitted with a turret head, while the model KU-65 lathe car. be equipped with a milling and drilling boring carriage and a device for 'the recording of the. angle of pitch of the table. The following technical data are given (thie first figure referring to model 15321", the second figure to mcjel KU-6_R).- Max-mum dimensions of the vorkpiece beizng,Ttachined: diameter - 3,200, 8,000 nLrn; height - 2,000, 5,000 mm; maximum weight of workpiece being machined - 40. 125 tons; Card 2/3  86057 S/193/60/OW/010/006/015 MOVA00 I The i532T and Kq-65 (KU-65)'Double-Column Vertical Borinl!,. and Turning Lathes maximum travel of vertical slides - 1,250, 2,500 mm, of horizontal slides - 1,900, 4,400 mm; range of stepless regulation of the velootty of rotation of the table - 0.66-6-2.1 0.23 - 19.3 rpm. range of stepless feed regulation - 0,05-452, 0.03- 305 mm/min; tMvel speed of orossrail - 430, 300 mm1mIn; power of main electro- motor - 63, 100 kW; overall d1mensions ol machInes Ilengthl 55,120, 8,615 *x IwIdIAI^) 9,345, 17 6oo x(height)7,47o, 12,060 mm; weights 85.5, 281 tons. There are 2 figures'  &UOLOUISOVt. Vj. Taa 2,-w,635 univarsal horizontal L-cring maclilm. B.-Julf.. alcon.. inrorm. no. @:33-35 (61. (%MV. 14--2) (Drilling and boring m..chLicry)  =--ACC NP4 AP60=74 SOURCE CODEt UP/0193/66/000/002/0003/0004 -TMEt S@ecial boring mwh:Uw of 01-180 tnw d A SOURCEZ Prduaten"', ielatsat now ZIP 19" 934 Tona TAWt machine, twit boring machine, metal boring W-1W boring meablin AB&rA=t L spocial MT-180 boring machine manufacture& bor the roj2Ma!LdX E= YAchine- Thol Plant'is deacribedo It is equippedL with a 160-m spi-ad'-p and U drLven W two M-0 motof%a e-160.0-3600 rpm. Me -ch4n is shown in. a photo ani its dimensions and obarac- teriatiou are tabulateds Its. size ia 52CG x 3320 x 5Z75 = and it& weight is 32 tonv& Some of its conatitmt parts an mentioned or briefly described., Me machin* can be either of one portable tM or be fized on, a foundation, Orige art& hast one photo SUB Cong unt carct. 1/1 was M.952.5.  L 4619Z-66 AP6024046 SOURCE CODE: UR/0193/6610001003/OOGT/0009 AUTHOR: Kolodtsov, V. F. i ORG: None vertical turret lathe TITLE: 1A591 SOURCE: Byuirleten' tekhniko-conomicheskoy informatsii, ao 3, 1966, T-9 4. TOPIC TAGS: metal turning, turning machine, lathe, metal machining, feed mechanism, remote control I-WJ'@ ABSTRACT: The author describes a special turret lathe developed by the Kolomna Hn@ Machine Tool Building Plant. This lathe can machine parts up to 101000 mm in diameter and 5,000 mm high. It was-designed for turning and boring cylindrical and conical surfaces, facing and slot milling. The lathe can do both rough and finish machining on such materials as cast iron, steel, nonferrous metals and their alloys. it is equipped with an electrocontact copy unit which makes it possible to machine curved surfaces. The face plate is driven by a da motor with variable rpm (300-1500) The rotor is controlled by weakening the magnetic field at constant pover or from 300 to 75 rpm py varying the armature voltage with respect to permanent moment. The lathe is equipped with a two-stage gear box. An electrohydraulic unit engages one of the mechanical speed box stages which is controlled from a suspended panel. The face Card - 1/2 uDc: 621.941.28  L 46t27-666 ACC NRz ABkPX@*6_- 0 plate is centered on an Individualbase by two rows of precision roller bearings. A milling-drilling attachment is provided. The spindle of this attachment is turned by an asynchronous electric motor through a 16-stage speed box. The high speed and power characteristics of the lathe, continuous rotation control of the face platte, a relatively large selection of vorking feeds and remote control of all the mechanisms make it possible to save labor and 50,000 rubles a year by- introduction of this vnit. Orig. art. has: I figure, 1 table. SUB CODE: 13/ SUBM DATE: None Card 2/2  &T6034344 SOURCE CODEt ViEfOO00166100010001020710213 ArTRORt MolorAtsov, V* Ke (Moscow) !T%TLEt On the calculation of equilibrium gas flows SOURCE: Chiala'nnyye metody resheniya. cadach matematicheskoy fitiki (Numerical methods of solving problems in mathematiqaL physics); sboraLk statey* Moscow, Izd-vo, Nauka, 1966, 207-213 TOPIC TkGS: supersonic aerodynamics, supersor,ic flow, equilibrium flowil.:: diasociated gas, shock wave, thermodynamic pcoperty , 617,r rxdcAl m pr_qpeities@ 0 kgSTRkCT,: A new technique for computing the thetmodynd gas mixtaees is described which is necessary ffo-rcalculating supersonic equilibrium gas flow&/'over bodies. It is based on differential corre- lations 0 ed fiom the basic equations of 1;as dynamics and equations of chemie'al equilibrium* This approach was used for calculating super- sonic by the method of integral,-, equilibrium gas flows past blunt bodies relations developed by &, A, Dorodnitsyn and at Ke- ffelotserkeyLky.. Ona. of the advantage& of this tachnLim-econsistg id -that the obtained sygt"_1 of dif'ferantiAL equations is, associated with the initial approximate ayxtew (if the numerical 6chosta for solving the gair dynamic proillpa.and Card 112  AT6034344  tOLOWSOV, red.; WIN, &.Yasp red.; HAMIUS-SOt@UHM11Y, V.S., @- @r. - (Methodological problems in contempora@y science] Retodo- logicheskis problemy sovremennoi nauki; sbornik statei. Moskvaq Izd-va Mask. univ., 1964. 243 p. (KIa 17:7)  YTOLODTSOV, V.7a., general-rayor aviatoii Strictly fulfill the demands of miLitary regulations. Test. protivovozd* obor* no*7:3-6 J1 161* 34:8) (Russia--;Amed forces-Regulations)  AUTHORt Volodtsev,Ye.N., Engineer SOV-111-58-9-23/30 TITLE. I'mroviTng @eope@raion of the GRN-4 Generator (Uluchsher@_ iye raboty generatora tip& GRII-4) PERIODICAL: Vestnik svyazi, 1958, Ur 9, p 26 (USSR) ABSTRACT.- The dc generator GRN 4, built by the "Elektrosila" Plant, is designed for & current of 1,150 a, at 38v- For 24-hour service it can only be run at 900a, 34T ; at higher values overloading and burning out of the brushes occurs. Tests have shown that the cause of this defect lies in the brush- eff working in parallel on the cross-arms. A rise in tem- perature in a brushleads to a decrease in its resistance, 'which considerably increases the current flowing through it and further increases the temperature. To equalize the temperature of the brushes on each traverse, special compact brush-holders were prepared from cuprite. By gpa- cing them close together it was possible to fix 9 brushes along the working length of the collector, instead of the T previously used. Thecurrent density at a rated load of 1,150s, now fell from 8.8a/sq cm to G.88a/sq cm, thus in- creasing the reliability of the generator's operation in Card 1/2 24-hour service. Special guide plateff were also fitted  Improving the Operation of the GRN-4 Generator SOV-111-58-9-25/30 to divert the airstreamto the collector, brushes, etc. and so improve cooling and the temperature regime. With these imDrovements, the generator now.works steadily under t a brushes do not wear full load, there is no sparking and th out before their time. There are 4 diagrams. 1. Generators (DO)--Performance 2. Genera-tors--Equipment 3. Generators--Design Card 2  A UTHOR.- TITLE. PERIODICAL: ffolodtsor, Ye.11 SOV/111-59-1-24/3q ,,.I ,.J@ngineer The Conversion of the Submodulator of the Transmitter of Type KVM-120 to a Cathode Load Circuit (Perevod podmoduly- atore peredatchika, tipa KVIA-120 na skhemu, a katodnoy nagruz- koy) Vestnik svyazi, 1959, Ur 1, PP 24 - 26 (USSR) ABSTRACT: Te.N. Molodtsov, V.V. Frolov and G.H. Ryabov, of one of the radio centers of MDRSV, suggest a method of conversion of the submodulator of the KVM-120 transmitter to a cathode load circuit. The output stage of the modulation part of the KVH-120 transmitter has right-hand G-433 generator tubes. The submodulator is based on a transformer circuit (Figure In order to reduce the non-lineur distortions in the submo- dulator, left-hand 01.1-51 A tubea are used. A cathode load circuit with direct connections with the terminal stage is demonstrated in Figure 2. Further circuit arrangements are Card 1/2 presented in figures 3 and 4v while the final circuit of  SOV/111-59-1-24/35 The Conversion of the Submodulator of the Transmitter of Type K-YM-120 to a Cathode Load Circuit the conversion is shown in figure 7. Operation of the con- verted aubmodulator of the KVM-120 transmitter over an ex- tended period of time indicated that the efficiency coeffic- ient and operation reliability and stability had been in- creased by the conversion of the submodulator to a cathode load circuit. There are 4 circuits, 2 graphs and I table@ Card 2/2  MAKOTt Tole, dote,t KOLODTSOTA,,A,Ao,,, ordinator, MRIZHIVSICIT, T.jc.f ordinator; CXRMkOtis S.T., ordinator Material on a study of photoprotedtiT* and photosensitizing properties or various drugs for external application. Test.derm. i van. 31 no-2: 47 Nr-Ap 157. (KIRL 12:12) 1, rz kafedry kozhnykh i venericheskikEE bolesney Stavropaltakogo, meditsinsto 0 institutm. @DZ;S) (DIGET-MSIOLOGIGAL IMGT)  TARTAPITOT, B.A.; NOLOTBOYA,__A.I. New methoct of Inv6stigating motor function of the Intestines. fisiol. I 141, riziologicheakir-otdol Ukrainskogo, inatituta sksparimentall- nor andokrinologii (Dingniffst, P*6iologr, Motor fundt,,. technic of exposure of intestine for graphic, studr)  KOROVDIA$ N.N.; MOLODTSOVA Ul.; CHIKHACHEV, M.S.; MAKAROVs, M.S.. ted.; SAZONOV,, N.M.., red. (fttltiple-cotmter Askot-class 170 adding machine! Mwigo- schetchikovaia summiruiushchaia mashina-avtomat Askota klassa 170. Moskva, Statistika2 1964. 135 P. kmIRA. 19:1)  Vater power rettources, of China. Geog. Ir shkole 20 no.6:ly-2L6 11-17 t 57. (KIRA- 10-.12) (Chiua-Eydroelectria power):  MOLODTSOVA., L.L[translator]; Lyij KHUN-YUN[Liu Hung-yungl. red HIKOIAM, @ S-A- ltrawlAforU R014MOVICffj G-F-o red'j@ XHOWAKOV, A.0-1 b0m. red, (Feleogeographical atlas of GhinalFaleogeograficheskii atlas Kitaia. Pod red. I a prediol. D.S.So?,,colova. Kookva, Izd-vo inostr. lit-ry-I 1962. 117 p. (14IRA 15:9) (China-Paleogeograpby-44aps)  bachev, V.F. TITLE: The Polarization-Optical.Method for Investigating Tensions in Se92- ing Parts PERIODICAL: Kau^.huk i Rezina., 1960,@Ko. 3' pp. 37 40 TEM: The distribution of stress in rubber sealing parts was studied by experiment. If themagnitude and distribution of the strei;s is known, new partts can be designed on a scientific basis and the existing modals can be investige.- ed*.- The: applied. polarization-optical method helps to inveatigate the stress dis- tribution and magnitude depending on the size and shape af the part. Feferences 3, 4 and 5 give details of this method. It is based on thi fact that mcst tr-sna- Oarent isotropic materials acquire under stre-,s the proper-.r of double refrac- tion,. tlie magnitude of which is connected, w',' the magnitule of the tension and can be measured with an optical apparatus. it is establidfted that t he di f f e. re n% of the velocities, and, therefore, the optical difference of the beamr a path G, ,is proportional to the difference of the main normal tens:L.)ns (61 or2). The Card 1/2,  SIU81601000100310061007 A05:LAo2g The Polarization-Optical Kethod for Investigating Tensions -Ln Sealing Parts where a iii ths optical cona@ -mt- following forurAla. was darivedt G cd ((fl - G*p of the material, determined experimentally, d is the thickness of the mcdel. Mlr- authors- made a. study,of the state of stress under different pressures of the m-- dium depending on the design of the sealing and landir,4 spawe and on the. size aid strength of the bracelet springs. Kodels made of optically-active material, :L e., igdantine prepared on a gelatin and glycerol base, were studied. The proce- dure is explained in detail and diagrammatic sketches of the parts studied ars- wubmitted.. Figure 4 represents & diagram of the distributica of tangent tanslmE inthe stuffing box at a pressure of 0.5 atm of the medium. Figure .5 ehows the tangent,tensions distributed in the stuffing box at a medium prese-ure of 1. 5 a:tm- 'The experimental results are only preliminary, since. it was impossible to produl--- a force. in the models, which would simulate the tension at n significant preouret of-the medium waver, the results show the e"' ct4venass of "I atm or more). Ho using the discussed method in designing sealing units. Theve are 5 diagrams, 1 table and 7.referenaest 6 Swiet and I English... A85001ATIONt Nauohno-issledovatellskly institut rezinovoy promyshlennosti LS-C-1- entific Research Institute of the Rubber Ind@atitry) Card W2  TRUI,BACHEV, V.F.; MOLODTSCVA, L.S. ...... StudTing the stres6ed state of rocks around rine workings- iirith the help of the optical method. Vop. gor. da-.-l. no.1705-85 '63. (MMA 18:9) 1. Ins-titut gornago dela imeni Skochinskogo.  I .I  TRUMUCHEV, Vladimir Fedorovich; _HQIDDTWJA4_L3m@#4la se@menovnw LIBERM, Yu.M., kand. tekhn. nauk,.otv. red.; KOSTAXIYAN, A.Ya., red.; RILINA, Yu.V., tekhn. red. [Using the optical mathod to.study-the stress state of rocks around mine workings] Primenenie opticheskogo metoda dlia is- sledovaniia napriazhennogo oostoir-niia. porod vokrug gornykh, vyrabotok. Koskvaf Izd-vo Akad.nauk SSSR, 1963. 93 p. (mi Rk 16: 5) (Rack pressure-14odels) (Photoolasticity)  I  ACC NRg. AT700211a SOURCE C~Mf'-'OR/0000/661000100010254/02,60 AMOM Katkovt Co. Trumbacher, V1. r, ORG: none TITEZ: Determination of stresses and external loads on supports of underground equipment SOURCE: Vuesoyuznaya konferentsiya.pa polyarizatsionno-opticheskomu metodu issledo- vaniya napryazhen'iy. Sth, Leningrad, 1964. Polyarizatelonno-opticheskiy metod issledo- vaniya napryazheniy (Polarizing-optical method of investigating stresses); trudy kon- ferentsii. Leningrad, Izd-vo Leningr. univ., 1966, 254-260 TOPIC TAGS: photoelasticity, stress analysis, pressure transducer, structural engi- neering,. epoxy plastic. ...... ABSTRAM Photoelastic strips (transducers) made of ED6-K epoxy were used to study the stress.conditions an underground equipment supports during operations. Rectangu- lar, transducers 50 x 25 x 2 mm, 40 K 20 x 2 mm, and discs of 30 mm diameter were glu- ed at different locations. The best glue compositions were given along with the opti- MUM curing conditions. The ED6-K epoxy had an elastic modulus of 30,000 kg/CmZ, a -5 Poisson ratio of 0.37# and a sensitivity which allowed deformations as 102 as 2-10 to be measured. Stresses sieve neasured from the values of birefraction. An equation Card 1/2  ACC We AT7002110 waiaIgiven forthe difference In principle streases arl-o2 as a function of the rela- tive change in the light path, thickneas of the transducer, optical stress coeffi- cient of the transducer material, and the elastic- constants of the structure. A port- able pol ariscope which was used in measuring thechanges in light path was shown. A photograph was given showing the locations of the transducers on different supports ofi, underground digging equipment of the H-81 and MKP type. Axial loads and bending mo- ments were determined at these locations. The analysis showed that the load in the lower elements of the supports varied between.3.5 and 5,5 tons. The load on the arms was 0.7 tons corresponding to a stress of 2.9 tons/m7-. The stress along the frame of the support varied widely, reaching as high as 16 kg/cml near arm Junctions. A sche- matic drawing was shown of the locations of phatoelastic transducers along the mecha- nized supports of the MIT. The stress profile along the roof of the HKP showed that the stress exceeded 15 t=s/m7 at one location. This technique could be used to mea- sure absolute or relative stresses in supports or surrounding mountain rock* Orig6 art. has:, 4 figureal 2 formulas., SUB CODEt 13,21/ SUOK DATE.- 14Jua661 ORIG REFt 003 C4rd -2/2    Ley.; SIRD74, NOT, 4030TA Xectric conduetiritr and magnetic properties of forriteg aoutaining 4,3 and 45;& ftZ @, DOI. AR ROSI 3: no.8036-337 Ag . 159. (]Far%.!atsa-lleatria Propertilea) (HIRL 12M)  MDLODTSOTA L.T.- SIROTA, K.K. Pulse response of wagnesium-maa&smise ferrite cares con- taining 43 per cent 76203. Dokl.AH BSSR 3 no.11:440-41a N '59- (MIR& 13:4) (Ferrates-Ilectric properties)  6) SOV/170-59-6@19/20 iUTHORS:1 Molodtsova, L.7. TITLE; Investigation of.Magnesium-Manganese Ferrites Containing 40% Fe2 03 TERIODICAL9 Inzheaerno-,-fizicheskiy zhurnal, 1959, Yr 6, pp 116-120 (USSP') LBSTRAM t T.n view of considerabletechnical iarortance of magnesiun-mangaaese farritea and insufficient studies of their properties, the_auihdr&@ undertook this attempt to investigate the changes in their.magnatin. characteristics due to -changes in the KgO/KnO.ratio uncter,constarit, , Fe2O-@content,@ MWesium oxide, camimircial iron oxide and manganese tarb9nate were used as initial materials whose relative concentration in.varipua ferrites investigated.is g.@ven in Table 1. Changes in specific electric resistance, coercive.fo.rce, maximum sad residual induction in dependence on thecompositioa of.the specimens-are okown. in Figurq 1; . changes in. the values of Curie, point, of the.aquare shape.of hysteresis loops, initial permeability,and ,in depend ce on composition are'.shown h a.rea@,of hysteresis loops . -LrMra-2, and - changes of : induction 'En dependence. on. temperatizre Z rd. f ield.'of '6 oersted are, shown in Fi&re 3. - Of considerable  SOT/170-59-6-19/26 Investigation of Nagnesium-Manganese Ferrites Containing 4(wo Fe 0 2 interest is a peak in. the curve of hysteresis loop areas at 20% concentration of KnO,in Figure 2. Various shapes of hysteresis loopsiare shown-in'Figure 4. The authors thank A.I. Gurtyanova for assistance in preparing.the-specimens. . ihere are 4 graphs, Z tables and 8 American references. ASSOCIATIONt Institut tavetaykh metallov i zolota im. M.I. Kalinina (Institute of-Hon-Ferrous Metals and Gold imeni R.I. Kalinin), Moscow; Otdel fiziki tverdogo tela i poluprovodnikov AN BSSR (Department of Physics of Solids and Semiconductors of the AS Belorussian SSR), Minsk. Card 2/2  S/Oi3l/61/000/019/004/085 B1O1/B11O -AUTHORst Molodtoova, L. V.t Sirotal N. N. Study of the effedt of the compoaitio:i of magnesium- manganese ferrites on their propertie,3 PERIODICAL& Referativnyy zhurnal. Khimiyat no. 1j, 1961, 31, abstract 19B228 (Sb. "Ferrity,Fiz. i fiz.-khin. avoystva", Minsk, AN 9SSR, 1960, 164 - 169) TEXT: The authori determined the Curie points and studied the magnetic properties the hysteresis, and the resistivity of mutual solid solutions of Xg and L ferrites with atoichiometric composition as well as of ferrites with an insufficient content of iron oxide regarding the stoichiometric composition. EAbatraeter's note: G3mplete translation Card 1/1  KOLODITSOU, K.A. Greater care in protecting lavor and applying safetr tachniquag. Gor.zhur. na.12-.50-51 D f560 (KLU 10: 1) Io Olavruda Kinisterstva chernor metallur :ii SSSRV (Metallurgical planta-Safetr measurea) lget&lworksrs--Dis@asss ancl hrgions)  amd Report of some facts of spontaneous transition of B. pestis into B.'@' pseudo- tuberculosis r dentiun. Vest. lAcrobiole, Epidemol. & Parasitol. 15, 2, '36.  RESEETI9, N.I., prof.; HOLODTSOVA, S*T., insh.; MDRIrDY, A.A., inzh. Investigation of a eircmlation s7stem with U--ehapad pipes. rmv.V7s.ucheb#gav*; enerG. 2 na*6:88-92 4re '59. (MIRL 13:2) 1. Ural'skir poli@ekhnicheakiy institut Ireal S.H.Kirova. Fred- stavlena kmfedray, prouteploenergetiki. (Boilers)  S/GT3/60/026/004/017/019/T.1 B023/Bo64 AUTHORS; Muzyka, 1. D. and Molodteova, V. A. TITLE.- tition of Elements by the Method of the Complex Forming Par Chromatography PERIODICAL: Ukrainakiy khimicheakiy'zhurnal, 1960, Vol. 26, 110- 4, pp. 535-539, TEXT: With reference to the published data (Refs* 1-6), the authors study the -problem of the removal of iron-, nickel-, and cobalt microimpurit ies from "AhOF-SaImtioaff of the sulfuric acid zinc- and cadmium saltz in media into which no acetate buffere had been introduced. Two types of columns were ased: a coal-dimethyl glyoxime column and a column c6neisting of coal, zinc oxide (cadmium-) and dimethyl glyoxime. The investigations were made under dynamid conditions with the use of chromatographic columns in the form of a glass tube, B mm in diameter and 25 am high, with a glass filter'molten in at the bottom. The solution was filtered through the column in vacua at a flow rate of 100 ml/Gm2 per hour. Table 1 and Figs. 1-4 give the results. The table shows date on the sorption of copper, iron, akel and cobalt (in mjIg coal) in a column consisting of active Card 17f  Partition of Elements by the Kethod of the 5/OT3 60/G26/004/OIT/018/XX complex Forming Chromatography B023 E064 coal, in.the presence of Fe, du, Ni, or Co in zinc sulfate solutions (20 g/l,Zn). As compared to Cu, the coal shows a maximum sorption capacity, iron ranks secondl nickel and cobalt are.leas sorbed, Fig, 1 shows the copper adsorption from the ZnSO solution in dependence on the composition 4 of the column: on pure coal, on a coal4imethyl glyoxime column (C-EDm) (Dm = dimethyl glyoxime), on a coal and zinc(C - ZnO) column, and on a column,considting of coal, dimethyl glyoximej and zinc oxide (C - H Dm- &4@ 2 Thus, it becomes evident that the sorption of copper is characterized by a linear dependence. Fig. 2 shows the adsorption of trivalent iron un- der similar conditions Fig 7 shows the experim9nt&I results after se- parating the system Zai+ - @ii+ in the columns under conditions similar to those for copper and iron. Theremoval of nickel from the ZaSO 4 ffolu- tiond in the coal-dimethyl glyoxime column is characterized by a non-linear fuaction. The nickel adsorption in the C-ZaO column is approximately as great &a on pure coal. An addition of ZnO to the coal-dimethyl glyoxime mixture somewhat increases the capacity-of the aolumn with respect to nickel, however, only at small amounts of zinc oxide. A. further increase of the ZnO content exerts no effect upon the capacity of the column with Card 2/3  Partition of Elementaby the Method of the S/073/60/026/004/017/018/Xl Complex Forming.chromatography BO23/BO64 @respeot to nickel (Fig. 5, Curve 2). Fig. 4 shows the sorption of cobalt on the aoal-dimethyl glyoxime column. The capacity of the column with respec t to cobalt,is insufficient. The increase of the H2Dm content in the sorbent hardly changes the capacity of the column. An introduction of ZnO into the C-HDm column incrrsasealtg capacity only slightly with re- speat to cobalt. Further experiments were conducted on the basis of the experimental results to separate impurities -of Ni, Cu# Fe(III), and Co in the columns of C-ff2DaL-ZaO type in the@pres,ence of metal impurities in the.solation. Itt conclusion the authors find that for a simultaneous re- moval of F63+9 CU2+, and ffi@+ impurities from the ZnSO4 and CdSO4 solu- tioas in the presence of acetate buffers, it is more convenient to apply an adsor'6ent which &part from coal and glyoxime also contains a metal oxide. There are 4 figures, 1. table, and 6 Soviet references. ASSOCIATION: Iaatitut obahchey i noorganicheakoy khimii AN USSR (Institute of General and Inorganic Chemistry AS UkrSSR) SUBMITTED: January 27, 1353 Card 3/3   Uand @Ied 6ci -- (disz;) "Effect of castratIon on.the control of the Deriod motor activity of the simall intestine of dogs." Kharlkov,.1960. 14 pp; (14inistry of Publi,-t Health Ukrainian SSR, Khar'kov State last); 230 copies; free; list of author's work at end of text; (KL 22-60, 144)   I I @ 1@ I  81805 S/157/60/000/04/08/015 Translation. from: Referativnyy zhurnal, Metallurglya, 1%.0, No. 4, Pf 2-36, E1381 AUTHORS: Kot, K.V Kolodyan, _1.@. ,-@ T07 TITLE: Electric Conductivi't T@n ers.of the Antimony-Selenium Y f Systent PERIODICAL: Uch. zap. IMshinevsk, un-t, 1959, Vol. 39, pp, 49 5.3 TEXT: The authors studied the electric resistanac R of thih layers of theSb-Se system, obtainedin the form of wedges by- the Irekaddnskiy evaporation method on a glass backing at a pressure of io-w5 mai Rg. The evaporation condi- tions of the components were selected in such a manner that the concentration of atoms in the center of the backing (thickaess of wedges >. 0.21A) corresponded +10 the,Sb2Se3 compound. The electric resistance was meaoured. in the dark by the voltmeter-ampdremeter method using an M-21 galvanometer itith a sensitivity of 2 - 10-10 amp/am. It was established that in a vacuum tJie@ films had the prop- erties,of.massive polyarystalline layers. In an air at.,misphere and within a Card 1/2  81805 S/137/6D/OW/04.r/08/0l5 Electric-Conductivity of Thin Layers of the Antimony-Selenium System relative lovi temperature range, the properties of the films are distorted by surface levels. The activation energy of thermoeleatrons in the high temperature nge:( 4 E = 1.12 ev) does not coincide with the known ltre6 photoeffect Umi.Vt .(1.17 ev) determined from the spedtral characteristic of phatooonduativity. Card 2/2,  AUTHORS: TIM: MIODICAL: Radautean, S.I., Molodyan, I.P. 32614 A060/A101 Homogenization of alloys from the section 1nSb-L"2T'_-, of the indium- antimony-tellurium ternary system Referativnyy zhurnal. Metallurgiya, no. 11, 1961, 24, abstract ilzhi44 (Ilizv. Mold. fa. AN sssEel, 1960, no, 3(69), 37-47, Molda- vian sumary) TEXT: The InSb-ln2Te section of the In-Sb-Te system wras Investigated. The alloys-were prepared fr2 In, 3b, and Te of high purity bir swIting in eva- -cuated quartz ampoules in a crucible furnace. with heating at a rate of 150-2001C per hour up to 6000C and soaking for one hour, IOOGG per hour up to 7500C and soak Ing 1-2 hours, cooling down to 5000C at a rate of 500q pec* hour, and there- upon cooling down to room temperature at a rate of 1500C per Jiour, The alloys were'subjected to homogenization: a long annealing, annealing under pressure, and zone normalization. The iavestigation was carried out by the methods of microscopic, thermal and )C-ray structure analyses, and by meesuring the micro- hardness. It was established that in the section 1hSb_In2T'e-:,,i no solid substitu- Card 1/2  32614 S/137/0 I/OW/O 11/070/123 Homogenization of alloys ... A0601A.101 tion solutions are formed. The use of long annealing and amcaling under pres- aura did not lead to change in the structure of the alloys. Under zone normaliza- tion of the alloy 31nSb.ln2TL- a chemical compound with the ni)minal formula In4SbTL- was discovered, hav2g N%Cl structure and showing semiconductor charac- teriati@s. There are 25 references, Z. Rcgachevskaya (Abstracter's note: Complete translation] Card 2/2  32613 S/137/61/000/oli/069/123 Ao6o/Aiol AMORS4. Radautsw. S.I., Madan, I.A., Molodyan, I.P., Ivanova, R.A. TITLE: Formation of solid sGlutions in the InP-ln2Se3 system PERIODICAL. Referativnyy zhurnal, Metallurgiya, no. 11, ig6i, 24, abstract NZ11143. C'Izv. Mold. fil. AN SSSR", 1960, No 3(69), iol - iog) TM: @.The section InP-ln2Se3 Of the In-?-Se system was investigated. 'The alloys were prepared from P, In, and Se ofe-99.98% purity, by the use of vibration stirring according to the method similar with the production of InP, and were studied by the X-ray structure and microscopic analyses and hardness measurement methods. It was established that the alloys with compositions close to that of InP (including InP-ln2Se3) have a crystal lattice of the ZnS type. The alloy qInP-InpSe3 has one phase, alloys from 41nP.ln2Se3 to InP-In2Se3 are two-phase, but both phases have the ZnS structure. The observed decrease of the lattice parameter as the In2Se3 content Increases testifies to the formation of solid solutions in these alloys. The alloy with compositicn InP-3ln2Se3 crystallizes into a low- symmetry structure. There are 6 referemea, Z. Rogachevskaya .Card 1/1  V1621000101116211045" A052/AiGi AUTHORS: Molod Radautsan, 3. 1., Madan, 1. A.- yan, TITLE: SQme structural mid thermal investigations of In SbTe compound 3 PERIODICAL: Referativnyy zhurnal, Mietallurglya, no. 11, 1962, 18 - 19P abstract 111140 ("Izv. AN Kold3SR", no. LO 1961, 91 94) TF= - .1n,,SbTe3compound and some alloys'o@ the InSbxTe I-x cross section were investigated by means of high-temperature X-ray and thermal analyses. The, alloys wereprepared from ;;r-99..99% pure In, Sb and Te, each in evacuated quartz ampoules, with the application of vibrational stirring in the process of:7 - 10- at 8M 0@, After that the alloys were*cooled to 1100 0C at a ra-te of hour holding 15 - 20 deg./hour. X-@ray analysis waa made at'2D, 100,, 200, 250, 3W, 400.-50G,- 550, 575 and,585 C. It is established that In SbTe3 compound dissociates in 4 the process of heating.,and.the degree of dissociation increases with temperature- and holding tim4,, Thernj,SbTe compound melts incongruently at 566 5 C. There are 7. references. Z. Rogachevskaya t rAbAracter s note, Complete translation Cird 1/1  ant mon e w he system concero,ing -50i 0sotut ons:base -on nd um I rd Wm-ant lihony-tel I urfum-4 Radau tun 1.10 mf te Report presented at the 3rd Nat'Lonal Confererce on Seniconductor Cori-pounds, Kishinev, 16-21 Sept 1963  nide-telluridel geport, Third Con- !TITLE: Some-homogeneous phases of ilidjum antino ferance on Semiconductor Compounds held in lCishinev 16 to 21 I;ep 19627 .-Seriya.fizicheskayat V.2a, no.6, '1964, 1017-1022 SOURCE: AN SSSR. lzveitiYa :;TOPIC TAGS: solid soluti 'a ond@ctor, indium antimonide, indium compound on, emic Jt ASS TFACT: The-following'systems were investigated: (rnSb)2,(rn2T(3)1-i,, (rnSb)x- 5) The ma-: (rnTe) I (rnsb),,(rnTe3) J, l-,,-(InSB)7,(1n4Te7)l-,, and (rnSh)5,(InZTe, .-terials were 'produced by fusing the elements In a manner desc:rlbed elsewhere (S.I. Radautsan arid, 1. P."Molodyan, lzv.Mold. f iiiala, AN SSSM No. 3 (69) 37, 1 SGO) . All these systems formed solid solutions for I @& X 5.1 0.85 and none forwd solid solutions for' at `b.so =- x. The solutions all had the ZnS structure with a lattice constant somewh loso than that of InSb. The nature of these solutions ls.dist,,.,ussed, and it is sug- Seated that similar large regions: of solt4bility may occur in 0@tzar AM-JV-CVI Sys-: than the othera, tems. The (InSb)%(IuTa)j_)C system was,invaatigated in woro dl:ltmil '@aad the limit,of solubi4ty:waa found to-occur for x between' 0.85 and 0.63* The. ex- M% Car J  ACCESSION M AF40413" j istence of the c ed; for x 0425 the system f empound lq4SbTe3 was astablis4 ormed a a ra Is ing-le phase with the, MaCA structure, tthouC4 two phases Wax present.fGr x = 0.23@- a -number of ma- .[and x u,0.27. The conductivity, Hall constant, and-thermallomf of ... Aterials of the (1n3b)x(1riTe)l_x,system were mqLasured at temperatures fron. 80 to IG500K. The conductivities and Hall constants of the solid ,,tolutions were nearly in-i' 11dependent of temperat4're, and the tharmaX cmf1r, increased alowly with increasing temperature., The conduction electron concentration increas(xi, shagply f rom* 7 . 1016 ca-3 for x 0`9 k 1018, cm-3 for x I (InSb) t 0.999 and reimained nearly constant iat that value as x was reduced to 0.80 (there was no afarked change in the electri- 1; ;iectron mobility de- teal properties at the appearance of the second phase). The 0 creased somewhat less'sharply from approximateky 44 000 cm2PI see for x = I to 1500@,, :cn,2/v Sao for x = 0.9T and also remained nearly cot6tant as x was further decreased.- All the alloys of the (InSbYx(InTe) I-x system with'I sk x 9 0.27 were found 'to ex- .@hibit n-type conduction, and those@with 0.25 x, p-type. Thus, a transition from @:p- to n-type conduction can be achieved in these alloys by eltering the composition. "The authors express thtfir sincere. gratitude to Prof M.A.Goryunaya and Frof.D.X.Na_@.; ;sledov for their great interest,ln@the work and their valuable advice proffered dur-1 -inu discussions of it, and also to'U.U.Uarkus and L-.U.Kanovts of the Institute of 'Physics and.Kkthematics.of.the Academy of Sai6nces of.the Ukdaviaa SSR for their t-.7 C 'd  a,, W.@ &E;@- ,  'wn F"T ,We  .. I. . 1. , . . . -t.. @-. @. I' R., , . ------ -, ""T . - , . 1: . .I. eF--n-. . , - I , - - '.. - .  T, - 5-@ -W 6 lp@ T, 7,1 N g.@ 31 t'ol RM non @-N R5 W.P di -4 MR. 21 aw Wg c41M --y Ml@ -.Tvf ia Vu @tq Q   - - -- . . . - I .-I -.. I.. . I.. . . I @; . . r I  .7 77 .......... . . . . . .--171r- I A Of W- @.Yeat&*_-_4ekbW wdlmo K, FlXk_ EL de ---te3_-l&i -@:Ubdn@j w @D-M, T9W TION:@7@--Thcs-.,.t tlj*ra ure.- t @na ti'xity, the dif&refitial: roc tromo ive for@6;@wd:Hdll t at--f37ova-?9Ao-350 han is, n,@:_ Min] _h 'k8b h@c P tehiary_-ayqtm.,. Cm -Te- 4it t t, "C ii3 --T& rkhi 1018P ca T, 6 lutibfii@_ t@', t 50< 0 w ruc ure of _zinc@_bl6nd 2 -ziwr n6v O..5AS-8 ngldmyhaoe and c@)rresponds_@ to t4o InjiQ"We 7, -'.vock-@!kalt- structum'.: The G.- -vith 2,5,