SCIENTIFIC ABSTRACT SOROKINA, L.A. - SOROKINA, M.I.

ACCESSION NR: AT4016321 S/0000/fi2/000/000/0377/0380 AUTHOR: Konorova, Ye. A.; Sorokina, L A. TITLE: Photocofiductivity itimulated by a strong electric field in colorless alkali halide crystals SOURCE: Vses. sove~hch. po kiz. shchelochnogaloidn. kristallov. 2d, Riga,* 1961. Trudy*. Fiz. Bhchelochnogaloldn. kristallov (Physics of alkali halide crystals). Riga, 1962, 377-380 TOPIC TAGS: alkali halide, alkali halide crystal, photoconductivity, colorless alkali halide.crystal, crystal photoconductivity, electron charge A13STRACT: In order to establish the occurrence of an electric-field-induced electron charge in colorless alkali halide crystals, a I - 5 x 105 v/cm voltage was passed through KBr, KC1- and NaCl-crystals at temperattires'rang~ng. from room temperature to that of liquid nitrogen. The crystals were then routed through a measuring device. As the current set up by the weak polarization field in the, specimen became constant, the electron charge was established by the presence of the photoelectric current which it . I ~ generates under illumination. This photoelectric current, superimposed on the polariza- tion field current, vanitshes as the 10-9- 10-10 coulomb (in NaCl) or 10-11 coulomb C6,d' 1/2  ACCESSION NR: AT4016321 (in KBr and KCI) electron charge is annihilated by illumination of the crystals in the F-band. The electron charge Is believed to be responsible for the failure of strong fieldi currents to obey Ohm's law. Orig. art. -has: 3 graphs. ASSOCIATION: Fizichesidy institut im. P. N. Lebedeva AN SSSR (Institute of Physics AN SSSR) SUBMITTED: 00 DATE ACQ: 06Mar64 ENCL-. 00 -Irv SUB CODE: A/P4-%- NO REF SOV: 002 OTHER: 000  "o W 621~,~ MUM 4   L 00766-66 FUT (1)/t IJ.P Go ~ACCESSION NR: Ap5oi256o T5/1479.. UP/0181/65/007/005/14 JAUTHOR: 7 Sorokina, L. A. C. Ir 'TITLE: Temperature deppndence of t Wric strength of alkali-halide crystals no. t SOURCE: Fizika tvertiogo tela, Y.7 5, 1965, 1475-1479 ]TOPIC TAGS: alkali halide, electric conductivity, electric breakdown, pn junction -halide AJUSIRACT: The authors discuss the mechanism of electric breakdown in alkali rysta s in the 50--200C temperature range, which bas not been thoroughly investi gated in the past and in -which the breakdown mechanism is.still debatable. Account 'T is taken of the features of the electric conductivity in a strong:electric field. The processes occurring in the electric field directly before the breakdown are onsidered from the.point of view of the heat balance of the system. A relation c I 'Ub2rr = const (Ubr -- breakdown voltage, electric conductivity of the sample) lis derived on this basis, subject to the condition that the electric conductivity_. 'of the sample depends both on the temperature and on the applied voltage. The for- mula is found to be in satisfactory agreement, with the experimental data, and 1concluded that in the temperature range in question the breakdown has primarDzy a thermal nature. The deductions hold true for a constant applied voltage, and must:-,.__ be modified in the case of pulsed voltages. "The authors thank B. M. Vul for Card I/P_   10KANIN, Ye.A., polkovnik; CHEREDNICHENKO, Y.T., polkovnik; LESIWSKIY. S.A., polkovnik; KOLOTOV, V.I., kapitan 1 range; KORKESHKIII, A.P., polkovnik; FOROFONOV. I.F., podpolkovnik; ROZANOV, I.S.. podpolkovnik; LISENKOV, H.M., Dodpolkovnik; SAPRONOV, A.T., mayor; BEIASHCHENKO, T.K., mayor; SKAPEMOVA T N:; SCRO 0 ~,~P,,:;-ZOTOV, M.M., polkovaik. red.; MYASHIKOVA: T:F , leldn.r'!A. [Material for pOlitiCal studies; a manual for group leaders] Materialy k politicheskim zaniatilam v pomoshcht rukovoditeliam grupp. Moskva. Voen.izd-vo M-va obor. SSSR. 1958- 199 p. (MIRA 11:5) 1. Russia (1923- U.S.S.R.) Armiya. Upravlaniye propagandy i agitataii. 2. Voyenny3r otdal GosudarBtvenncy biblioteki imeni V.I.Lenina (for Skapenk-ova, Sorokina) (Ruesia-ArrW-Fducation, Nonmilitary)  SOROX-Dlx~ t' 0" (n-a"Erm) "Th6 Alkaloids of Leontice Miersmannii Dge and L40ontice Alberti Bge.11 Yuhusov, S. 9nd Sorokina, L. G. (deceased) (Lab Chem Alkaloids, Inst Chem, Acad Sci TJzbeki 9SR) (p. 1955) SO: Journa of General Chemist (Zhurnal Obshchei hhimii) 1949, Vol. XIX, No. 10  KAZAKOVp S.V.; SINITSYNAq K.V.; SKAPENKOVA, T.N.; SOROKINA, L.I.; POLYAKO- VAt N.p red.; DABILINA, A&F tekhn, red* [People going forward] Idushchie vperedi. Moskva, Gos.izd-vo polit. lit-ry, 1961. 438 p. (MMA 14:6) (Labor and laboring classes)  29739 2 1H 07 S/190/61/003/011/010/'Olo' B11O/B1Q1 AUTHORS: Andrianov, K. Feromberg, M. B., Za"d-rina, K. I., Sorokina, TITLE: Graft copolymers from polyoreanosiloxanos and epoxy resin P i~ R 10 DI CA. L: Vysokomolokulyarnyye soyedineniya, v. 3, no. 11, 1961, 1692 1697 TEXT: Polar groups bound to Si are introduced to increase the mechanical strength oncl the adhesion of polyorganosiloxanes (POS). Since the ~tabi ~ b - lity of the Si-radical ond is often reduced by such introduction, ,-7raft or block copolymeriZRtiOn with polymers containing polar groups is recommended. The functional groups contained in the copolymer also permit re,actions with bifunctional groups for POS hardening at room temperature. :;Poxy resins (I) catalyze polycondensations of FOS: -3i --- OH + 110--3i- --> -Si-0--Si- + H 0 to solid, unmeltable substances, i 1 2 particularly,if POS contain OCH 3 or OC2H 5 groups. It is assumed that the alkox~ grcur,- of POS react with the hydroxyl (;roups of I accordin.-= to Card 1/ 5  29739 S1190161100310111010/01,05 Graft Pblymers from polyorcanosiloxanes... B110/BIOI 0 0 -CH - clf~. L? U IM + C111 (A) cli -cit C11 - C112 \0/ \ 0/ Phenyl triethoxy silane with I forms a homogeneous polymer with separation of C2H5OH, Card 2/5  29739 S/19Y61/0071/011/010/016 Graft polymers from po7-yorFanosiloxanes... B110 101 B 0 0 MI 0 0 / _11 -0 _C112-CII -CII... -0 -11 CH2-e I 0 (B) (;-~H 50 - Si OC.-Hs caf[5 For producing graft copolymers the authors used polydimethyl phenyl siloxanes (II) or polydimethyl phenyl methyl siloxanes (molecular weights: 1000 - 1500, OH content 1.0 - 2.Ofo) with 3 - 6~o' methoxyl or ethoxyl groups. They obtained these polymers by hydrolysis of a mixture of (CH3)2 Sicl2 and C6H 5Sicl3 or (CH 3)2 Sicl 2 'CH 3Sicl 31 and C6H5Sicl3in water-alcohol, medium. Since the dimension of the alkoxy group considerably affects the thermal decomposition, polymers with OCH groups react at 3 Card 3/5  S/1 �0 29 9 1110101016 1 O~Y61 /dOPO Graft polymers from polyorganosiloxaiies... B1 B101 200 2300C, those with OC H groups at 280 0C. No copolymer is formed at 2 5 an alkoxy group content < 3%. The copolymerization is accompanied by separation of C2H5Off and decrease of epoxy groups, especially at increasing temDerature. Investigations of the infrared spectra of polydimethyl phenyl methoxy siloxanes (III) and graft copolymers based on them confirm the reacticn mechanism described. Turbidimetric analyses showed the homogeneity of III and its graft copolymers. The presence of epoxy groups in the copolymers permits hardening by means of diamines (PDI~ethyl* polyamine (IV), hexamethylene diamine (V), m-phenylene diainine, m-toluy3me diamine) to nonthermoplastic varni,,sh films which are highly thermoelastic at 200 OC. The chemical nature of the hardener considerably affects the film properties. The high thermoelasticity of films hardened with IV and V is probably due to their evaporation at 200 0C. Hardening is also per- formed at 130 - 1500C by means of polyphenyl dauhias.iloxanes.(Vi). III 0 0 0 heated at 200 C for 4 hr and at 250 C for 10 hr has T V = 0 C, an indistinctly marked range of highly elastic deformation, and it flows at 0 0 20 C. In graft copolymers based on III nd hardened for 72 hr at 20 C by means of IV, the value of highly elastic :deformation grows, and flowing Card  29739 3/1 qY61 /00 3/01,1/010/016 Graft polymers from polLyorganosiloxanes-, B110 101 B 0 starts at 150 C, Structuration at 20 C is slow. After 120 hr. the temperature range of highly0elastic deformation was much wider~ and the flow temperature Tf was 330 C. Graft copolymer hardened with IV for 2 hr at 2000C -as a steric struc'4ure., an insignificant highly elastic deformation, and a flow temperature Of 45000. Structurated polymer with a flow temperature of 4250C is'formed by hardening with V1 at 1400C within 2 hr. Varnish films from solutions of copolymers hardened at 130 - 1500C by means of VI form nonthermoelastic coats with higher mechanical strength and adhesion as coats from POS. There are 2 figures, 2 tables, and 2 Soviet references, ASSOCIATION: Vsesoyuznyy elektro'lekhnicheskiy institut im. V~ I. Lenina (All-Union Electrotechmfcal Institute iineni V, I, Lenin) SUBMITTED~ December 25, 1960 Card 5/5  2; 110 33267 ~/062/62/000/001/006/C'3 B117/B101 /Z .2 Q_ / 9 AUTHORS: Andrianov, K. A., Fromberg, M. B., Sorokina, L. I.~ and Kirilenko, E. I. TITLE: Polyorganoaluminoxanes and polyorganoaluminosiloxanes PERIODICAL: Akademiya nauk SSSR. Izvestiya. Otdeleniy~ khimicheskikh nauk, no. 1, 1962, 78 - 86 TEXT: The composition, the structure, and properties of intermediates of polyorganoalumoxane synthesis, their conversion into polymers, and the possibility of producing compound polymers were investigated. Mono- meric organoaluminum compounds were synthesized with azyloxy,and chelate groups (Table 1). The solubility of the compounds obtained is largely affected by the nature of organic groups with aluminum. Aluminum iso- propoxy dicaprylate and aluminum diisopropoxy caprylate are soluble, 8-hydroxyquinoline derivatives are poorly soluble in organic solvents. Dialkoxy derivatives, and above all aluminum dihalides are easily hydro- lyzed by atmospheric moisture. Hydrolysis of benzoate aluminum dichlo- ride always yields insoluble compoeite products, since the acyloxy group Card 1/#  33267 S/06 62/000/0G!/006/015 Polyorganoaluminoxanes ... B117YBIOI is separated. Aluminum dih droxy caprylate and aluminum dihydroxy-0- oxyquinolate were obtained fwith almost theoretical yields) by hydroly- sis of aluminum diisopropoxy caprylate and aluminum diisopropoxy-8- oxyquinolate which takes place at the alkoxy groups only, and does not destroy the chelate bond nor split off the acyloxy group. These hydro~xy derivatives are poorly soluble in the usual organic solvents. Their infrared spectra showed absorptionbands (3600 and 3430cm-I) corresponding to associated HO --- X and -OH --- X hydroxyl groups. Experiments have shown that the Lynthesis of polyorganoaluminoxanes proceeds via hydroxyl derivatives which are condensed with alkoxy groups into polymers either directly or due to a reaction with hydroxyl groups bound with aluminum. T~e interaction of hydroxyl derivatives of organoaluminum compounds with alkoxy derivatives is a general one. This reaction takes place among organoaluminum monomers and among organosilicon and organoalum-inum com- pounds. Isopropyl alcohol is separated, and a polymer is formed by polycondensation of aluminum diisopropoxy-B-oxyquinolate with hydroxyl derivatives of'organosilicon compounds. Polycondensation of aluminum diisopropoxy caprylate with ci~. W -dihydroxy-methyl-phenyl siloxanes Card 2  33267 S/06 62/000/001/006/015 Polyorganoaluminoxanes ... B1,17YB101 yields linear polyorganoaluminosiloxanes. Such a polymer is elastic and well soluble'in organic solvents. These properties are also pre- sIerved with continuous heating (2000C). Heterofunctional polycondensa- tion of alkoxy derivatives of organoaluminum. compounds also takes place With arganosilicon compounds in which.hydroxyl groups are replaced by other functional groups; In this processy ca:prylio acid is separated presumably due to the presence of.HC1'~traoes. Therefore, insoluble, steric polymers of compound structure are formedf but no lindar molecules. There are 3 figures, 2 tables, and-7 references: 3 Soviet-bl ocand .1 non-Soviet-bloc. The two references to the English-language pub lica- tions read as followss. USA patent 2744074 (1956); English patent 783679 (1957). ASSOCIATION: Vsesoyuznyl elektrotekhnicheskiy institut im. V. I. Lenina (All-Union Electrotechnical Institute imeni V. 1. Lenin) ~UBMITTEDt July 19, 1961 Legend to Table It .(I) Compound; (2 melting point, 0C. fly Card 3/4 1_?  SOROKIN&,.-jjy ~~Ia Iv ovaa: BOG014OLOV, P.D.. mayor, redaktor; KHOVANSKIY, 1-.P., tei~~'f6heakiy redaktor [Atomic energy and Its use; a bibliography] Atomnaia energiia I Ge ispolizovanie; rekomendatellnyy ukazatell literatury. Izd. 2-oe, perer. I dop. Moskva, 1956. 38 P. (MLIRA 9:8) 1. Moscow. ftblichwya biblioteka (Bibliography--Atomic power)  POKALEV, G.M.; PAROKHONYANK, Z.M.; KLEMENOV, V.I.; KOMAROVA, M.A.; I 10~ WA~ L. I. ... __I_ I ~ Dynamics of the mechanical activity of the heart under the influence of acupuncture in the area of the Chinese points. Sbor. trud. GMI no,9:108-114 162. (MIRA 17:2) 1. Kafedra gospitallnoy terapii lechebnogo fakullteta Gor1kovskogo meditsinskogo institute. (zav. kafedroy Prof. V.G. Vogralik).  BUSEV, A.I.; TIPTSOVA, V.G.; SOROKIILA, L.M. Composition ard stability constants of trivalent tduilllium tartrate complexes. Zhur,.neorg.khim. 7 no.9:2122-21?6 S 162. (ILLRA 1z:9) 1. 1,-Ioskovskiy gosudarstvennyy universitet imeni Lomonosova. (Thallium compounds) (Tartrates)  TIKIMINIOV, V.17.; E-ASLIUK-011, SOROKENA, -L-=.oge.-,etic methods for deter=-Ling the orig:un as related to the sturl , of the selectivity of fertilizution and the fomation of chimeras. -;,v. SO A',,, SSISR no.8 Ser. biol.-med. nauk no.2: 11.7-125 164 (KIRA 18:1) 1. Institut ts-Itologi-, i genetiki Sibirskogo otdelen-iya AN 0 SSSR, Novosibirsk.  GERASIM(Af) S,A. kand.tekhn.nauk; SOROKINA L.P. inzh.; ?IRONKOV.. V.M.,` inzh. .9 -7~~ - - ~ J f Planting vegetqble crops in wide strips. Mekh.i elekesots. sellkhoz. 19 'no*5:53-54 161. (MIR& 14:10) 1. Vsesoyuznyy nauchno-issledovatel'skiy inatitut -ek-hanizataii selfskogo khozyaystva. (Vegetable gardening)  fetr t.~h N . I I and Soro I e JTIIV.. MOSCOW). sit I a 0 S71W tmjBr 111 1.80 g. Asg was a d jr.1=1-011 lik BtO IIIII after 0.5 It. it a steam bath the solnillUs treated vrith 7.7 1. RD Fj; upoit completion of thm;reac on the mixt. was poured Into aq. XH40 yielding at the interface a ppt. of 0.9 g. product, o-blelt was raplilly'seo. yielding 24% tetra-1- Pyrrylboropolassimm Cj4Hji;B4VjK,:colorle3s:3ol1d, dccomp.~ 260d (front Ale,C&Et,O). -The substance doo not have active if reactive 1%.Jtlt 261e2ji;I, pirbving'the 1;.bondlug of B. This fit aq. KOH treated with KI-13 gave a black ppt. which, 'after decolorizing in EtOH gave tetralodopyrrole, decomp. 14G-50*. To C4H4-4)4BK (0-1 g.) in 9 ml.'pyridine was added 0.06 g. A~CCH.COCH, in the form of the Cu com-. ptex, careful licating changed the color from gre to to brown when H:O tras added'pbtg. 400,'o telra-l-pyrrylboir"o%p isola ted as the Pyridinate. C611:jBiM&Cit. yellowi de comp. wbich Is quite.unstab1c. losing. p line in-Severni hra, mistable solid, dcConIp.jm*,a-(C4H,N),BR withaq. Oyri- rrylborir ridiniuns diiiium chloride gave 80/0 $dra-l-p Y C,,1hsjVB, unstable solid. The usst: of Met sylp dinium, bromide fit the above Tilaction jgve 83'%'/- letra-1- rrylbar& X-ethylpyridimium xall, CilifteNjIl, decomp. I (froln C.Ho-AleNO0.  50) SOV/62-58-12-7/22 AUTHORS: Zakharkiln, L. I., Sorokinaj L. P. ein With Carbonyl Compounds TITLE: Condensation of 0,P-Dio o~roAc~rol and the Conversion of Condensation Products Into a-Pyrone Derivatives (Kondensatsiya P,0-dikhlorakroleina s karbonilinymi soyedineniyami i prevrashcheniye produktov kondensatsii v proizvodnyye a-pirona) PERIODICAL: Izvestiya Akademii nauk SSSR .. Otdeleniye khimicheskikh nauk, 1958, Nr 12, pp 1445-1451 (USSR) ABSTRACT: In the present paper the authors investigated the condensation of P,P-dichloro acrolein with some carbonyl compounds, which leads to the production of dichloro diene ketones. Besides, they investigated the possibility of a closing of the cycle of the latter into a-pyrone derivatives: R1 R RC;1:)CH2R' -..- CH0CH=CGl2--'0-RCQ6--CH-CH=CCl2 R CO 0 Card 1/3 With aliphatic aromatic ketones the reaction with P,P-dichloro  SOV//62-58-12-7/22 Condensation of P,P--Dichloro Acrolein With Carbonyl Compounds and the Conversion of Condensat4on Products Into a-Pyrone Derivatives acrolein 4-n the presence of hydrogen chloride takes place easily. Thus, acetophenone with P,P-dichloro acrolein yields 1 1 -i-4chloro-5-phenyl-1 3 -pent ad-i ere -5 -or: HCl C H COCH + CHOCH=CCI --3,-C,H COCH=CH-CH=CC1 6 5 3 2 0 5 2 p-chi-oro-acetophenone, p-oxy-acetophenone, propiophenone and --butyrophenone react, in a similar way. With respect to the mechanism of the closure of the cycle of the dichloro penta- diene system into an a-pyrone system the following consider- ations may be:made: It may be assumed that in acid medium originally a hydrolysis takes place of the dichlorovinyl group into a carboxyl group with a subsequent closure of the cycle of the formed keto acids. In this case an addition of the proton to the CC1 2= CH-group takes place. The assumption, how- ever, that the proton affiliates to the end of the conjugated system, i.e. to the carbonyl oxygen, seems more probable. The process of cyclization can then be represented as follows: Card 2/3  SOV/62-58-12-7/22 Condensation of P,P-Dichloro Acrolein With Carbcny! Compounds and the Conversion of Condensation Produc~ %.s Into a-Pyrone Derivatives H+ #0H RCOCH=CH-CH=CC1 2----R6JEH=CHJ6H=CC12 H HC CH R-C Cci R H 0 F_00 2 2 OH H There are 4 references, I of which is Soviet. ASSOCIATION: Institut elementoorganicheskikh soyedinen-Jy Akademii nauk SSSR Institute of Elementorganic Compounds, Academy of Sciences, USSR) SUBMITTED: April 5, 1957 Card 3/3  5 '( 3 ~ ) -59-5-32/40 SOV/62 AUTHORS: Zakharkin, L. I., Sorokina, L. P. TI TLE-.: Rearrangement, of .'~ 1,1-Dichloro-5-OxY ~Chloro)-5-arylpenta- dienes-1,j Into 6-Arylpentadiene Acid~q(Peregruppirovka 1,1- dikhl6r-5-oksi (khlor)-5-arilpentadiyenov-1,3 v 6-arilpenta- diyenovyye kisloty~ PERIODICAL: Izvestiya Akademii nauk SSSR. Otdeleniye khimicheskikh nauk, 1959, Nr 5, pp 936-938 (USSR) ABSTRJAM.: In the present paper the reduction of some 1$1-dichloro-5-oxo- 5-phenyl pentadienes-1.3 into the corresponding oxide deriva- tives was carried out, and the allyl-anionotropic isomerization into 6-aryl pentadiene aci-d was investigated according to the scheme H ArCOCR=.CH-CH=CC1 ArCH-CR=CH-CH=CC1 2 2 &H ArCH=CR-CH=CH-COOH. Such a re-grouping in pentadienes has hither- to not been investigated. The reduction of'the following diene ketones was carried out with aluminum isopropylate in isoprODY1 Card 1/2 alcohol:'ArCOCR=CH-CH=CC1 with 1) Ar = C H 1 R = H, 2 6 5  SOV/62-59-5-32/40 Rearrangement of 111-Dichloro-5-OxY (Chloro)-5-arylpentadienes-1,3 Into o-Arylpentadient. Acids 2) Ar = 0 6H5f R = CH3 ; 3) Ar- P-ClC6H4, R = H. Of these three oxide derivatives obtained only 1,1-dichloro-5-OXY-4-methyl-5- phenylpentadiene-1 !3.6howed sufficient resistance to heat, so that it could be disti-11ed without-being changed. The other two alcohols had to be converted into the corresponding chlorides for the purpose-of vacuum distillation. In the ex- perimental . the individual reactions are described and the physical characteristics of the substances obtained are given. There are 5 references, 2 of which are Soviet. ASSOCIATION: Institut elementoorganicheskikh soyedineniy Akademii nauk SSSR (Institut, -of Element al-organi c Compounds of the Academy of Sciences, USSR) SUBMITTED: October 24, 1958 Card 2/2  ZAKHARKIN, L.I.,-, ~O ~OKINA,_JI.P!; KHORLINA, I.M. Action of triisobutylalumin= on cyclohexanone. Zhur.ob.khim. 31 no .10:3311-3316 0 161. (MIRA 14:10) (Alurnimun) (Cyclohexanone)  ZAKHARKIN, L.I.; SOROKINA, L.P. CondensOttion Of 9,�-.dichloroacrolein with cyclic ketones and the cyclization of condensation produets obtained to ,4,-pyrone derivatives. Izv. AN SSSR Otd.khim.nauk noo2:287- 290 F 162, (MIRA 15:2) 1. Institut elementoorganicheskikh soyedineniy AN SSSR, (Acrolein) (Ketones) (Pyranone)  ZAKHARKIII . L.I. ; SOIRO'KIIIA, L.P. Condensation of 5,5-dichloro-2.4-pentadienal and 7,,7-dicbloro- 2,,4,6-heptatrienal with some ketones. Izv. Ab SSSR. Otd.khim.nauk no-5:821-823 My 162. (111M 15;6) 1. Institut elementoorganicheskikh soyedineniT All SSSR. (Pentadienal) (Heptatrienal) (Ketones  UKHMIN,, L.Ivj fteparation of 2-pyrone-5- and 26pyrons--6-jwboxtljO &gMs via A/A -dichloroacrolsin. Izv.AN SM Otd.khimenauk no,.11,2096- 2097 N 162. (MIRA .15t12) 1e Institut elementoorganicheakikh soyedineniy AN SSSR. (PYranonse-arboxylic acid) (Acrolein) A  S/07o/62/007/002/004/022 o E132/El6o AUTHORS: Tsukerman, B. I. , Neyl I man, Y1. L. , and Sorokina, L. P. TITLE: Radiospectroscopic orientation of crystals PEIRIODICAL: Kristallo.-rafiya, V-7, no.2, )-962, 224-228 TEXT: The method dbscribed can be used for the orientation of crystals with paramagnetic impurities with an accuracy of about 11. A simple two circle goniometer is used to turn the crystal specimen in the resonator chamber. The loci of particular resonances are followed and the courses are plotted out on a specially constructed sphere. From the shape of the loci the symmetry of the crystal can be identified. Some qualitative analysis of the nature of the paramagnetic. impurities can be made. There are 5 figures- SUBIMITTED: April 18, 1961 Card 1/1  SOROKINA, L.P.; ZAKHARKIN, L.I. Preparation of 6-substituted 2-pyrones viat3, /3-dichloroacrolein and its chloroacetals. Izv.AN SSSR. Ser.khim. no.1:73-77 Ja 164. (MIERA 17-4) 1. In3titut elementoorganicheskikh soyedineniy AN SSSR.   &AXIIARKIN, L.[.~, SORCKINA, L.11. x-, -7. Some transformatlow of 6-phenyl-2-pyrone. Izv. AN SSSR. Ser. khIm. no.5:870-876 165. (MIRA 180) 1. InstLtut elementoorganicheskikh soyedineniy AN SSSR.  AK Ii UR 1 N KOPYLOV, V.V.- SCROKINA, L.P. Action c, diisobutylaiuraL.-ium chloride on some ketones, Izv. AN SSSR. Sar. khim. no.7.--L.L-j4-1197 965. (NIRA 18g7) 1. Institut elementoorganicheskik-h soyedineaiy AN SSSR.  64~3-66 EWT(I)/EWT(m)/EPF(c)/!,;WP(t)/EWP(b) IJP(c) JD/W/GG ACCESSION RR: AP,5019850 up./0181/65/6oT/008/236T/2369 q 4-4 .AUTHOR: AtBarkin, V. LY A.; Lushnikovj. .;~Sgrokina, L., P. a TITLE: Electron paramagnetic resonance of trivalent gadollnium and iron ions in synthetic calcite SOURCE: Fizika tverdogo tela, v-.7, no. .8.1 1965, 2367-2369 TOPIC TAGS: electron paramagnetic resonance,,gadolinium, iron, calcium carbonate, EPR spectrum, selection rule ABSTRACT: The EPR spectra were investigated using calcite crystals grown by the hydrothermal synthesis method, described by one of the authors elsewhere (1,qshnikov) Tr. Vses. nauchn.-issl. inst. sinteza minerallnogo syr1ya v. 8,..173, 1964). The EPE spectrum was investigated with a superheterodyne radio spectrometer operating perature. The constants of the spin Hamiltonian of the tri- at 3 cm and at room tem valent ions replacing calcium In the calcite crystal lattice are calculated. The EPR spectrum of gadolinium. consists of two groups of T lines each, belonging to two magnetically-nonequivalent systems of ions. The iron spectrum consists of five:.. absorption lines corresponding to a change 6m = �1 in the magnetic quantum nuriber. The spin Hamiltonians are written out for bath substances and their constants are evaluated# 7he spin lattice relaxation of Gd3+ in thecalcite lattice was deter- Card 1/2 ~7 -w I A/   ACC NRi -_- A'DSDY~00 CA) SOURCE CODE; UR/oooo/66/000/000/0140/014-3 i ~AVINOR; Garchikova, 11. S.; K-Uhkin, S. T.; Sorokina,. L. F. 1ORG: none TITIS: investigation of the effect of aging and deformation on the dislocation structure of austenitic stool SOURCE: XN SSSR. Institut metallurgii. Svoystva i primenentye zharoprochnykh splavov (Properties and application of heat resistant alloys). Moscow. Izd-vo Nauka, 1966, J40-143 ,LO?IC TAGS: austenitic steel, crystal lattice dislocation, metal agingp crystal "lattice deformation ABS'I"RACT: The compos'.tion of the stool investigated was the following*- 37-33% nickel; 19.44% chromium; 3.16;'. tungsten; 0.09% carbon; 1.3% niobium; remainder iron. %e initial thickness of the foil was 50 microns. A thinning treatment was carried out on ,a band of foil 25 x 150 mm in size. Heating was done0at a temperature of 1080 0for 30 min, and aging in the temperature interval 650-900 , in a vacuum with different holdina times. Fron, the aged bands were cut samples of special form which were M subjected to elongations of 1, 4, and 6% at room temperature. It was.established by the mothod,of microdiffraction. that, after quenching from 10800 In water, there can be;- Cord 1/2  ACC. PIRt A%o34450 obser-ied the following carbide phases in the steel under investigation: niobium icarb2 do (NbC) and a double carbide of the type Fe IVI CAfter aging a' a temperature i 3 ;of 650') for 8 hours, along with small black partiel2s: diffused grey formations can b91 1obsoinrod in the matrix. With an increase in -temperature of aging to 700* (with the I ~sanme holding time), the grey fonriations assume a more marked round form. In general, I !-it is concluded that with a change in the degree of deformation there is a change in the configuration of the dislocations. With a small degree of deformation (1%) there are formed plane agglomerates, but with an increase in the degree of deformation up to 4%, a large number of short dislocations appear and the density of the dislocations -increases. It the same degree of deformation, after aging at 7000 for 8 hours, there ,appear pack-inZ defeots,, Increase in the degree of deformation up to 61 leac's to interweaving of the dislocations in regions which do not contain particlosg and to the accumulation of clusters of dislocations around the particles. Orig. art. hasi I figure. SUB CODE; 11/ SUBIX DATE& IOJun66/ OTR REFt 005 2/2  SOROKINA, L.S.; POTAPOVA, N.U-,., glavnyl vrach. Rupture of uterine vessels in pregnancy and labor. Akush,i gin. n0.2:73 Mr-Ap 153. (MLRA 6:5) 1. Akushersko-ginekologicheskoye otdaleniye 1-oy gorodskoy bollnitsy, Kem- erovo, (Uteras--Rupture) (Labor, Complicated)  SOROXINA, L.S., POTAPOVA. N.Ya., glavnyy vrach. neus and pregnancy. Akush. i gin. no-3:68-69 My-Je '53- (MIRA 6:7) 1. Akushersko-ginekologicheskoye otdeleniye I-y gorodskoy bol'nitsy g. Kemerovo. (Pregnancy, Complicationg of) (Intestines-Obutractions)  SOROKINA, L.S. -~"' I I' W Ixtrauterine pregnancy. Akush.1 gen. no.1:59-60 Ja-f 154. (HLRA 7:6) 1. Iz skusherska-ginskologichaskogo otdoloniya I-y gorodskoy bol'nitsY g. Kemerovo. (Pregnancy, Axtrauterine)  GERSHKOVICH, S.M.; $OROKINA, L.S.; 014ZER, M.P. Reorganization of the system of infirmary care for children with goastrointestinal diseases, Vop. okh. mat. i det. 5 no. 2:69-74 mr-Ap 160. (MIA& 13:10) 1. Iz Murmanskoy detskoy infektsionnoy-bollnitsy (glavnyy vrach M.P. Nemzer). (DIGESTIVE ORGAVS-DISEASES) (IRFANTS-CARE AND HYGIENE)  PMWOVA) OJI.,, kand.med.nauk; WSHCHANINOVA, Ye.A., kand.biolog.nauke Prinimala uchastiye SOROKINA) L.S., vrach. Treatment of pyoderma with biciUin.-3 in combination with immunotherapy. Vest.derm. i ven. no.9:45-49162. (MIRA 16:7) 1. Iz Ukrainskogo nauchno-issledovateliskogo kozhno-venero- lo.gicheskogo instituta (zav. kozhnym. otdelom A..P.Bazyka)o 2. Vrach mediko-sanitarnoy chasti zavoda "Serp i molot" (for Sorokina). (SKIN-DISWES) (BICILLIN)  0 "0 0 0. 1940. No. 7, 10I.-The I metal surfam before painting con- sists iI =e loto of a MITI W phosphates Of metal, on the surface. The phosphate films adhere strongly to the surfam of the cadal and are a strong binding link betweea the acidwe of the awtal and Ow prim". incrru.- in# the adhesim of the pinier. Methods and tech. processes for WHO# thO Metal MdAM are dt.-A-ribCd. W. R. 11e" &SRI 1, i #CIA LOGICAL LITERATURE CLASSWICA11000 S030.0 .&I a.. Got u a AV PO III; T" to, "I aq W, II, K, ffF_uF__T19_I 0000000004 '06 N 00 0 0 * 0 0 0 0 0 * 4 0 , - a , - , - 0 0 1 0 0 0 0 0 0 0 0-0 00-0-06-00 a 0 0 0 0 a 0 0 0 0 0 0 0 gee  AVRAIAENKO, L.I.; KOLESNIKOVA, R.V.; SOROKINhy M.F. Rate constant and the mechanism of reaction between oxygen atoms and acetaldehyde. Izv.AN S&9R.Otd.khim.nauk ito.6:1005-1010 Je 161. (MM 14:6) 1. Institut khimicheskoy fiziki AU S&SR. (Acetaldehyde) (Oxygen) (Chemical reactiono Rate of)  AUTHOPS: Khomutov, N. Ye., 1,iorokina, R. F. SOV/76-32-7-16/45 TITT.E, The Kinetics of the Anodic 11'rocesses on Platinum in Borate- Carbonate Electrolytes (Kinetika anodnykh protsessov na, platine v boratno-karbonatnykh elektrolitakh) F_~~IRTODICAL: Zhurnal fizicheskoy khimii, 1953, Vol. 32, Nr 7, Pr-!556-1564 (USSR) A-STRACT: In connection with the fact that in publications no systematic data are found.on the kinetics of the electrochemical produc- tion of perborates the authors car,,i out investigations concerning the problem in question. The investigations in the coursqof the electrode process -.-,ere carried cut according to the method of polarization curves as well as by determining the perborate content in the solution. Polarization measure- ments of two types were carried out; they were continuous measurements of the anodic potential in a protracted electro- lysis at constant current and a gradual increase of the amperaCe , whereas the anodic potential was determined dis- continuously. From the experimental results on the influence of the composition of the solution on the Derborate yield Card 1/3 may be seen that an increase of the borate content at constant  SOV/76-32-7-16/45 The Kinetics of the Anodic Processes on Platinum in Borate-Carbonate Electro- lytes soda concentration leads to an increase of the yield of active oxygen, and that on the other hand an exchange of the carbonate against the bicarbonate causes an abrupt drop of the content. of active oxygen in the solution in the course of electrolysis. The diagrams showing the anodic potential versus time reveal that at great amperages the anodic potential stabilizes rapid- ly and then remains constant, while in the case of low amperages (of a few microtimperes) a stabilization -takes place only at 1,1 - 1,2 VoljL-,s . The data obtained from the polarization curves at various electrolyte compositions seem to agree with the assumption that perborate is formed in the primary elec- trode reaction which determines the summary kinetics of the process, as the complex character of the influence of the electrolyte composition on the anodic kinetics of the process can not be explained by the theories by Tanatar (Tanatar) (Ref 1), Foerster (Ferster)(Ref 6) and Arndt (Arndt)(Refs 4, 7). It io assumed that theierborate is formed in consequence of one of the ions Bo-3 or BO_ losing its charge, but none of 2 the ions B 0-2. FAm the c nsiderations leading to an explana- tion of tha problem which Oof the two mentioned ,ions determines the kinetics of the perborate formation nay be seen that the Card 2/3 slowest stage of the anodic process in borate-carbonate solu-  SOV76-x2-7-16/45 Th-:~ Kinetics of the Anodic Processes on Platinum in Borate-Carbonate Electro- lytes tions is the stage of the ion neutralization of BO - which forms according to the reaction 2' B 0 2- + 2CO 2-+.H 0 61-00- + 2H00- 4 7 3 2 V 2 3 The BO2 ions formed by a discharge may enter into : secondary, reaction which leads to the formation of uerborates - the nature of this secondary reaction is, however, still open to ouestion. There are 10 figures, 2 tables, and 7 references, 1 of which is Soviet. ASSOCIATION; Khimiko-tekhnologicheskiy institut im. D. I. Mendeleyeva, 1-;-.oskva (MOSCOW.Chemical and Technological Institute imeni D. I. Mendeleyev) SUBMITTED: March 11, 1957 1. Anodes (Ileetrolvtic cell).Electrochemistry 2. Platinum electrodes-Performance 3. Electrolvtes-Chemical reactions 4. Electrolysis-Theory Card 3/3  S/126/60/010/001/027/027/Xx E032/E314 AUTHORS: Nemnonov , S.A. and Finkel'shteyn, L.D. TITLE: Study of the K Absorption Edge in a Zinc-Aluminium Alloy with Small Zinc Concentration PERIODICAL: Flzlka metallov i metallovedenlye, 196o, Vol. 10, No. 1, pp. 148 - 150 TEXT; The present authors have investigated the K edge of zinc and aluminium in the alloy Al + 1.7% Zn (0-7 at.%) which constituted a solid solution based on the face-centred aluminium lattice. The K edge of Zn was obtained in the first-order reflection from quartz. The figure shows the K absorption edge of Al in the above alloy (Curve 1), the K absorption edge of Zn in this alloy (Curve 2) and the K absorption edge of pure Zn (Curve 3). It was found that the K absorption edges of Al and Zn in this alloy are displaced towards lower energies relative to the K absorption edge for pure Zn. The fine structures of the K edge of Zn and Al, including the position of the first maximum are very similar. Card 1/4  S/126/60/010/001/027/027/XX E032/E314 Study of the K Absorption Edge in a Zinc-Aluminium Alloy with Small Zinc Concentration The K edge of Zn in the alloy is displaced by about 0.8 eV from the position of the K edge in pure Zn. The fine structure obtained is summarised in the following table Extrema, eV A a B C K edge of Al in the alloy Al + 1,7'!C. Zn 6.o 9.0 13.7 27.6 38.2 K edge of Zn in the alloy Al + 1,7% Zn 6.2 8.8 13.9 28.o 40.2 K edge of Zn (metal) lo.i 16.2 18.8 24.0 38.4 where A, B. C are the positions of the first three maximav respectively, and a and p are the positions of the Card 2/4  S/126/60/010/001/027/027/X"~' E032/E314 Study of the K Absorption Edge in a Zinc-Aluminium Alloy with Small Zinc Concentration first three maxima, respectively, and a and p are the positions of the first two minima, respectively. The slope of the rapidly varying part of the absorption curve is roughly the same in the case of pure Zn and the Zn in the alloy but is very different (higher) for the Al. There are 1 figure, 1 table and 2 references: 1 Soviet and I non-Soviet. ASSOCIATION: Institut fiziki metallov AN SSSR (Institute of Metal Physics of the AS USSR) SUBMITTED: December 4, 1959 Card  S/126/60/010/001/027/027/Xx E032/E3i4 Study of th6 K Absorptio Edge in a Zinc-Aluminium iloy with Small Zinc Concentration C I OL 8 b C. b  S/126/62/014/oo4/oo8/017 Elll/E160 AUTHORS; Nemnonov, S.A.l Soroki n I a h ikov, A. Z. , Kolobova, K.M., and Finkel'shteyn, L.D. TITLE: The character of the atomic interactions in the intermetallic compounds of the transition elements .aluminium and silicon PERIODICAL: Fizika metallov i metallovedeniye, v.14, no.4; 1962, 535-541 Ai TEXT: A combination of the crystallochemical and X-ray spectroscopic characteristics of the compounds examined with their-, physic'ocheinical properties, enables one to assert that the character of the interatomic bonding forces in these compounds c I(Fe Al, NiAl., FeSi, CrSil CrAl MnA16, FeAl Co A191 CuAl et 3 79 31 2 2'- is extremely complicated. The structural characteristIcs, the )x-ray emission data and the magnetic properties show the presence on a background of the predominantly metallic interaction, of certain-localised bonds between different kinds of atoms, in which the 3d electrons of the transition metal actively participate. Card 1/2  S/126/~2/014/oO/oO/oI7 The character of the atomic ... EIII/E160 In all phases studied, the K absorption spectra of the transition metal show strong hybridisation of the 3d and 4s wave functions of the transition element with the 3P functions. of aluminium or silicon. Allowing for certain conventions in the separation of the interatomic forces into their components, it can be reckoned that the predominantly metallic interaction is supplemented in the cases examined by the interaction of the covalent and resonat- ing covalent type of bonding with a certain polarity, understood as a drawing out of the connecting electron cloud to the side of the more electronegative component (the transition metal). in the system transition metal / Al, this polar component of the bonding. forces is strongly expressed but in the system.transition metal Si, it is almost absent. There is 1 table. ASSOCIATION: Institut fiziki metallov AN SSSR (Institute of Physics of Metals, AS USSR) SUBMITTED: April 4, 1962. Card 2/2  S/126/62~/014/005/003/015 Elll/E435 AUTHORS: Nemnonov, S.A., Sorokina, M.F., Kolobova, K.M., Men'shikov, A.Z7 TITLE: Investigation of the structure of absorption K-spectra of transition metals in intermetallic compounds with aluminium and silicon PERIODICAL: Fizilca metallov i m6tallovedeniye, v.14, no.5,- 1962, 666-672 TEXT: The K-edge of absorption has been studied.of Cr-Al, Mn-Al, Fe-Al, Ni-Al, Cr-Si, Mn-Si, Fe-Si and Ni-Si alloys for ranges of concentration which included almost all the intermetallic compounds in these systems. For all the.compounds investigated the Itinitial" (i.e. long wave-length) absorption remained fairly large and of.1the same order as in the pure metal. With increasing concentration of the transition component the break between the initial and the next intermediate region was smoothed. The energy position of the point corresponding to the Fermi boundary, mostly remained unchanged in most cases. ~he maximum which is ch4racteristic of the pure, transition metal was smoothed at a certain concentration of the second component, a new maximum Card 1/2  S/126/62/014/005/003/015 Investigation of the strucitvre ... El1l/E435 appearing 6 to 14 eV furthler towards the short wave-lengths side and becoming more pointed., The changes described became apparent while still withi,n.the solid-solutign boundaries. Conclusion: in compounds with a high content of the non-transition -component there is strong hybridization of the 3d-, 4s-wave functions of the transition metal with tho 3P-wave functions of aluruinium an(J silicon. There are 5 figures.-and 1 table. ASSOCIATION: Institut fiziki metallov AN SSSR (Institute of,P.hysics of Metals AS USSR) SUBMITTED: April 4, 1962 Card 2/2  A~ PJ jda /,-,s j CL? :;107r'621036100610101011 I Conl',?rence on tho rhemiatry 01113100 b ~7c. e, ~7 of perboratea 4urinr, erectroljqii: 11. Ye. Khanutov, F. ;-~orolrina, L. Fil-itova (No.-,cow) on 113tu,ly of the .7nodia formation in norntj anl carbonate rolution!i and their r.1xtijrej3;11 V. *.,,Zn-:.:h (1:hnrlhov) on "Prod,ictlon of nodium borate by 0 lectrolytio .ind C~i~ti~-ical moth()An;" 0. B. Khaelinturynn, A. P. Kravchinilkly (Itoacow) oil "Study of --tno-iio ;)roce!izos-.-tn,1 formation conditions of peroxidates In solutionrj;" A. Yu. Prokopchik, A. P. Kazra.~ia (Villnyus). I r "Comp..irison of nomp properti~a ~ot dehydrfited ar;-47i-orl purborateo;" :'olodkina Woocow): ".SLudy of reactions between F i r.9 r) vi- , A. N c;irbonbl aci,l :ind alkaline solutions of hydrogen peroxide and the -c,a-bonates ;" A. Yu. Prokopchik , A. 1. Vat"ekyalis syntho;;i:j or pf~i e- Vi I I nyu r;) : "'Electrochemical prop rties of peroxy-car~.. te,.11 V. S Q!1 M111, V. 1. Pagisova I Ye. 1. Yak-ovenko, G. B..SerZeyev (Moscow Univ;rnity I epor%04 on t-n ~~applictiol~ --f", paramagnet fc-re6i5n-ance njethod of detectin,,, free radicals. Further reports were given on the results of -.;or;, dona In the rorlkiy State University (under the supervision of - G. A. I ivrt ev .11n,1 V. A. ~;hunlunov) by G. A. Razuvnyov, V. R. Likhterovi -V -s J." 1111: tiy n L h e a I aand reactions of name anyl oulfonyl peroxiden orranio tiolven to;" G. A. Razuvayev, 11. ~Va-.nnkln: "Roactione of Cayd r H ") 4- C, /,r ka zh;  193 AID jr-ra e 1MPR(5'VING HOT DU CTILITY OF 23-18 STAINLESS STEELS (USSR) 7 F. Surn ol akov, and M. F. Mloshl vich, Ye. 1. , R. D Mininzon, v y a Kuzri-'hno-shta.-,npovochnoye proizvod-stva i o 4z, Apr 1963,:'18-19. S/182/63/000/004/001/004 in an att et--pt to i-npr ove udi e h ot ductility of -03H steel to, 1019 C max, 0X2 18 '~-'i Iand of X2 31 H 1 steel 1. 0 % S i r; 1.2 A, I n rn; a x, 22-215% Cr, and:37-207b -L fboth AISI-310", se-veral variants of dco:d-dizin- ref-i n te!~~ed. g a nd ning have bee The best resnlts were obta-in,-,dvvith add-iltion of 6. 5 k,lion-alLminum. -and.10. 005% -)n a!' -rr or, ~oy irn ;duccd 5 to 10 nnin before tapping. One-ton ingots of steel so b s Lreated could be heated to 1220-1230"C (furnace terjapern-t-ure) and-forg6d into billet 180 t:) 13-0 -11m. souare '.-Jithout reheating. Jngots ol-conventional arii other. experimental heats which had been heated to tenaperat ures over1160'C (furnace temperature) cracked when. fcrrred. AND] Card  ACCESSION NR: AP4043489 S/0133/64/000/008/0738/0740 AUTHOR: Moshkevich) Ye. 1. (Engineer); Mininzon, R. D.. (Engineer); Smolyakov, V. F. (Engineer); Sorokina, H. F. (Engineer) TITLE: Improving ductility of OKh23HI8 and Kh23Nl8 steels SOURCE: Stal', no. 8, 1964, 738-740 TOPIC TAGS: oxidation resistant steel, 0Kh23N18 steel, Kh23Nl8 steel, OKh23Nl8 steel ductility, baron, boron modified steel, boron modified Kh23Nl8 steel ABSTRACT: The hot ductility of oxidation-resistant OKh23Nl8 and Kh23N18 steels can be improved by the addition of boron (0.005%) in the arc furnace shortly before tapping, followed by the addition of aluminum. The positive effect of boron is based on its ability to promote the precipitation of carbides in the form of coagulated particles on grain boundaries, instead of a continuous network. The improved ductility made it possible to forge ingots without reheating, which increased the efficiency of forging facilities by 40% and raised the yield by 1.75-4%. The forged billets had a clean surface without -cracks. Orig. art. hasi I figure. Card - - - - - - - - - - - - - - - - - - - - - - - - -- - - - - - - - - - - - -  KHOMI]TOV, N.Ye.; SGR~-;KHIA, M.F. Quantitati-,re determination of potassli= perox-,-~-arb3nate by the iodc- metric metrica -,'n an alkal,ne medium. Zhur. anal. lh,-m. 19 no.9~116jj'7- a li~, 7 164. (MI RA 17 - 10) Moskovskly kh,*"Tikc--t,,;~Vtinote)(.7,lc~,r-sic4-y inst"tut imeni M6ndeleyeva.  KAR-FTNIKOV, G.03,;--PQROKIN~Ay~ M.F. Spectral and X-ray diffraction anuglys-i-s of ,~he p-roduct obta~ined by electrolysis of potash. Tbur. fiz. khim. 39- ro.2:-,k0'4---,68 F 165, (MIRA 183-4) 1. Khimiko-tekhnologicheskiy institut Mendeleyeva.  nOb9ITOV,, N.Ye.; SOROKINA, M.F.,- SHELUDIKO, O.V. Anodic processes in the electrolysis of mixed solutions of borax and scda. Trudy MKIITI no.44t63-66 164. (MIRA Isti)  SOROKINA, M.F.,, KHOYM-UTOW, N.Ye. Flectr-~Pchamical p-roductilm of potaa3llum persarbonate &nd the study of its prorrerties. Trudy MKHTr nv."A67-?3 164. (MIRA 1891)  a~d mechanism! ol"anodic processes in potaa3tum, carbonate sol-.;tions. Zhur. f-,--. kh~- -.-fll-o-teklinolof-!ichepkiy institut Imeni I-fc-ncieajeyev,~.,  SOV/135-59-11-2/26 AUTHORS-. Llyubavskiy, K~V., Doctor of Technical Sciences, Professor, and Sorokina, M.I., Engineer TITLE: Automatic Submerged-Arc Welding-of Thin Sheets of Different Steels PERIODICAL: Svarochnoye proizvodstvo, 1959, Nr 11, pp 3-6 (USSR) ABSTRACT: The authors express -their thanks to the following persons who as- sisted in organizing research on the problem treated in this arti- izle: Candidate of Technical Sciences F.Ye. Tretlyakov and Engineers S.N. Valeyev, A.D. Karan and B.N. Bad'yanov. The process of auto- matic submerged-are welding is widely used. However, until recent- ly, it has not been applied when joining different steels. This vas due to'the fact that it was hardly possible to obtain such a weld which would meet all the requirements of welded joints, name- ly, strength, plastic properties, absence of cracks, etc. The authors have researched on experimental methods of welding of two different kinds of steels B1654 (austenitic-ferrite class), and 30IGiGSA (perlite class) hardened steel 8 = 120 kg/Mm2. The thick- ness of welded sheets was 1.5 mm. Three groups of problems were Card considered when researching: 1) Selection of the rational geometry  SOV/135-59-11-9/26 Automatic Submerged-Arc Welding cf Thin Sheets of Different Steels of the weld (zone of penetration); 2) Establishing of optimum weld- ing conditions; 3) Assessment of results obtained. In Fig 1, the authors give the shape of the weld used when two different sorts of steel are welded. In Table 1, the basic materials used in weld- ing are given. Four kinds of fluxes were tested: AN-348A, FTsL-21 AN-26 and FTsK-M2. Their respective chemical compositions and mechanical properties are given in Tables 2 and 3. The highest val- ue of the weld metal percussion tenacity was obtained when using flux FTsK-hl2. As electrode wire, brand EI654 was used; it was es- tablished that it ensures an austenitic-ferrite structure of the weld. The results of the research are given in Tables 3 and 4. Fig 5 shows the microstructure of steels 30IGiGSA and B1654 outside the heat-affected zone and at the boundary of melting. There are 3 graphs, 6 tables, I diagram, I photograph and 5 references, 4 of Car-d 2/2 which are Soviet and 1 English. ASSOCIATION: hioskovskiy vecherniy mashinostroitel'nyy institut (Moscow Machine- -Building Evening Institute)  SKIfDIOV, Leonid Petrovich; IOKIMDOV, -1 3., nauclmyy red.; SOROKINA PERSON, M.N., tekhn. red. [Manual on electric line and cable operations) Monter- kabellshchik. Moskva, Vses. uchabno-pedagog. izd-vo Prof- tekhizdat, 1961. 390 (MM: A 15:2) (Electric lineJo (Electric cables)  NIKULIN, Nikolay Vasillyevich;-MARCHENKO, N.L., nauchnyy red-j,; SOROKINA, M.I., red.; DORODNOVA, L.A., tekhn. red.- ~-- - . . - _'~O [Handbook for beginner electricians on electrical materials and products] Spravochnik molodogo elektrika po elektro- tekhnicheskim. materialam i izdeliiam. Moskva., Proftekh- izdat, 1962. 277 p. (MIRA 16:5) (Electric engineering-Materials) (Electricians--Handbooks, manuals, etc.)  MAMONTOVSKIY, Ivan A-leksandrovich; SHMAYEVXA, Semen Matveyevich; KLOKOV, BA., nauchn. red.;,SQRO- A,--M.I., red.; NEalYSLOVA, L.M., tekhn. red. (Mechanization of winding, insulating, and stamping operations in the manufacture of asynchronous motors) Mekhanizatsiia obmotochno-izoliatsionrykh i shtampo- vochnykh rabot pri proizvodstve asirAdwonnykh elek-Lro- dvigatelei. Moskva, Proftekhizdat, 1963. 109 P. (MIRA 17;1)  MELF,I~HKINA, Lidiya Petrovna; ROGOZIN, YU.D., nauchn. red.; SOROKINA M.I., red.; AiRANOVA, N.N., tekhn. red. [Priniepal stages of electronic and ionic automatic control devices] Osnovnye uzly elektronno-ionnykh ustroistv avtoma- tiki. Moskva,, Proftekhizdat, 1963. 143 p. (MIRA 16:7) (Automatic control) (Electronic circuits)  BASS, Eleonora Isaakovna; BERKOVICH, Mikhail Arnolldovich; SAVOSTIYPIIOV, Aleksey Ivanovich; SEMENOV, Vladimir Aleksandrovich; MELINIKOV, M.F., nauchn. red.; ISOROKINA, red.; PERSON, M.N... tekhn. red.- - [Maintenance electrician of relay protection and automatic control systems) Elektromonter po el-spluatatsii releinoi zashchity i avtor-atiki. [By] E.I.Bass i dr. Moskva, Prof- tekhizdat, 1963. 342 p. (MIRA 17:3)  DRCZDGV, Nikolay Ga-rilovich; NIKULIN, Nikolay Vasillyevich; OROKINA,' M.I.,.,.red.; DORODNOVA, L.A., tekhn. red. [Study of electric engineering materials] Elektromaterialo- vedenie. 2., perer. i dop. izd. Moskva, Proftekhizdat, 1963. 349 p. (MIRA 16:11) (Electric engineering-Materials)  SEMENOV, Leontiy Grigorlyevich; DAMIYE, V.N., nauchn. red.; SOROKILA, 14. L,, red. [14anual for storage battery electricians] Elektromonter- akkur..uliatorshchik. Moskva, Vysshaia shkola, 1964. 231 p. (MIRA .17:6)  DIYAKOV, V.I.; (Standard electrical equipment calculations] Tipo-~-fe raschety po elektrooborudovaniiu. lzd.3., perer. i dop. Moskva, Vysshaia shkola, 1965. 130 P. (MIRA 18:4)  GOL'DIN, Iser lsaakovir-~q, SOROKINA, M.I.p red.; MEYNGARD, S.A., nauchn. red. [Instruction in mechanicaa engineering] Prepodavanie tekhnicheskci mekhaniki. Moskva, Vysshaia shkolap 1965. 165 P. (KRA 18:7)  VARTAII0.1, G:,.ayr VMM, Vadim V.*iaciirrirc;-v-'c!ti,, SEREBRYAKOV Vi"-*Ir Mik-lMy1ri%ri-b! SOROUNA, 14J..-red. [Blectrza.echanlical te.~,bnician and repa-lir-aan] Elektr-Imonter- remoritnik. Moskva~ Wsshaia --hk-.,','a,, :11965. 206 p. IMIRA 18., 8)  DASOYAN, Martin Avetisovich., kand. tekhn. nauk, NOIVODEEREZHKIB~ Vladimir Vasillyevich, inzh.; TOI,!ASffVSKFI, Fedor Feliksovich, inzh.; _LU4_QN.UIA, 14.1. . red. [Manufacture of storage batteries] Proizvodstvo elektriche- skikh akkumifliatorov. Moskva. Vysshaia shkola 1965. 4.11 P. tMIRA 18:6) 1.  SEMBNOV, Viktor Gavrilovich; SAGATOVSKIY, N.V., otv.red.; SOROKINA, M.I., red.; ZARKH. I.K., takhn.red. [Effect of the Atlantic Ocean on the regimen of temperature and precipitation in the European part of the U.S.S.R.] -Vliianie Atlanticheskogo okeans na rezhim temperatury i osadkov na Avro- peiskoi territorii SSSR. Moskva, Gidrometeor.izd-vo, 1960. 147 P. (KIRA 13:8) (Atlantic Ocean--Temperature) (Meteorology)  BORODKIII, V.1%; Prinjw1i uchuetiy,: yXRMOV, V.I., student; SOROKIlLk, M.I. SMIJUTOVA, A.L., studentka ' Phthaloc7anine analogs. Zhur.ob.khim- 30 no-5:1547-1553 1/v 160. (MIRA 13:5) 1. Ivanovskiy khimiko-tekbnologichookiv institut. (Phthalocyanine)  RODIONOV, Nikolay Aleksandrovich; NIKIFOROT, Ta.D., red.;_SOROKINA.-M.'I.,, red.; VA , I.M. tekhn. red. --- [Hydrology of the region around the muth of the Don River] Gidrologiia ustlevoi oblasti Dona. Pod red* IA D. Nikiforova. Moskva, Gidrometeor. izd-vo, 1958. 94 p. (MIRA 11:91) (Don River-Hydrology)  MMIPTUNOV, N~A.; MAY33111, S.S., red.; SCRCKM, M.I., red.; ZXMTSOVA, T.Te.; teldm. red. [YqdrologV of waters.off the Tolia Delta] Gidrologiia prednetv- evogo vzMor'ia'VbW. Pod red. S,'S.Baidiua. *skva. Gidro- meteor. izd-vo, 1958. 142 p. (KM 11-.9) (Caspian Sea-Hydrology)  PIOTROVIGH, Villgeltm Vladislavovich; GHIZHOV, O.P., red.; SCROKIKA,-Kj.,... - ~ red.; ZAMI, I.Me, tekhn. red. [Formation and thawing of ice on lakes and reservoirs and calcu- lation of times of icing over and clearing].Obrazovanie i staivanie I'da na ozerak~-vodokhranilishchakh i raschet e*rokov ledostave, i oc hishcheniia. Pod red. O.P. Chizhova. Moskva, Gidrometeor. izd-vo, 1958. 191 P. (Hru 11:8) (Ice on rivers, lakas, atej  'So Y, 6 ')161 . T AUTHORS; Stavrov, O.D., Soroki,-aa, M.1. 132-58-4-2/17 TITLE: quantitative Calculation of Accessory Minerals of Granitoids in Large Sized Slides (Kolichestvennoye opredeleniye aktsessor- nykh mineralov granitoidov v bol'shikh shlifakh) PERIODICALt Razvedka i Okhrana Nedr, 1958, Nr 4, pp 8-15 (USSR) ABSTRACT: Since petrographic and geochemical research requires an exact and full knowledge of the quantitative mineralogic composition of eruptive rocksp including also the quantityt of accessory minerals, a method to make these calculations in a cheaper and simpler way has been proposed. Until nowithese calculations were made with the aid of large sized slides of minerals and with aid of a schlich analysis. The elimination of the schlich. analysis and the use of large slides only has been proposed and the method of calculatinn is described. There are 3 Photos, 3 tables, I drawing and 4 Soviet references. ASSOCIATION: GEOKNI AN SSSR (GEOKNI AS USSR) AVAILABLE; Library of Congress Card 1/1 1. Minerals 2. Granite-Analysis 3. Geochemistry 4. Petroleum-Sources  KOMaOV, Valentin Dpitriyevich; SUBBOTIN, A.I., otv.red.; SOROKINA, M.I., red.; ZAR , I.K.. tekhn.red. (Spring runoff of lowland rivers in the Buropean part of the U.S.S.R.. conditions influencing ~-ts formation and methods used in predicting it] Vesennii atok ravninnykh rek Bvro- peistkoi chasti SSSR. usloviia ago formirovaniia i metody prognozov. Moskva, Gidrometeor.izd-vo (otd-nie), 195P. 294 p. (HIRA 12:8) (Runoff)  FAGAVA, S.T.; ZAKHAROVA, N-M.; SEVALKINA, N.A.; S.AGATOVSKIY. N.V., otv. red.; SOROKINA, M.I., red.; ZARK , I.M., tekhn.red. EAtmospheric macroprocesses causing considerable monthly air temperature anomalies in the European part of the U.S.S.R.] Atmoafernye makroprotseesy, obuslovlivaiushchie znachitellnyo mesischnye anomalii tomperatury vozdukha no Evropeiskoi terri- torii SSSR. Moskva, Gidrometeor.izd-vo (otd-nis), 196o. ill p. (MIRA 13:8) (Atmospheric temperature)  SHUPYATSKIY. Arlodiy Borisovich; KOSTARET, Y.T., red.; SCROKINA, M.I., red.; ZEWSOTA, T.Ye., tekhn.red. (Radar measnrement of the intensity and some other characteristics of precipitation] Radiolokatsionnoe izmerenie intensivnosti i nekotorykh drugikh kharakteristik osadkov. Pod red. T.Y.Kostereva. Moskva, Gidrometeor.izd-vo, 1960. 118 p. (MIRA 14a) (Precipitation (Meteorology)) (Radar meteorology)  IVANOV, A.P.; KIRILWY, I.F.j RYBNIEDVO I.F.; SIROTOV, X.M.;-_ SOROKINA, M.I., red.; ZAR , IoMs, tokhnored, [Hydrometeorological observations,made on the "Slava-15m whaler of the Antarctic Whaling Fleet in 1955-58 and deep-sea hydrological observations carried out in 1950-51 and 1953-581 Gidrometeorolo,- gicheskie mbliudeniia na kitoboinom sudne nSlava-150 Antarkticheakoi ~:itoboinoi flotili v 1955-58 gg. i glubokovodnye gidrologicheskie nabliudeniia v 1950-51 1 1953-58 gg. MoskTa, Gidrometeor. izdvvo (otd-nie). 1960. 319 P. (Magreow. Gosudarstvannyi okeanografichoskii institut. Trudy, no-58). (mIRA 13:11) (Antarctic regions-Meteorology, Maritime-Obaervations) (Whaling-Research) (Antarctic regions-Deep-sea sounding)  VOLPYIUN, Georgiy Abramovich; IVI-JIGHUKOV, A.F., nauchn. red.; ZHIVGV' M.S... nauchn. red.; SOROKINA, M.I., red. [Industriall training of powerhouse electricians; concise methodologic&I instructions] Proizvodstvennoe obuchenie elektromonterov remontnikov; kratkie metodi- cheskie ukazaniia. Moskva, Vysshaia shkola, 1964. 162 p. (MIRA 18: 1)  C th", k7tr.  OOA SC)RO Kliq Be I aI~.ILA ORTALLUINKAL Ulfwal IIWKATNN lick$ a v S01400 MAP ONT Got aull"Ple mill3l as Co. &11 Al LI I a' - ; C', ' 1, ; *' ' a' ; g' 'g F-r-T-T T-7 r U AA I I I 5d 0 0 v I v 0 0 A a -1 1 1 u v met Ifulon too : 0 0 0 0 0 0 0 0 * 0, 0 0 -0 0 0:0 0 0-0-0 0,49 0 0 0 0 0 0 0 0 0 0 0 0 0 mite Goo dos "goo, woo coo goo Woo  SOROKINA,M.I. Variability of the chromosome complex in tissue cells of warm- blooded animals. Izv.Akad.nauk SSSR Ser.biol.,Moakva No.6:97-123 Nov-Doe 50. (CLKL 2o:4) 1. Institute of Animal Morpholoff imeni A.H.Severteov of the Aca- demy of Sciences USSR.  --- - - ------- GTH5FL Vol. 5 No. 1 Jan. 1952 SurokinA, Mj. (.~.N. Severtsov Institute of Animal Morphology, U.S.S.R. Academy nf S,irrtw), of the chromosome complex its the tissue cells of warm bluodcd animals. 97- Izj y Isvestlya Alkademil Pauk, S.S.S.R., Serlya Blologicheski;y1i .10.  SOROKIIIA, M. I. SOROKINA, '4. 1. -- "The Variability' of a Chromosome Group in the Tissue Cells of Warm-Blooded Animal6.11 Sub 26 Feb 52, Acad TrIed Sci USSR. (Dissertation for the Degree of Candidate in Biological Sciences.) SO: Vechernaya Moskva January-December 1952  PZSHKOV. N.A.; RAUTEESHTM, Ya. I. Akw";CHEMHI 1 0, A.F. SHARKOVA, A.S. Cytological modification of aycelUz Actinomyces globosporus in lysis under the effect of actinophage. Mikroblologlia, Koskv& 21 no. 6:665-670 Nov-Doe 1952. (GLKL 23:3) 1. Institute of Animal Morphology of the Academy of Sciences WSR and Institute of Microbiology of the Academy of Sciences USSR. Moscow.   Morphological changes in the nerve cells of the cerebellum in general and local X-ray irradiation of white nice. TSitologlia 1 no.4:374-378 J1-Ag '59. (MIRA 32:10) 1. Laboratoriya radiobiologii Institnta morfologii zhivotnykh AN SSSH, Mosk-va. (X JULYS--PHYSIOLOGICAL EMCT) (CEREMLLUM-11UMVAT1011)  SOROKINA, M.I. _'"*~rphological changes in the nerve cells of the medulla oblongata folloving general and local X-ray treatment of animals. Trudy Inst.rorf.zhiv. no.24:126-134 159. (MIRA 13:3) (X RAYS-PHrSIOLOGICAL IMCT) (MBDULLTA OBWWATA--IWARVATION)