SCIENTIFIC ABSTRACT STARTSEV, V.YE. - STARUKHIN, N.M.

 V(,7 -.- " -1 1-11-.'T" V" IJ. I ~- 1 SLL,Id,~r Of LUre relatiGnship of the electric conductivity c f s J ng 1. ~ _;Ie cr,~:stals of moiybdenum, -and tungsten in the low temperature ran,r-e. Fiz. meL. i metalloved. 18 no.6:SS8-894 D 164. (1*1!F-f',. 18:3) 1. nstl-utit kristallografii z".!T SSSR i institut fiziki inetallov AN SSSR.  "01-730-' - _1'/ b 3- W6 6 ACC NRj Apo 2 Q.Pl) SOUPCE COD'I": -U-R/01266/606 02 7 AUT"HORS: Volkenshteyn, 11. V.; Dyakina, V. P.; Novoselov, V. A.; Startsev, V. Ye. ORG: Institute of Metal Physics, AN SSSR (Institut fliziki metallov JUT SSSR) TITLE: Peculiarities of the temperature dependence of electric resistivity of ~Xsprosium at low temperatures SOURCE: Flilka metallov i metallovedeniye, v. 21, no. 5, 1966, 674-677 TOPIC TAGS: dysprosium, electric resistivity, resistivity ABSTRUCT: The electric resistivity of highly purified'dysprosium (R 30OX/R42K 105) t*as measured over the temperature interval 1-5--300K to determine the magnetic contribution to the electric resistivity as a function of temperature. The resistiv- ity was meas-ecl On 10 x 1 x 0-5 mm strips made of distilled dysprosium using a cryostat (R. V. Colvin and S. Arajs. Phys. stat. sol., 1964, 4, 73). The results are shown in Fig. 1. These results were found to agree well with the theoretical predic- tions proposed by A. K. Mackintosh (Phys. Lett., 1963, 4, 140). This is demonstrated in Fig. 2 which shows a comparison. UDC: 539.292:  L 40-201--r-56 ACC NRt AP6017302 tr-7, 01, 0 Fig. 1. Electrid resistivity of~ Fig. 2. Low temperature electric resistivity: dysprosium: 1 - total.resistiv- 0 experimental results; solid line - curve ity; 2 magnetic resistivity-. -4 kT 9 m Ole with a/RC)C , 1.27 x 10 degrees A/k = 30K; dotted line - curve of T 2 function having common point with experimental remdts at -,-,i T = 24K. Orig. art. has: 2 formulas and 3 figures. Card 2/2,,W-/" SUB CODE: 1-1/ SUBM DATE: 1OAug65/ ORIG REP. 005/ OTH REF: 004 i C 102. R, (T) R--P77  L-AU; Nk- AP6037057 SOURCE CODE: UR/0056/66/051/00511311/1316 AUTHOR: Startsev, V. Ye.; Volkenshteyn, N. V. Novoselov, N. A. GRG: Institute of the Physics of Metals,~ AN SSSR (Institut fiziki metallov AN SSSR) TITLE: Galvanomagnetic properties of molybdenum crystals in intense effective fields SOURCE: Zhurnal eksperimentallnoy i teoreticheskoy fiziki, v. 51, no. 5, 1966, 1311-1316 TOPIC TAGS: molybdenum, crystal, molybdenum crystal, single crystal, transverse magnetic field, galvanomagnetic effect, Hall effect ABSTRACT: The anisotropy of galvanomagnetic properties (Hall effect which is even with respect to a magnetic field of transverse voltage and magnetic resistance) of a high purity single crystal is investigated at liquid helium and liquid hydrogen temperatures in transverse magnetic fields up to 25 koe. The results are discussec, F- within the framework of the theory of galvanomagnetic phenomena [I. M. Lifshits, Sqrd 1/2 Z.  STARTSEV. V.T.; RAZHAKUNIII. S.L.; YEGOROVI, V.K.; PASHANOVA, L.D.; YlffSbTBV& "W~= ~.~:'-BAST14 K.Lfo; BELOECRODOV, P.P.; DEDOV, N.D., red. [Econonq of Amur Province; a statistical manual] Marodnoe khoziaistvo Amurskoi oblasti; statisticheskii sbornik. Blagoveshchensk, Am-arskoe knizhnoe izd-vo 1957- 111 P- WRa 1i:6) 1. Amur,(Province). Oblastnoye statisticheskoye upravleniye. 2. Statisti6heskoye upravleniye Amurskoy oblasti (for all except Bolqborodov. Dedov). 3. Nachallnik Statisticheskogo upravleniya &Wrakoy obla6ti (for Beloborodov) (Amur rrovirice-Sta tis ties  1. D-TARTZV, Ye. 2. U31Z (600') 4. T-umbermen 7. Fully satisfy the cultural interests of lumberjacks. V pom. profaktivu 14 no. 7 1953 9. Monthly List of Russian Accessions, Library of Congress, June 1953. Unclassified.  STARTSEV, Yevgrenly Mikhaylo-vich; FOLYAKOVA, V., red.; KUZNETSOVA, A., (Beans and corn are companion crops] Boby i loakuraza druz-hat. Moskva, Mosk. rabochii, 1962. 17 p. (MIRA 15:6) 1. Upravlyayushchiy otdeleniyem No.5 sovkhoza im. I maya Shchelkovskogo rayona (for Startsev). (Beans) (corn (Maize))  VICHIRKIN, S.G., gorayy Inzhener; AUUa~,,Tu..G. .., ",, gornff inzhoner. Sliding of interml dumps at the Kmyvhbur= iron mines. Ger.shur. no.4:57-59 AP 156. (MLRA 9:7) (Kerch--Strip mining) (Iron mines and mining)  STIRTSEVI, Antonina Illinichna; KAL NSKIT. V.G., red.; TIMOVETIVA, N.V., tekhn.red. tProcedure for examining labor disputes] Foriadok rassnotroniia .I trudovykh sporov. Moskya, Gos.izd-vo iurid,lit-ry, 1960, 124 p. OKIRA 13:6) (Labor disputes)  Dynamics of content of auxin% in leaves and flowers vf red clover, A. M ~ Aft Lwev jud A. V. Start-~j (ArA.I. Sci. 71. %37-40CIOW).-Auxin kvul in young Aovmr buds i. VVry low. but it r6cs rapidly with plant development. cspecially in the polka grains; the auxin levels In the ~kaves are consistently very low. Addni. P% K fertiliz, - tion causes a rise o(auiiins in the reproductive orpris of th.. ptAnt, slong with the &xneral finprovenient of the comli- tion of the alant. 0 . M. KoKoLipoff  STARTSWA, A. V. Chemical Absto ~Vol. 48 No. 9 I-lay 10, 1954 Biological Chemistry We UM04f substances-06-al- X oidle Eej d EvI red davir AA. M. Alckseev and KI WS iol, lost, Acad. Sci. U.S.S.R., -Natsk S.SS.R. 93, 709-12(1953),-The bins of sabownces, w are specific o4.-activators present in plant and animal tissues, was followed in red I Ants using Vornk idilis as'le index-of activity. eJY the bi. material declines In the leaves at the time = of stem formation, probably by flow of the material to the stem matter during its growth. jVhen stem growth sub-_ sides, the bios content of the leaves rises. In the flower clump the bins content declines steadily as the flowers de- velop. Highest blos content is found In the. flowers of plants that are supplied with NT-P-K fortified with - B. Seed formation serves again to Increase the bios content of these parts of the plant and the content of bios rises with development and ripeningof the seeds. Fertilization of the plant increases the accumulation of blos matter. G, NI. KosolapDff-  ALMSEUT, Aleksey Mikheylovich; VASIVYLTA, Irina 14ikhaylovnfi;, ST-ARTSWA. Anna V.asillyevna.; qq�KV, N.A., otv.red.; SHAROVATOVA, I.B., red.izd-ve; ASTAFIYMVA, G.A., takhn.red. [Physiology of metabolism in red clover] Fiziologiia obmena veshchestv klever8 krasnogo. Moskva, Izd-vo Akad.nauk SSSR, 1959. 145 P. (MIRA 13:1) (Red clover) (Plants--Metabolism)  ALIKSNM, A. M..; VASILIYNVk, Metabolic role of the main root in red clover. Bot.zhur. 45 no.6:785-794 Js '60. (MIRA 13:7) 1. Biologicheskiy institut Kazanskogo filial& Akademii muk SSSR. (Red clover) (Hoots(Botany)) (Plants-Metaboliam)  NADIROV, N.K,; STAqTSEVA, E,P. Study of the adaorptive properties of clays. Khim. v shkole 16 no.2--63-66 M:T--&p 161. (MIRA 14,-6) 1. Pedagogicheskiy inatitutg Khabarovsk. (Clay) (Adsorption)  OZHIGANOV, V.S.; LEVANTO, M.A.; KOROLEVA, V.A.; Prinimali uchastiye: KOZLOVSKIY., N.I.; ABOIMOV, P.S.; STAECSEVA, G.B.; KRIVONCSOVA, R.B.; SHEBSTYUK., M.I.; KORIOVALOVA, T.,'~-.,-ZH-A-BO-T-1W-Y,-=.M.; RADIN, F.A. Improving the technology of producing electrical steel. Stall 22 no-4:343-346 Ap 162. (MIRA 15:5) 1. Verkh-Isetskiy metallurgicheslciy z-avod. (Steel-Electric properties)  DOKSHITSKAYA, A.I.; OZHIGANOV, V.S.; STARTSEEVA, G.B.; LEVANTO, M.A. --- Using type AlCaSi complex alloys in the manufacture of transformer steel in electric furnaces. Trudy Ural. polJLtekh. inst. no.116: 89-101 161. (KM 16:6) (Steel-Blectrometallurgy)  KHOLODOV, A.I~; DOKSHITSKAYA, A.I.~ STARTSEVA, G.B.; LEVANTO, M.A. p Some indices oil technological conditions for the manufacture of transformer steel in electric arc furnaces. Trudy Ural. politekh. inst. no.116:102-109 161. O(IRI 16:6) (Steel-Electrometallurgy)  ~A CC- N RF-A E663 2" 8 SOURCE CODE: AUTHOR: Galaktionov, I. I.; Startsev) G. P. !ORG; none iTITLE: Light source for investigations in a shock tube in the near vacuum ultraviolet ~SOURCE: Zhurnal prikladnoy opektroskopii, v. 5, no. 3, 1966, 385-386 :TOPIC TAGS: discharge tube, shock tube, uv spectrum, flash lamp iABSTRACT: The authors describe a simple design of a U-shaped flash lamp that !produces a continuous spectrum from 1600 A to the visible part of the spectrum (Fig. 11). The working pressure is 6 - 10 mm Hg. The flash is ignited by discharging a capacitor from 2.5 - 3 k- through an artificial long line consisting of LC sec- tions. The uniform part of the flash lasts 50 psec, and the amplitude is reproducible from flash to flash within 5%. A sample oscillogram of the absorption of C02 heated in the shock tube to 5000K, obtained at 1720 A wavelengthj, is presented by way of an example. Orig. art. has: 2 figures -Ord 1/2 UDC: 535-89 + 533.6-071.8  ACC MR: AF60 .32448 Fig. 1. Overall view of the source and of the law- pressure compartment of the shock tube. 1 - UP peep- hole, 2 - low-pressure compartment,, 3 - peephole mount, 4 - lamp gasket flange, 5 - nut, 6 - long diaphragm, 7 - capillary, 8 - tungsten electrodes. SUB CODE: 20/ SUBM DATE: OqNov65 ATD PRESS: 5100  of se'00I Fn)t s' T, -Y.L -I, . ..-. -V~I, 2 . - . o- 01 - 3A  B"LENIKIY, Ye.Ye-.: Vf"TLAY V.4.; START":~EV~, l.f. -)P g-'nserz and the 2ong-leaf carl-ine thi.,~t2s on C, 0S.2hell1w a inhibiticr. Mat. k izu,2b. zh,~,nl. i drug, lek. rast. Da,11. kl-nxt. nc).5.133-135 163. WIM 1738) 1. Pern;~kiy farmatsevticheskiy imst.if,,~jt.  ?bar=- 93L "Infliaefice. of Thermomagnetic Treatment Upon :the Zloict*i6Ial Resistance of Soft Magnetic Materialop" Ya. S. Shun, -1. Ye'. Startseva; Inst Phys of Metals, U2%1 Affil, Acad Sci USSR Dok Ak Nauk SSSW' Vol LXXIV, No 3, PP '473-475 4 Investigates subject influence on resistance amd P4 its ~ftriation in magnetic fld for 66-permalloy W-1zng, .~ &M idrO. 6 rnu, diam,: to, verify, es- suWtioa that oriented magnetos trictive stressos 174TT4 VSSR/Physics Magnetism, Thermo- 21 SeP 50 (Contd) occurring during thermomagnetic treatment chwWa structure and crystal lattice. Submitted 7 Jul 50 by Acad 1. P. Bardin. 174T74 P- W  SOV/1 12-58 -1-92D Translation from: Ref erativnyy zhurnal, Elektrotekhnika, 1958, Nr 1, p 9 (USSR) AUTHOR: -StarL L Ve. - u-v-a, TITLE: Investigation of the Durability of Residual Magnetism in Soft Magnetic Materials (Issledovanive ustoychivosti ostatochno namagnichennogo sost3yaniya myagkikh magnitnykh materialov) ABSTRACT: Bibliographic entry on the author's dissertation for the degree of Candidate of Physical and Mathematical Sciences, presented to Ural'skiy gos. un-t (Ural State University), Sverdlovsk, 1956. ASSOCIATION: Ural'skiy gos. un-t (Ural State University) 1. Magnetic materials--Magnetic properties card 1/1  5TA9T-5EVh,, T, USSR / Magnetism Ferromagnetism Abs;Jour : Ref Zhur - Fizika, No 4, 1957, No 9534 F - 4 Author : S-bartseva I.E. Shur, Ya. S., Inst s ute of Physics of Metals, Ural' Branch, Academy of Sciences USSR, Sverdlovsk. Title Residual Magnetization of Nickel and Its Stability. Orig Pub Fiz. metallov i metallovedeniye, 1956, 2, No 3, 568 Abstract A study was made of the influence of the preliminary treat- ment (recrystallizing ann ling, oxidizing annealing, and plastic deformation by tension or compression) on the value Of Ir of nickel and its stability against alternating ma- gnetic fields, mechanical vibrations, and temperature fluc- tuations. It was observed thatLtreatment of the material (even such treatment that does not lead to the creation of a crystalline or magnetic texture) can change radically both the value of Ir as well as its ability. In this came the stability of Ir can both increase and decreasewith increa- Card Lsj~ag Hc. 4; USSR/Magnetism Ferromagnetism. Abs Jour : Referat 2hur - Fizika, No 5, 1957, 12003 Author : Startseva, I.Ye. Shur, YA.S. Inst Title Change of the Magnetic State of Soft Magnetic Materials Under the Influence of Alternating Magnetic Fields. Orig Pub Fiz. metallov i metallovedenlye, 1956, 3, No 1, 190-191 Abstract Report on a study of the variation in the value of Ir of annular specimens of nickel and perntindure under e in- fluence of alternating magnetic fields having an amplitu- de that diminishes smoothly to zero. It is shown that such an alternating field cannot only demagnetize a resi- dually-nagnetized specimen, but in some cases it can in- crease the Ir of the specimen, and also change the sign Of Ir. Card 1/1  STAE,ISEVA, I. Ye., and SIRE, Ya. 3 - "The Structure of the Realdutil Mal-metized Ferrowagnetic by Aid of the Method of Powder Patterns; the change of this structure under the Influence of a Chaneing. Magnetic Field." PRPsr WOO=W at the A-U-Wm =*tlng m Magotle Struoturo of Fe=omagmetios ,:,=G 1958, 1n Mmno7mk,, VOGt1W *P=a=*d 'by Imt. Of Haysios, Mad. Sol, DaW, cmd Comm. for Mr4petism, Dept F4m-Matb Sci, AS LW,  SOV/126-6-4-6/34 AUTHORS: Shur, Ya.S., aart Be va _ 1. Ye TITLE: Change in the Magnetic Structure of Residually Magnetised Crysta15 of Silicon Iron in the Case of Demagnetisation with an Alternating Field.(Izmeneniye gnituoy struktury ostatochno namagnichenn,7kh kristallov kramnistogo zheleza pri razmagnichivanii peremennym, polem) PERICDICAL:Fizika metallov i metallovedeniye, 1958, Vol 6, Nr 4, pp 614-620 (USSR) ABSTRACT: In earlier work of the authors,(Ref.1), relating to studying by means of powder patterns the magaetic structure of silicon iron cirtals which are in the state of residual maguetisation, it was established that the magaetic structure of a residually maGmetised crystal may consist of basic magastic reg;LorLs the ma vector "r guetisation. - . of these regions is orientated in-the direction of easy magnatisation, which is near to the direction of the fi*ld of preliminary Card 1/? magnetisation of the crystal), reverse regions (with  SOV/126-6-4-6/34 Change izx the Magnetic Structure of Residually Magnatised Crystals of Silicon Iron in the Case of Damgnatisation with an Alternating Field anti-parallel orientation of the _f. vector), supplementary closing regions of various types and also sub-regions which occur around dofecits. Thereby, the -- authors defined as "closing regions", regions which form around the surface of the crystal and-redue-vt its total enorgy. It was also-established that the -type of the magnetic structure in the state of resi&ual magnetisation depends on the crystallographic orieutation of the surface of the specimen, on the orientation relative to the crystallographic axes of the crystal of the field which brought about the pre"iminary magnetisation and on the type of the magAetic structure of adjacont crystallites. It follows therefrom that the type of magnetic structure in the residually magnatised state can differ for differing crystals. Therefore, it can be anticipated that th* change in the Card 2/? magmatic structure in the case of demagnetisation of  SOV/126-6,4,6/34' Change in the Magnetic Structure of Crystals of Silicon Iron with an Alternating Field Card 3/7 Residually Magnetised in the Case of DemaVietisation residually magnatised crystallites will also differ., depending on the type of their magnetic structure in the original state of the residual magnetisation. The details of the process of demagnetisation can be established only on the basis of directly observed hAlagess of the magnetic structure and, in order to stablish these,, experiments were carried out which are described in this paper. The, experiments were carried out on polycrystalline specimens of silicon iron containing a large nimber of crystals with various crystallographic orientations of the surface. Tho linear dimensions of the individual erjstaIlitas were 0-5 to 2.0 mm* For excluding the demagastiaing-offeet of the ends of the specimens, the investigations were carried out on rings of 40.mm outer diameter and 28 am iinin r diameter with a thicImess of 0.21. - 0.2 mm. Preparation of the surface of the spa cimens and of the magnetic suspension was carried out by means of methods  QOV/126-6-4-6/34 Change in the Magnetic Structure of Residually Magaetised. Crystals of Silicon Iron in the Case of Dema,-;aetisation with an Alternating Field described in earlier work (Ref~2). Otservation of the powder patterns was carried out by means of an instrument, a photo of which is reproduced in Fig,l. The investigated. specimen was placed ix. froat cf the objecti-Te- lens of the microscope in a special attachment which was fixed to the stand of the microscope. The specimen colald be turned about its axis and could also be displaced along its radius by means of-screws. Preliminary magnetisation of tho-investigptod spec-imen waz effected by the field- of a circular perz,=*nt magnat of 200 Oe; the demagae'u"Lsation was effected by a 50 cps magaetic field. The ci):-eular magnetic field was gone-rated by passing a (d.c. or a.c.) current through a coil which can be taken apait and which surrounds the specimen. The amplitude of the a.c. field was made to --mrj continuously each time from the ma-riolm value to zero by me-ans, of a special transformer Card 4/7 with a mobile core, The powder patterns vmre photographed  SOV/126-6-4-6/34 Change in the Magnetic Structu-ne. of Residually Mapznetised Crystals of Silicon Ii~on :iu Case of Demagnatisation with an Alternating Field by means c,f a camera which was attached to the microscope in su--h a way that it was possible -to follow the magnetic structuxe of the specijwn whilst the exposures were being taken. Some of the obtained powder patterns are reproduced. (Fig.2--5). On the basis of observation of the powder patterns in a large number of crystals with various crystallographic orientations. the following tonclusions were arrived at: 1. The procezz of N-ariation of the magnet4 "c structure of a crystal under the effect of an a.c.field during transition from the residually magaetised into the demagnetised state takes place as foilows: the suliplementary surfaoe regions become transformed into re,"rse regions; tha reTerse regi-ons become ex~uended and subseqjbi~t fragmentation of the re-werse regions was observed; vab-rt&icus newr became transfomed into reverse regions. Card 5/? 2. Supplementary reF ,tons and regicus with reverse  S-OV/126-6- 4-6/34 -Change in the Magnetic Struct~e of Residual!y MKgnetised Crystals of Silicon Iron in the Cast of Demagaotisation. with an AlUrnating Field magnetisation, ivh:.xb. occun In the cLys~al in the state of residual umgapA,-,saf;j-c-n, 7vaduee the stabi'lity of its magnetic. stvacture agaii,.at, the demagpaltising In pxesenra (if revvrse J*egions the residLially magnetised state is the most uustable-4 e-~ven in very weak magnetic fields a displac-.9mant of the inter-domain boundsxies takes place. This --an easily, be. linde~rstood if it is taken dmt~:~ that during displacement of t'ba bouri(3-3xies of xevversii naSnetisation regicas no appre:~A.a'-Ile Ln their areas takes place, Vhilst transformation cf V- suppiem-t%ntary regims 'Into --e-mr-se regions is alwa-ys linked with a consideisbls increase of a:c-saz --,f the. inter-i.3maj-n bc~,.mdaries. 3. In the case -A rercated magr-stisation with a d~c. field, the ap :pearance of tLe ma-gr--tt-ic, structur-0- in the state c.-C res2.(--aal zagr-etisaticu viiii differ sach time in the same way aa t-te c,.1- the zaegiati12~ Card 6/7 structi.,-re ef a -i-r- of 2:*--pea.t7.e,1  SOV/126-6-4-6/':~ Change in the Magnetic Structure of Residually Magnetised Crystals of Silicon Iron in the Case of Demagaetisation with an Alternating Field demagnetisation by an a.c. field of equal maxinrum amplitude. 4. In the caze of polycrystalline specimens, the crystallographic orientation of adjacent grains will show an appreciable influence on the change of the magnetic structure of the individual crystallites. There are 5 figures and 5 references of which 4 are Soviet and 1 English. ASSOCIATION: Institut Fiziki Ketallov, All SSSR (Institute of . Metal Physics, AS USSR) SUBMITTED; 18th July 1957. Card 7/7  ex ?1 68181 SOV/58-.59-5-10798 Translation from- Referativnyy Zhurnal Fizika, 1959, Nr 5, p 128 (USSR) AUTHORS: -Stark�gy-a~, I.Ye., Shur, Ya.S TITLE- M~gnetic 3tructurec;/of Iron Silicide Crystals in a State of Residual Magnetization ;4 PERIODICAL- Tr. in-ta fiz. metallov. Urallskiy fil. AS USSR, 1958, Nr 20, pp 125 - 130 ABSTRACT. Using the powder figure method, the authors studied the magnetic structure of individual crystallites of polycrystalline iron silicide samples in a state of residual magnetization. The authors discovered that in each crystallite, in addition to the "basic" magnetic domains (magnetized in the directions of easy magnetization that are closest to the direction of the field by which the sample was first magnetized), there generally exist "reverse" and "supplementary" magnetic domains of various forms. In the "reverse" domains the spontaneous magnetization vectors are oriented antiparallel and in the "supplementaryft domains either antiparallel or at an angle of 900 relative to the magnetizatioa Card 1/2 of the "basic" domains. The form of magnetic structure in a state of  AUTHORS: ..-5tartseva, I. Ye., Shur, Ya. S. SOV/48-22-10-6/23 TITLE: The Magnetic Structure of a Ferromagnetic Substance With Remanent Magnetization and Its Change When Demagnetized by an Alternating Field (Magnitnaya struktura ostatochno namagnichennogo ferromagnetika i yeye izmeneniye pri razmagnichivanii peremennym polem) PERIODICAL: Izvestiya Akademii nauk SSSR. Seriya fizicheskaya, 1958, Vol 22, Nr 10, PP 1189 - 1193 (USSR) ABSTRACTt In previous papers (Refs 1 and 2) assumptions concerning some particular features of the magnetic structure of a ferromagnetic material with remanence (1r) and their influence on the stability of remanence was made. In the present paper these assumptions are checked by means of a direct observation of the structure in the case of presence of a remanent magnetization as well as in the case of its annihilation by an alternating magnetic field. Because of observations of powder patterns on the surface of single crystal grains of the polycrystalline samples the following conclusions could be deduced: In a state of remanence in Card 1/3 crystals apart from the magnetic ground domains also inverse  The Magnetic Structure of a Ferromagnetic SOV/48-22-10-6/23 Substance With Remanent Magnetization and Its Change Wher. Demagnetized by an Alternating Field V (obratnyye) and supplementary (dopolnitellnyye) domains of various kinds exist, among them also sub-domains. The existence of these domains leads to a decrease of the remanence which is greater as compared to the theoretical value. In the state of remanence the nature of the magnetic structure depends on the crystallographio orientation of the crystal surface and on the orientation of the magnetizing field with respect to the crystallographic axes. Supplement- ary and inverted domains decrease the resistance of the magnetic structure to the demagnetizing influences. Sub- domains usually do not change into inverted domains. Changes in the magnetic structure of a crystal with remanence at a demagnetization take place in the following way: Some supplementary surface-domains change into inverted domains by growing. These inverted domains expand with the increase of the amplitude of the alternating field. In the case of even stronger alternating fields sometimes a disintegration of the inverted domains can be observed. In polycrystals Card 2/3 the nature of the magnetic structure of single crystal grains  The Magnetic Structure of a Ferromagnetic SOV/48-22-10-6/23 Substance With Remanent Magnetization and Its Change When Demagnetized by an Alternating Field with remanence as well as the change of the structure at a demagnetization is considqrably influenced by the crystal- lographic orientation of neighboring grains. There are 4 figures and 8 references, 6 of which are Soviet. ASSOCIATIONs Institut fiziki metallov Akadem:Li nauk SSSE (Institute of Metal Physics,AS USSR) Card 3/3  MOROZ, V.G., inzh.; STARTSEVA,. I.Ye. Manufacturing cast fittings for high pressure.pipellnes. Xhim. mas'.i. no.4-.45-47 Jl-Ag '59. (iaRA'12:12) (pipe fittings)  ~7.). Tf) N IF, v j PILASE I BOOK EXPLOITATION SOV/5526 Vsesoy-u-noye soveshchaniye po magnitnoy strukture ferrozagnetikov, Kra3noyarzk, 1958, rwlia-gnitnaya struktura ferro-magnetilcov; rraterialy Ilsesoyuznogo ~;ovczhchaniya, 10 - 16 iyunya 1958 .-., Krasnoyarsic (iiagnetic Structuro of Forror.-aEnetic Substances; Materials of the All-Union Conference on the Nagnetic Structure of Ferromagnetic Substances, Ht'~ld in Krrasnoyar3k 10 - 16 June, 1958) Novosibirsk, Izd-vo SIbIroXogo otd. j'U1 SSSR, 1960. 249 p. Errata slip Inserted. 1,500 copies printed. Sponaoring Agency: Akademiya nauk SSSR. Institut fiziki Sibirakogo otdcleniya. Komisslya po magnetizmu pri Institute fiziki metallov Resp. Ed.: L. V. Kirenskiy, Doctor of Physical and Mathematical Sciences; Ed.: R. L. Dudnik; Tech. Ed.: A. F. 111azurova. PURPOSE: This collection of articles is intended for researchers in ferro.magnetism and for metal scientists. Card 1/11  Magnetic structure (cont.) SOV/5526 COVERAGE: The collection contains 38 scientific articles presented at the All-Union Conference on the F.agnetic Structure of Ferro- magnetic Substance3, held in Krasnoyarsk in June 1956. The m,--- terial contains data on the magnetic structure of ferromaSnetIc materials and on the dynamics of the structure in relation to mr,3notic field change3, elastic stresses, and temperature. Ac-- cordinG to the Foreword the study of ferromagnetic materials had a _-i%cceLiz1'xxl beginning in the Soviet Union in the 193013, was oub~;equently digeontinued for many years, and was -resumed in the 1950's. No personalities are mentioned. References accompany individual articles. TABLE OF CONTENTS: Foreword 3 Shur, Ya. S. [Institut fiziki metallov AN SSSR - Institute of Physics of Metals, AS USSR, Sverdlovsk). On the Magnetic Structure of Ferroma-Snetic Substances 5 Card 2/11  .~:agnetic Structure (Cont.) SOV/5526 Kir,~-.n3lciy, L. V., and V. V. Veter (Institute of Phj,3ic3, Sil-rian Branch AS USSR, Krasnoyarsk]. Measuring the Width of the Boundai-I Layer Between Domains in Ferro- magnetic Substances 53 Star la and Ya. S. Shur [Institute of Physics s A*U'Ril*l', 6verdlovsk]. Magnetic Structure of a .5r;rro=-u.r--tic Material of Reoidual 14a-netizarion and Its C~,-~Lnge Under the Effect of a Variable Magnetic Fir;ld 59 Kiren-7,1ciy, L. V., N. I. Sudakov, and L. I. Slobcduukoy (Ir.2titut fi--Iici SO AN SSSR, peda3ogicheskly institut institll'e of Physics, Siberian Branch AS USSR, Teachqrs Tnotitute, Krasnoyarsk). Temperature Dependr-neq of Hysteresis Losses in Rotating Magnetic Fields in Iron Silicide Crystals 61* Sudovtsov, A. I., and Ye. Ye. Scm-2nenko [Fiziko- t~--!Q-,n1chf:;51-ciy In-t AN' UkrSSR - PhysicotechnIcal InstItute AS UkrSSR, Khar1kov]. F-ffect of Domain Structure on the Card 5A1  ,,-4T VAY I.Ye.; SHURP Ya.S. ... ... Characteristics of the domain structure of magnesium-manganese ferrites with a rectangular hysteresia loop. Fiz. met. i metallo-ved. 11 no. 1:158-160 Ja 160. OaRA 14:2) 1. Institut fiziki metallov AN SSSR. (Ferrates--Magnetic properties) (Magnesium-manganese alloys-Metallography)  84962 (lo q 3, la /4 0) S/056/60/039/003/048/058/xx B006/BO70 AUTHORS: Shur, Ya. S., Start--ava, 1. Ye. TITLE: Temperature Hvsteresis of the Domain Structure of Ferrosilicon C ya al= ~;l PERIODICAL: Zhurnal eksperimental%noy i t'soreticheakoy fiziki, 1960, Vol. 39, No. 3(9)v PP. 566 - 573 TEXT: The aim of the authots was to study the general rules governing the temperature hysteresis of the domain structure of ferrosilicon crys- tals. The magnetic structure was observed by the method of powder pat- terns. Single and polycrystals with 3.5% Si were studied; they were in mm large and 0.3 - 0.7 mm thick. All the samples .he form of disks 15 were annealed at 1,2500C before they were ground and polished. The ef- fer;t of cyclic temperature changes on the magnetic structure was investi- gated. For this, the samples were heated from room temperature to dif- ferent temperatures (UP to 55000? and cooled again to the initial tem- perature. The samples were heated by a special instrument which was placed in a vacuum chamber (Fig.l). This instrument as well as the Card 1/3  84962 Temperature Hysteresis of the Domain S/05 60/039/003/-048/058/XX Structure of Ferrosilicon Crystals B006YB070 experLmental method are described in the introduction. The maximum strength of the magnetic field was 600 oe. Photographs of the domain structure were taken for one and the same sample a after the first magneti.zat_ion~ b) after heating and cooling~ and c~ after the second magnetization. It could be established that no significant ~-,hange In uk the0domain structure took place when the sample was heated from 200 to 200 C and oooled again to 200C. A hysteresis is first observed on heat- ing to 400 - 5500C. Figs. 2, 4i, 5, and 6 show powder patterns which il-- lustrate the transformation of the domain siru~_ture in one cycle. Figs. 6 and 7 show a scthematic representation of the structure of the types B and A. The investigations showed that a eignificant irreversible transformation of the magnetic structure in mono-, and polyarystalline samples takes place in a cycle between 200 and 400 - 55000. This change in the stru~~turA shows itself in the following way: The dimensions, the form, and the number of closure domains are changed, and the boundaries between the principal regions are displaced. Finally,, the results are discussed and theoretizally interpreted. L. D. Landaug.Ye. M. Lifshits_~_ L. V. Kirenakiv, and I. F. Degtyarev are mentioned here a-re 7 figures a_-4_d_TeTe__r~_nces' : 6 S__o-1r__i-;e_f -and-T-USK Card 2  P41962 Temperature Hysteresis of the Domain Structure of Ferrosilicon Crystals ASSOCIATION: SUBMITTED. S/056/60/039/003/048/058/XX 30061B070 Inatitut fiziki metallov Akademij. nauk SSSR (Institute of Metal Phyaics of the Academy of Sciences USSR) April 16, 196o Card 3/3  2A0 Vol S 048 61/025/012/005/022 B102 B138 AUTBORS: Zaykova, V. A., and Startseva, I. Ye. TITLE: Stability of magnetic state of magnetically soft materials PERIODICAL: Akademiya nauk SSSR. Izvestiya. Seriya fizicheskaya, v. 25, no. 12, 1961, 1455 - 1461 TEXT: Besides the stability of magnetic states the authors studied the possibilities of determining the most stable state of the domain structure. Anni,lar sDecimens of coarsely crystalline silicon steel were used to deter- mine the variations in magnetic induction due to field, and flat specimens for those due to tensile stresses. Stability was determined from these and from the changes observed in domain structure. The former were measured ballisticallyj domain structure by the powder method. The following demag~- netization methods were applied: (1) A damped alternating field, no external magnetic field; (2) Magnetization in the direction of the Earth's magnetic field H e up to maximum residual magnetization, application of an anti-field, and again application of H e Demagnetization as in (1). Card 1/4  316034 S/048/61/025/012/008/022 The nature of the rectangular~*. B1161B138 the greatest PR occurs during a hysteresis cycle in which most crystallites are in the state of maximum induction and where the principle domains. in which magnetization is unfavourably oriented relative to field.vanish. In addition, in all crystallites, closed domains with magnetization differentl-y orientated from that in the principal part of the crystallite, are left behind on the surfaces and possibly at internal lattice defects. The boundaries between the principal and closed domains are distorted~ There is no noticeable increase in the closed domains when the field vanishes. Therefore P R becomes almost equal to unity. It can be seen that in all thzee cases the curves obtained after demagnetization. through heating, are steeper and higher in the first-section than these obtained after demagneti- zation with a variable f ield. The dif f erence increases with -P .~ This means that, unlike the metallic" ferromagnetics, the permeability ofR Me- Mn ferrite6 in weak fields after demagnetization with a.variable field is much smaller than after demagnetizat~ion through-heating. This is probably due to a particular kind of structuxal defect. In a demagnetized crystal the domain boundaries are arranged in such a way that the total energy is at a minimum. These botindaries are probably distorted by demagnetization with variable Card 2/3  S/048/62/026/002/017/032 Bio6/B104 AUTHORS: Startseva, 1. Ye,, Glazer, A., A.., and Shur, Ya, S. TITLE: Temperature dependence of domain structure in ferrosilicon crystals PERIODICAL: Akademiya nauk SSSR, Izvestiya, Seriya fizicheskaya, v. 26, no. 2, 1962.~ 262-265 TEXT: Earlier studies of the domain structure in ferrosilicon crystals (Ya, S, Shur, I. Ye. Startseva, Zh. eksperim, i teor, fiz., 39, 566 (1060)) have revealed a temperature hysteresis of domain structure, This fact may possibly be the cause of the departure of "he calculated from the measured temperature dependence of domain structure. It was investigated as to whether experimental and theoretical data will agree better when this hysteresis is excluded. This may be accomplished by allowing the specimen to attain the state of equilibrium at every temperature, The domain structure of ferrosilicon with 3.5 % Si was examined by the maEneto- optical Kerr effect. Annular specimens (outer diameter 40 mm, inner diameter 28 mm, 0.35 mm thick) were cut out from coarsely crystalline Card 1/3  5/048/62/026/002/017/052 Temperature dependence of.- B106/B104 textured ferrosilicon. After polishing the specimens were vacuum tempered at '2000C, and subsequently their surface was slightly oxidized in order to 4.ncrease the angle of rotation of the plane of polarization, The (01%) face was near the surface in most of the crystallites. Temperature dep-ndence of the domain structure was studied in the range of 20-6000C. At ~?very temperature the specimens were carefully demagnetized by alte.rnating magnetic field with its amplitude monotonically decreasing to zero, This procedure was to eliminate the temperature hysteresis of domain structure. The studies led to the following conclusions: (1) The domain width is strongly temperature dependent when temperature hysteresis is eliminated by demagnetization at every temperature. (2) The temperature dependence of the domain width observed in equilibrium agrees qualitatively with the calculated data,, Strictly quantitative comparison of experimental and theoretical data was not possible as it is riot known how the magnetic flux is closed at the crystal edges. (3) Various authors found in the study of different ferromagnetics great discrepancies between the experimental and theoretical temperature dependences of the domain widths These discrepancies are obviously due to the fact that the observed domain structures which exist in metastable states were ccmpa--ed -.,,ith th~ Card 2/3  MOROZ, V.G., inzh.;-STARTSEVA, I.Ye., inzh.; IVAKO, L.P., inzh. I Effect of heat treatment A the structure of 25L steel. Metalloved. i tem. obr. met. no-5:14L21 W 162. (NIRA 15:5) 1. Irkutskiy filial Gosudarstvennogo nauchno-issledovatellskogo i proyektnogo instituta neftyanogo mashinostroyeniya. (Steel-Heat treatment) (Steel castings-Testing)  S/126/63/015/002/004/033 E039/E420 AUTHORS: Bogoslovskiy, V.N., Startseva. I.Ye.. Zhuravleva, M.G., Shchepetkin, A.A., G.I., Shur, Ya.S. TITLE: The effect of phase composition on the magnetic properties of magnesium-manganese ferrite with a rectangular hysteresis loop PERIODICAL:,Fi:~,ika metallov i metallovedeniye, V.15, no.2, 1963, 181-186 TEXT: A maknesium-manganese ferrite with a rectangular hysteresis loop and with a sufficiently simple composition was used to facilitate the interpretation of the results obtained. Toroidal samples 12 min outer dia, 8 min inner dia and 3 nun high ivere used. After a second annealing in-air at 1200*C they were cooled in a C02 atmosphere. The composition was Fe203 - 42.8mol%, NfgO - 14.4569, MnO - 42.8c (as )'InC03) which corresponds with the formula (~NlgFe204)0.3(~InFe2O4)0.6(Mn3o4)().l  S/126/63/015/002/004/033 The effect of phase ... E039/E420 induction Br, the maximum induction Bin, the induction in the field of 90 Oe B 0, and Br/Bm on the pressure of oxygen when annealing at 600*2 was investigated. Br shows a steady decrease with increasing oxygen pressure up to 150 min Hg, while for the other parameters there is little change for oxygen pressures above 50 mm. 1,jaximuin squareness of the hysteresis loop is obtained at 10 min pressure of oxygen. A comparison of the results of physicochemical analysis, X-ray and magnetic investigation suggests that the spontaneous rectangularity of tfie hysteresis loop in this ferrite depends on the presence of the Mn3+ ion which leads to local distortions in the crystal lattice, There are 2 figures. ASSOCIATIONS: Institut inetaliurgil UFAX'SSSR (Institute of Metallurgy UFAN USSR) Institut fiziki metallov AN SSSR (Institute of Physics of Metals AS USSR) SUB'MITTED: August 10, 1962 Card 2/2 p2l~ K~f  ACCESSION NR: AP4042347 S/0129/64/000/007/0031/0035 AUTHOR- Mosoz, V. G., Startseva, I.-Ye... Popov, K. V. TITLE: Cast steels for low temperature operations SOURCE: Metallovedeniye I termicheskaya obra~otka meiallov, no. 7, 19641, 31-35, and insert facing p. 25 TOPIC TAGS: cast steel, steel alloy, cold resistant steel, steel 12N9L, steel 2OKhN3ML, -steel 12N5L, steel 15N3ML, steel 15N3FL, steel 12KhN2ML, stool 20N3L, steel 20GMIML, steel 20Kh2D3L, steel 15DKhGSL, steel 1OKhS2N2DML, impact toughness, heat treatment, structural uniformity, fine-grained structure, transition point determina- tion ABSTRACT: Experimental castings form 11 steel alloys (compositions given ) were tested for resisiance to low temperatures in a cast or variously hbat treated state to f6rmulafe recommendations on the use of pearlite and ferrite steels for castings operating at tempera- atures as low as - 100C. The temperature corresponding to an impact toughness of 2. 0 kg/CM2 was accepted as the transition point. Heat treatment involved normalizing (900 or 1050C) and tempering (650, 660 or 720C). Transition points for the optimal heat 1/2 C ~ -rd Ir  L 22897'-65 EED-2/EWT (1)/z-WT (m)/VWP(b )/E.-hP(t;) IJP(c) JD ACCESSION NR: AP5001240 8/0126/64/018/005/0711/0716 AUTHOR: Bogoslovskiv, V.N.; Shchepetkin, A.A. - Startseva. 1. Ye. Anloov V. K-, Chufarov, G. ., Shur, Ya. S. TITLE: Effect of the phase composition on the magnetic properties of magnesium- manganes -iron ferrite with a rectangular hysteresis loop SOURCE: Fizika metallov i metallovedeniye, v. 18, no. 5, 1964p 711-716 TOPIC TAGS: ferrite magnetic property, magnesium ferrite, manganese ferrite, spinel solid solution- hysteresis loop ABSTRACT: The object of I this work was to find out whether the rectangularity of the hysteresis loop of Mg-Mn ferrites is related only to the presence of vacancies, or whether trivalent manganese ions also playa major part in this phenomenon. An Mg-Mn-Fe ferrite obtained from a mixture of 34 mol. % MgO, 8.5% MEW (in the form of MnC03) and 57. 5% Fe?,03 and having a relatively. high rectangularity coefficient ofthe hysteresis loop was investigated. X-ray diffraction was used to determine the concen- tration of the components of the spinel solid solutions, the magnetic characteristics were measured by the ballistic method, and changes in the composition of the solid solutions Card 1/2  L 22897-65 ACCESSION NR: AP5001240 were Induced by annealing the samples under various conditions. It was found that the increase or decrease in the rectangvlarity coefficient of the hysteresis loop is due primarily to the formation and disappearance of Mn3+ ions, although there is a simul- taneous change in the concentration of vacancies in the spinel solid solution. Samples containing an appreciable quantity of vacancies -but no Mn3+ ions have a rectangularity coefficient of less than 0. 5. The authors conclude that the rectangular shape of the hysteresis loop of Mg-Mn-Fe ferrites obtained from a mixture containing over _ -due- the-preme - e.of Mn 17,6n~iWWh_ cause local distortions -50 hiO -__VF6203 16 to ne the crystal structure of the spinel solid solution. Orig. art. has: 1 table, I figureo and 7 formulas. ASSOCIATION: Institut metallurgii, Sverdlovsk (Metallurgical Institute); Insfltut~fizjld metallov AN SSSR (Mastitute of the Pbysics of Metals., SM) SUBMITTED: 02Nov63 ENCL: 00 SUB CODE: MM EM NO RE F SOV: 007 OTHER: 010 Card 2/2  MOROZY V.G.; STARMVA, I.Ye.; POPOV, K.V. Cast steels for operation at low temperatures. Vet.--lloved. i term. cbr. met. no.7:31-35 J1 164. (,TRA 17:11)  BOGOSLOVSKIY, V.N.; SHCHEPETKIN, A.A.; STARTSEVA,..,~Je.; ANTONOV, V.K.; CHUFAROV, G.I.; SHUR, Ya.S. Effect of phase composition on the magnetic properties of the magnesium-manganese iron ferrite with a rectangular hysteresis loop. Fiz.met. i metalloved. 18 no.5:711-716 N 164. (MIRA 18,-'~) 1. In5titut metallurgil, Sverdlovsk i Institut fiziki metallov AN SSSR.  AGAPOV, N.F., kand. tekhn. nauk; ZHEREBOHEVSKIY, V.I., insh.;,4TART~q~p_ - K.V.,. ir,,zh. Production and use of bitumen emulsions in Kazakhstan. Avt. dor. 27 no.8;14-15 Ag 164* (MM 17:12)  MIROLYUBOV, N.N., prof.,- STARTSEVA, Ye.K..,, Rand. med. naulk Plenum of the board of the All-Foissian Sclen-'k-MUC Societ7 of Roentgenologists and Radiologisto. Vegtn. rentgen. i radiol. 38 no.4.,85-86 ii-Ag'63 (MM 1-7.v2) 1.  DOBROVOLISKIY, Viktor Konstantinovich, prof.; LEBEDEVA, V.S., kand.med. nauk, starshiy nauchnyy sotrudnik; ULIRIKH, Ye.S., kand.biolog. neuk, starshiy nauchnyy sotradnik; TAGUNOV, S.A., prof., doktor med.nauk Edeceasedl;.STARTSIVA, L.I., kand.med.nauk, starshiy nauchnyy sotrtidnik; T,1Wk'KAC--Ta--.B., red.; KELARASH, G.A., tekhn.red. ETherapeutic physical culture] Lechebnaia fizicheakaia kullturs. Leningrad, Gos.izd-vo med.lit-ry Nedgiz, Leningr.otd-nieq 1960. 349 P. (MIRA 13:7) 1. Chlen-korrespondent Akademii maditsinakikh nauk (for Yaganov). (]=OISE THERA T)  STARTSEVA, L.I., aspirant Extermination of Spilachna. by ladybird larvae. Zashch. rast. ot vred. i bol. 6 no.7:46 Jl 161. (MIRA 16:5) 1. Djallnevostochnaya opytnaya stantsiya v-sesovuznogo instituta rast.eniyevodstva, Primorskiy kray. (Maritime Territory-Pota4es-Diseases and pests) (Maritime Territory--Ladybirds-Biological control)  STARTSEDIA, L. N. Hbr., Inst, Obstetrics & GynecO109Y, -c.1949-. Cand. Medical Sci. "Diathermal Surgery during Treatment of Certain Pathological Conditions of Cervix" Akusher. i Ginekol., No. 4. 1949.  STARTSIVA. L.N., kan&idai neditsinakikh nauk morphological changes in tissue dissected by diathermy from the car7ix uteri. Akush. I gin. no.4:35-36 JI-A-g 154. (MT&A 7:11) M VIX. U M INS. surgery. diatherar, morphol. changes in dissected tissue) (DIATHMTO morphol. changes in asr7tcal utorins tissue dissected by diathermV)  STARTSEVA, L.N., kandidat meditsinskikh nauk (Leningrad) Coniform diathermic excision of the cervic uteri. Almsh. i gin. no-5:53-56 S-0 '54. (MI-RA 7:12) (MVIX, UMINE, surgery, diathermy, coniform excis.) MATHEW. electrosurg. of uterine cervix. conical excis.)  YAGUNGV, S.A. [deceased]; STARTS'EVA, L.N. Use of physical culture and medical control in labor. Akush. i gin. 35 no.3:14-19 )tr-Je 159. (MIRA 12:8) 1. Iz otdeleniya fizioterapii i lechebnoy fizicheakoy kulltury (zav. - chlen-korrespondent AM SSSR prof.S.A.Yagunov) Ineti- tuta akusherstva i ginekologii AM SSSR (dir. - chlen-korrespondent AMN SSSIL prof.P.A.BeloBhapko). (LABOA prep.. phys. culture & med. control (HuB)) ()QC9RC I SH THEWY value in labor prep. (Rus))  YAGUNOV, S.A. (deceasad]; Using an aerophotarium in wmedical establishment. Vop kur. fizioter. i lech.fiz. kul't. 27 no.1:16-20 162. iMIRA 115--5) 1. Iz otdeleniya fizioterapii i lechebnoy fiz..cheskoy kulltury (zav. - chlen-korrespondent AM SSSR prof. S.A.Yagunay [deceased)) Instituta akusherstva i ginekologii MV SSSR (dir. - ~;hlen-korrespondent AMN 63SR prof. F.A.Beloshapko). (RADIOTHERAPY) (CLIMATOLOGY , MEDICAL)  GURTOVOY, L.Ye., prof.[deceased]; IVANITSKAYA~ Ye.P., doktor med. nauk; MAZHBITS, A.M., prof.; PREYSMAN, A.B., prof.; STARTSEVA, L.N., kand. med. nauk,- TIW7EVTSEVA, G.V., kand. 64.nauk; SHUB, R.L., zasl. deyatell nauki lAtviyskoy SSR prof.; YAGUNOV, S.A., prof.[deceased]; PERSIANOV, L.S., prof., otv. red.; ZHMAKIN, K.N., prof., zasl. dayatell nauki RSFSR, red.; RYABOV, G.Z., red.; RDMANOVA, Z.A., tekhn. red. (Multivolume manual on obstetrics and gynecology] Mnogotom- noe rukoyodatyo po akusherstyu i ginekologii. Moskva, Med- giz. Vol.4. Book 1. (General gynecology] Obshchaia gineko- logiia. 1963. 674 P. (MIRA 16:9) 1. Chlen-korrespondent Akademii meditsinskikh nauk (for Yagunov, P~rsianinov). (GYNECOLOGY)  Procreative fun^--,-*on of women after sta -therm-y of t.h-e ,_Tical dip cc-!rvi;x uteri. Alcush. i gin. no.1 57-63 163. ('!ITIL 17:6) 1. Iz otdeleniyi fizioterapii (zav. - kand. med. naul: N. Startse,:a) lnstituta Pkusherstva i ginekolocii. (dir. - prof. .,..A. 'Oetrov- M-aslakov ) X-24 SSSR.  141KHff LOV. V. G. ; STARTSEVA, MA. Rating the advantages of soliusurlmin therapy for kala-azL,,* in infants. Pediatriia no.4:80 Jl-Ag '55. (I-UAA8:12) 1. Iz kliniki gospitallnoy pediatrii Tashkentakoy gorodgkoy stantsii, tropicheakoy meditsiny. (KAL,A-kZAR) (ANTIMONY-MROICUTIC USI)  MIKHLYLOV, V.b.; STARTSEVAL M.A. Treatment of infantile visceral leishmaniasis with solusumin as revealed by data from the Parasitological Department of the Tashkent City Sanitary and Epidemiological Station. Mediparazei paraw.bol. no.5:563-567 161. MIRA l4t1O) 1. Iz Instituta krayevoy eksperimentallnoy meditsinay Akademii nauk Uzbekskoy SSR (dir. instituta G.M. Makhkamov) i kafedry laboratornoy diagnostiki i parazitarnykh bolezney Tashkentakogo instituta -usovershenstvovaniya vrachey(dir. inatituta M.A. Mirzamukhamedov). (KALA-AZIR) (OTIKONY-THMUMTIC USE)  STATITSEVA, M,-E----, and SMM, Y. S., (Svedlovsk) "Stability of magnetic structure of Residual-Magnetized Soft magnetic Materials," a paper submitted at the International Conference on Physics of Magnetic Phenomena, SvEsdlovsk, 23-31 May 56.  KUDRYAVTSEVA, N.A.j FUSHKAREVA, Z.V.; qTARTSLTA ~, Some derivatives of -,O-math7l-3-aminophenothiazine. Zh-,Ir.org.khim. I no.28364-366 F 165. (MIRA 18--4) 1. Urallskly po2itakhnicheskiy institut imeni S.M.Kirova.  SHOSTAKOVSKIY, M.F.; KALABRIA, A.V.; STARTSEVA M.Ya.; POD'YACHgNKO, N.P. Synthesis anid transformations of vinyl aryl ethers. Raport No.4: Synthesis and properties of vinyl ethers of ortho-, meta-, and para- cresols and para.-tert-amyl phenol. Izv. Fiz.-khim. nauch.-issl. Inst. Irk. un. 5 no.1:90-100 161. (MIRA 16:8) (Ethers) (Phenol) (Cresol)  S/15 60/003/005/009/016 B01 3YB058 '/ AUTHORS: Kochergin, V. P., Pozhidayeva, G. A., Startseva, N. A. TITLE: Dissolution of Iron in Melts Containing Zinc Sulfate and Halides of Alkali Metals and Zinc PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Khimiya i khim-".cheskaya tekhnologiya, 1960, Vol. 3, No. 5, pp.892-897 TEXT: The rate of dissolution (corrosion) of iron in aqueous ZnSO 4 - ZnCl ZnSO 4- LiC1--, and ZnSO 4- KC1 solutions, as well as in ZnSO 4- NaF-, ZnSO4-NaCl-, ZnSO 4- NaBr-. and ZnSO 4- NaI melts, was studied here. It was the aim of the study to investigate the possibility of using sulfate halide u-.;,,lts for the heat treatment of steels, and to find possible bases for producing new salt melts which are less aggressive against iron and steels. Chemically pure ZnSO 4 ' 7H20, LiCl - H20, KC1, NaCl, ZnC12 * 1-5H20, NaI, NaBr, NaF were used for producing the melts mentioned. Melts with NaBr and NaI content were produced in carbon dioxide medium. Metal samp1es were prepared Card 1/4  Dissolution of Iron in Melts Containing Zinc S/153/60/003/005/009/016 Sulfate and Halides of Alkali Metals and Zinc B013/BO58 in the form of plates, and polished. The determination was made by the method described in Ref. 9. The rate of dissolution of iron in aqueous solutions was determined at 5500C (Fig. 1) and in melts at 5000C (Fig.2). It was established that the rate of dissolution decreases during the first 2-3 hours, and then remains constant. By adding ZnCl 2- LiCl-KC1 to the ZnSO4 melt, the dissolution of iron is slowed down much more than by V adding NaF, %C~ IbB!,21aI. In melts containing zinc- and alkali metal halides,- an increased solubility of iron may be observed in the absence of zinc sulfate. When increasing the zinc sulfate content up to 45% (Fig. 3), accelerated dissolution of iron was first observed in sulfate halide melts, which slowed downt however, with a further increase of the zinc sulfate concentration. It can be clearly seen from the polytherms for the rate of dissolution (Fig- 3) of iron in sulfate halide melts that the dissolution process is influenced by the nature of these melts and the complex formation within them. A similar effect was observed at different temperatures of the melts (Fig. 4). It was established that the dissolution of iron in aqueous sulfate halide melts is accelerated at a temperature increase according to an exponential function. A lower solubility cf iron Card 2/4  Dissolution of Iron in Melts Containing Zinc S/153/60/003/005/009/016 Sulfate and Halides of Alkali Metals and Zinc B013/BO58 was established in melts from which the water was previously eXtracted in vacuo, as compared with aqueous melts. The rate of dissolution of iron is higher in ZnSO 4- NaF and ZnSO 4- NaI melts than in melts with zinc sulfate, sodium chloride, or sodium bromide. Passage of dry air through aqueous melts with zinc sulfate as well as zinc-, sodium-,.and potassium chlorides contributes to the slowing down of the rate of dissolution of iron in these melts (Fig- 5)- In order to prevent corrosion of'metal products in molten electrolytes, it is, there.fore,.suitable to treat them with dry air at increased temperature or in high vacuum. Since the rate of dissolution of iron is only small in sulfate chloride melts with a zinc content of more than 70-80 moleo,.these melts m*ay be used as heat carriers (Ref. 16) or for the*lieat treatment of steels. I. F. Afonski~-t A. A. Kroshkin, I. Ya. Tutov, Y6. A. Smollnik6v, and N. P. Luzhndya-are mentioned. There are 5 figures and 16 references; 13 Soviet, 1 German, and 1 US. a ASSOCIATION: Urallskiy gosudarstvennyy universitet,im. A. M. Gorlkogo, Kafedra neorganicheskoy khimii (Ural State University imeni A. M. Gor'kiy, Department of Inor,-anic Chemistry) Card V4  Dissolution of Iron in Melts Containing Zinc Sulfate and Halides of Alkali Metals and Zinc SUBMITTED: December 15, 1958 S/lt53/60/005[005/009/016 B013/ ~D058 Card 4/4  t). PHASE I BOOK E(PLOITATION sovI6181 Urallakoye noveahchRniye po apektroskopii. 34, Sverdlovsk, 1960. .Materlaly (Materials of the Third Ural Conference on Spectros- copy) Sverdlovsk, Metallurgizdat, 1962. 197 P. Errata slip inserted. 3000 copies printed. Sponsoring Agencies: Institut fiziki metallov Akademii nauk SSS.R. Komlsaiya po spektrookopil; and Urallskly dom tekhnIkI VSNTO. Eds. (Title page): 0. P. Skornyakov, A. B. Shayevich, and S. 0. -Bogomolov; Ed.: Gennadiy Pavlovich Skornyakov; Ed. of Publish- Ing House: M. L. Kryzhova; Tech. Ed.: N. T. Mallkova. PURPOSE: The book, a~collsction of articles, is intended for staff members of spectral analysis laboratories In Industry and scion- tific research organizations, as well as for students of related disciplines and for technologists utilizing analytical results. CW 1/15  //9) lems of the application of atomic and molecular spectralanaly-14 sia In controll1nx the chemical composition ofv"ious materiall i In ferrous and nonferrous metallurgy, geology, chemical Indus-. try, and medicine. The authors express theIr thanks to G. V. Chentsova for help In preparing the materials for the press. References follow the Individual articles. TABLE OF CONTMUS: Foreword 3 PART I Sheratkov, Yu. A., and L. F. Makelsovskly. Investigation of the dependence of the total Intensity of spectral lines on the concentration of elements In an arc-discharge plasma 4 Card 2A5 Hatorlale of the Third t1ral Conference (coat.) ~SOV/6181 COVERAGE: The collection presents theoretical and practical prob- i :40  Materials of the Third Ural Conference (Cont.). SOV16181 Fishman, I.. S. Remarks on a system of standards for analysib of complex alloys 73 .ShIryayeva, N. Ye., Yu. I..Mallkov, and R. A. Kozlova.' Photoelectric-stylometer analysis of vanadium cast Irons 76 Basova, Ye. P., A. B.-Shayevich, and S. B. Shubina. Spectro- graphic determination or harmful non-ferrouB metal Impurities in raw material intende'd for production of metallic chromiUM 77 Sorokina. N. N. Spectral determination of cerium, lanthanum, and barium in steel 80 Shayevich, A. B., and N. D. AgIrtoeya. Spectral determination of vanadium, manganese, silicon, and chromium in ferro- vanadium 86 Outkina, R. 1. Chemical-spectral method of analysis of high- purity'nickel 88 Card 7/15  BELIKKOV, H.Yu..; POTOREYKO, G.,; STARTS3VA, R. ~. ~.. -~. , - " c' -': - Temporary bonds of the respiratory apparatus in decorticated cats. Biul. eksp. biolA med. 41 no.2:17-20 F 156. (MLRA 9:6) 1. Iz kafedry normallnoy fiziologii (zav.-prof. D.G. Kvasov) Leningradakogo pediatricheskogo meditsinskogo inatituta. Predstavlana daystvitellnym chlenom ANN SSSR P.S. Kupalovym. (RWIRATION, physiology, conditioned temporary vonds In cats after cerebral decortication (Rua)) (REFLEX, CONDITIO M , conditioned temporary reap. bonds in cats after cerebral decortication (Rua)) (CRREBR&L CORTNK, physiology, same)  KLIWNOK, B.V.; KONDRATIYEV, A.A.; Prinimali uchastiye: BASYROVA, Z.V.; YELEPINA, V.I.; ZI?MLYANSKIY,, A.T.; PITKIS, L.N.; STARTSEVA, T.K.; YANTSEN, Ya.ya. I------------ :__ Counter-current horizontal extractor for processing hard materials. Izv. vys. ucheb. zav.; neft' I gaz 4 no.2:75-77 161. (MRA 15:5) (Paraffins) (Diesel fuels) I I  -STAMEVAP T.V. (Ufa); SHVIDLER, M.I. (Ufa) Numerical solution of problems in plane filtration flow in media with random nonhomogeneities. Izv. AN SSSR Otd. tekh. nauk. 14ekh. i mashin-ostr. no.2:33-37 Mr-Ap 163. (MIRA 16:6) (Fluid dynamics)  DOILOVA, L.S.; Frinim-all uchastiye: VEBER. IjB., student;-STARTSEVA, T.V. atadentka Characteristics of turf-Podzolic soils formed on two-component depoeits. Pochvovedenie no-5:53-63*My 163. (MIRA 16:5) 1. MDskovskiy gosudarstvennyy universitet. (Roslavl' Dtatrict-Podzol)  STARTSEVA IYE. K.r CAND MED SCII 'F9" OF.,GUNSHOT OSTEMYELITIS OF THE('TUBULARLLONG BONES OF THE LOWER EXTREMITIES, OCCURING IN THE KNITTING OF FRACTURED BONES IN40 A VICIOUS UNION.- IRKUTSK9 1960. tiRKUTSK STATE MED INST). (KLI 3-619 235). 468  Ye.K. ... ... Determination of the functional stqte of the Iiver In variou3 diseases with j!31- labelled rose bengal. Med. rad. 8 no.S: 31-34 Ag 163. WRA 17:10) 1. Iz kafedry rentgeno-radiologii (zav.- prof. N.N. Mirolyubov) Irkutskogo meditsinskogo inatituta.  RADIROV) N.K.; STARTSEVA, E.P. [Startseva, Ye. P-1 Adsorption properties of clay. Biol i khim 5 no.l.-6o-62 163. 1. Pedagogicheski institut, g.-Khabarovsk.  vi 1 -.7- T; Tar c e,  BOIM, F., diplamovany ekoaom; KRUPPE, F,., dipl. inz.; RICHTER, J., dipl, inz,; STARTULL, W., dipl. inz.j ZULLICH, H., dips.. inz. Forming the working process with respect to man. Pod org 17 no.6:281 Je 163.  STARUKH, M. A. "Vitamin B and Stomach Secretions in Young Children During Acute Gastrointestinal Disturbances." Cand b1ed Sci, L'vov State Medical Inst, LIvoy, 1954. (RZhBiol, No 8, Dec 54) Survey of Scientific and Technical Dissertations Defended at USSR Higher Educational Institutions (12) SQz Sum. No. 556 24 Jun 55  S'YARUKH,,..#-A.,,,,-kapd.med.nauk Glycogenosis. Sov.med. 21 ao.11:101-104 h '57. (MIRA 11:3) 1. Iz kafedry detskikh bolesney (zav.-doteent l.M.Rudnev) Llvovskogo meditsinskogo instituta (dir.-prof. L.B.Kuzmenko) na bnze oblnstnoy klinicheskoy bol'nitsy (glavnyy vrach I.A.Karagodin). (GLYCOCrENOSIS, case reports)  STARU01, M.A-., kand.med.nauk Sugar content of the cerebrospinal fluid in children with tuberculous meningitis. Fed., akush. i gin. 20 no.6:28 158. (KELA. 13:1) 1. Detskaya klinika (zav. - prof. S.I. Ignatov) LIvovskogo meditsinskogo instituta (direktor - Prof. L.M. Khzmenko). (SUGAR IN THE BODY) (CEREBROSPINAL nUID) (MMNGEES--TUBERCULOSIS)  STARUKH, M.A., dots. Influence of ascrobic acid on the permeability of vessels in young children with pneumonia. Ped. akLsh. i gin. 22 no. 1:32- 33 '60. OMIRA 13:8) 1. Kafedra propedevticheskoy i fakulltetskoy pediatrii (zav. - dots. I.M. Rudnev [I.M. Rudniev] Ltvovokege gosudaretvennogo meditsinskogo instituta (direktor - prof. L.M. Kuzlmenko). (ASCORBIC ACID) (PNEUMONIA) (BLOOD VESSELS) "~ -t  STARUldl. SOZAISKIY, O.M. [swi!ans,kyi, 0.111.1 Giant cystoiaa of the ovaxy. Ped., abish. i gin. 24 no.1- 3 of cover 162. 1 (MLRA 16 z8) 1. kkusherskc-einekologiche,-kiy otdel (zav. - kand. med. nauk S.I.Tregub [Tc,--hab .7 S.I.] Llvovskogo instituta oMrany mate- rim9tva -i detstva (direktor - kand.jwd.nauk L.Ya Davidov (Davydov. L.IA.]) i Llvovskaya oblastnaya klinicheskayt boll- nitsa (glavrqy vrach - T.I.Plaklova). (CYSTS) (OVARIM-TUMPS)  STARM, R.M. Antenatal i)revention of sta-phylecoccal infection. Akush. i gin. 40 no.5:87-89 S-0 '64. (MIRA 18:5) 1. Llvovskiy nauchno-issledovatellskiy institut okhrany materinstva i destsva (dir. - kand. med. nauk L.Ya.Davydov, nauchnyy rukovodil.all - doktor med. nauk A.I.Vylegzhanin).  KONOROV, A.V., prof.; STARUXHIN, N.M., inzh. Over-all mechanization and the use of containers in housing construction. Stroi.prom. 27 no.4:1-5 AP 149. (MIRA 13:2) 1. Voesoyuznvy nauchno-issledovatellskiy institut po organizutaii i mekhanizataii stroitellstra. (containers) (Loading and unloading)  STARUKTIN. N.H., natichnyy sotrtidnik; SOL'GINOVA, M.N.. nauchnvy sotrudnik; SOIA)V'"'VA, T.P.. nauchnyy sotrudulk; SUGRCBOV, N.P., nauchnyy sotrudnik-pri uchastii rabotnikov Lozhnikovs. N.N.j Lagoda, S.G. i Shiehmdo, N.N.; SKVQRTSOVA, I.P., red.tzd-va; GUSLVA, S.S.. tekhn.red.; BCROVURV, H.K., tekha.red. (Construction of a multistory frame-panel apartment house in Moscow] Opyt stroitel'stva karkasno-panellnogo mnogoetazhnogo zhilogo dose v Moskva. Moskva. Gos.izd-vo lit-ry po stroit.arkhit. i Btroit. materialam, 1958. 67 P- (MIRA 11:6) 1. Akademlya stroitelletva I arkhitektury. Institut organizateii i m"khanizateii Fitroitelletva. 2. Sektor organizataii zhilishchnogo i grazhdanskogo stroitellstva Nauchno-issledovatel'skogo inatituta organizataii i mekhanizataii stroitel'stva (for Starukhin. Shullginova. Solovoyeva, Sugrobov). 3. Stroitellno-moutazhnoye upravlentre No.6 tresta Moozhilstroy Glavmosstroya (for Lozhnikov, lagod, Shlrihmilo) (Moscow--koartment houses)  STARUKHIN, N.M., nauchnyy sotrudnik; SIMIGINOYA, M.N.. nauchnrjr sotrudnik; SOLOYITWA, T.P., nauchnyy sotrudnik. Primala uchastiye YETSINA, A.I., starshiy takhaik. SKYORTSOVA, I.P., red.izd-va; TOCINA. Te.L., tekhn.rede (Construction of an experimental residential block in Noscowl Opyt stroital'stva eksperimentallnogo zhilogo kyartala v Moskva. Moskva, GoeAzd-vo lit-ry po stroit., arkhit. i stroit.mterialam, 1959. 110 P. (MIRA 13:2) 1. Academiya stroitelletva i arkhitektury SSSR. Institut organi- zataii, makhanizatnii i tekhnicheskoy pomoshchl stroitelletvu. 2. Sektor organizateii zhilishchnogo stroitel'stya i tekhnologii proizvodstva rabot Nauchno-issladovatellskogo institute organi- zatsii, makhanizateli I tekhnicheskoy pomoshchi stroitalletvu (NIIOMTP) (for all except Skvortsova, Temkina). (Moscow-Apartment houses)  MEBJC61NU, M.I., inzh.; SAYINOV, S.G., Inzh.; ST.4RUMN, N.M., inzh., nauchnyy red.; TTUtENNVA, L.M., red.izd-va; OSMO, L.M., tekhn.red. (Laying plank and parquet floors] Ustroistvo doshchatykh I parketnykh polov. Moskva, Gos.izd-vo lit-ry po stroit., arkhit. i stroit.materialam, 1959. 155 P. (KIRA 13:2) 1. Akademiya stroitel'stva i arkhitektury SSSR. Institut orga- nizatsil, mekhanizateli i tekhnicheskoy pomoshchi stroitallstvu. (Floors)  SOKOLOV, K.M. YEVSTAFEYEV, S.V.; ROSTOTSKIT, T.K.; STANKOVSKIT, A.P.; VARENIK, Ye.I.; ONUFRIIEV, I.A.; SVESHNIKOV, I.P.; UKHOV, B.S.; BAUMAN, V.A.; BJARSOV, I.P.; BASHINSKIT, S.V.; BOYED, A.G.; VALUTSKIT, I.I.; ZAPOLISKIT. V.P.; ZOTOV, V.P.; IVANOV, V.A.; IrAZARIMV, V.M.; LEVI, S.S.; KAIDLEMV, Ye.K.; 14MNKOV, A.S.; MIROPOLISXAYA, N.K.; OSIPOV, L.G.; FERZLIMAN, L.M.; PJnWV. a.D.: PXTROV. N.M.; POLTAKDV, V.I.; VATSSLAVSKAYA, L.Th.; VAKHRAIARM. S.A.; VARZHITSKIT. A.M.; VLASOV, P.A.; VOLIFSOIT, A.V.-, VOSHCHININ, A.I.; DZHUNKOVSKIY, N.N.; DOMBROVSKIT, N.G.; YEPIFANOV, S.P.; YEYRFJMNEO, V.P.; ZZLICE3NOK, G.G.; ZIIAIN, P.A.; POPOVA, N.T.; ROGOVSKIY, L.V.; REBROV, A.S.; SAPRYKIN, V.A.; SOVAIOV. I.G.; SOSHIN, A.V.; _~jTARUPtIll,. ,F.; SURWAR, G.S.; TOICHATA D.P.; TROITSKIT, Kh.L.; TUSHNYAKOV, M.D.; FROIOV, P.T.; TSIRKUNOV, I.P. Andrei Vladimirovich Koncrov; obituary. Mekh. stroi. 16 no-1:32 Ja '59. (KIRA 12: 1) (Konorov, Andrei Vladimirovich, 1890-1958)