SCIENTIFIC ABSTRACT YEREMEYEV, V.P. - YEREMEYEVA, N.M.

YEIMYEVP V.po jong, &Swciated with it, ~ Danite of easterri Tuva and MiMUM1 fOrmgLt: (MM 16s2) 1 Trudy IGEM no.717191-114 162. (Tuva A.S,S,R,-Ihmite)  ,-,rM=EV,,,V..P. (Moskva) Tuff, pumice and basalt. Priroda 53 no.202-74 '64- (MIRA 17t2) I  ANDREYEV Yu.N.; VOLCHEK, I.I.; XMIEKEYEV V.P j PETROV, V.P.; TODUKOVj, P. F. Asbestos potential 6f,tin U.S.S.R. 2akonom. raxz. poleza. iskop. 6: n3-152 162. 1 (MIRA 3.6; 6) 1. Institut geologii rudnykh mostoroshdoniy, petrogr&fii,, mineralogii i gookhimii AN SSSR i Ministerstvo geologii i okhrany nedr SSBR. (AsbeBton)  ACCESSION NR: AT4005964 5/2755/63/000/004/0122/0129 AUTHOR: Beskorovayny*y, N.M.; Zuyev, M.T.; Yeremyev, VeSs TITLE: Reaction of austenitic chromium-nickel alloy steel with liquid lithium SOURCE: Moscow. Inzhenerno-fLzicheskiy inRtitut. Metallu.rgiya i metallov- edeniye chistykkh metallov, no. 4, 1963, 122-129 TOPIC TAGS: chromium nickel steel corrosion, austenitic steel, lKhl8N9T steel, lithium corrosion, lKhl8N9T weld corrosion, steel corrosion, lithium induced corrosions lithium attack ABSTRACT: In continuation of earlier work by the authors.on lKhl8N9T austenitic stainless steel, corrosion resittance and room temperature mechanical proper- ties were determined following 100 and 500 hours exposure to liquid lithium or argon at 1000 and 1200C. Test specimens were rolled sheet, lx3xl4mm, both unwelded and welded. The test conditions did not significantly affect either velded.or unvelded specimens. Intergranular corrosion occurred during exposure to liquid lithium, vhich was found to diffuse deeply into the steel surface (see FLg..l of the Enclosure). In liquid lithium, the stee.1 corroded at a rate Card 1/3  ACCESSION NRI AT4005964 of 0.034 g/m2 /hr. at IOOOC and 0.388 g/m2/hr. at 1200C. orig. art. has: 2 metallographic sections, 6 tables and I graph. ASSOCIATION; Inzhenerno-fixicheakiy institut, Mog* Institute) cow (Engineering Physics SUBMITTED: 00 DATE ACQ: 17Jan64 ENCJ,: 01 SUB CODE: M M NO REF SOV: 004 OTHER: 000 Card 2/3  ACCESSION-- NR: AT4005964 ENCLOSURE: 01 a 0 Aj Card 3/3 Fig. 1 Concentration curves showing the distribution of lithium in the surface layer of IKhlBN9T steel after exposure in an iron vessel at IDOOC. Ordinate - Li concen- tration In.%; abscissa depth in mm. depth mm  KOK 1:0. ,kuthor: TIC;H, D. , Dr. of Techn. 3-z-1. , Ed. Full Title; t3R.L,L Or- "ITUS CITI Tr~-,nslitcratr.,J Title: Aarolotos"yenLka -:1-orolav. i -Iorodskikl-i po3cl!:ov Pifolishin- Data Orl~;imtin.- A~cacy: 'Nona Publishin~ 11ou3e: PXbllshin~; House of th-3 ~:Lriisstxy of Co.-z.=al of the 11U~ SR Date: 1953 111'a. pp.: 355 No. of conics: 5,0C0 w1itorl.al Staf f Editor: Bonch-3ruyev--ich. 11. D. loch. None E,11tor-~.n-Oh1cf; 11one Appra-lonr: 'None Othorot. ~.,'oparaEe Chapters Ywrrittan by: De~iiol,o, V. F, (Intro,l-u7. t, Ion, Chapters U. III, 7i, 7111 and Sarantsev, N. ",.Oh. I) ; Purla"w, A. Ye. (Ch. r!) ; Tol:~s%ciy, V. S. and 3etler, S (Ch . V --, nd DO ~v 77 S (Ch. Vill); 50'mlova' Of th'~' St..-lin Pri-.~e r1, Tqyt RAn Oovi)ra~e: ThJr, ij n hamlbool~ In vhl.ch I,hO T.T-~~19~nnoa of r2nr.Lal Photo,!rap1'jy arr! o-atllnr~-], partlcul-rj"- thoir ajplic'ltion in vl:~p:,!.ri'~ -,i-A city :3--tt1rnncntv fro::,. ac.-ria-1 photoL~rap-Y inow-1-ativo3. The nair, -Lz Or, roc-nduror, in trd,,L-,~,, acrial photo~~rap~s, nrocnn-.-Ln~ the no nrvl lnf.erpr-tln~ .1 :71.oun-t--i ~Tlle positives. Equipmunt for ne:;aAiver, 1--,ns~i:l -n- '.. N  AID .11 as for roc--~3~lnz an-I f multiolex) is outlinc-, V,:~ry briefly ~,.-ithoul~ ~,ivin~ nny J-1for- j-'ation. Uany tableo are of practical help for thoce vho en--a~c in picture talflnZ- and m.-iL.-Ucal prozessin-, of However, no ne-17 or rpecial nothods could 'oe found in this m!iritml. Tiblon, dia -raii-z. U  DMM), Viktor Filippovich; YMLV=Iff, V.S, 7adaktor; KUZIMIN. G.M. , takhnicheskiy r~~o (Aerial photography In geodesy] Aerofotocoodesii&. Moskva. Isd-vo oodezicheekoi lit-ry, 1955. 422 P. (KLRA 8:9) ~Pflhotographyv Aerial) (Photographic surveying)  BESKOROVAYNYYO N.M.; YEREMEYEV,, V.S.; TOMASHPOLISKIY, Yu.Ya. Diffusion mobility of lithium in iron and steels. Met. i metalloved. chist. =t. no.3t233-248 161. (?URA 15t6) (Steel-Me+Allurgy) (Lithium) (Diffusion)  OVECHKIII, Ye..K.; DROZIN, KUTSYZLI, M.I.; SHES"TAKOVA, L.A.; E NY GERASDC .0, Ye.I.; PrinirAli uchastiye: YEREMEYEV, V.S.; KATx0II,'CHEIsKO,, V.A.4 VORDIOUILIL,, L.A. Scale formation in distillation columns of the soda manufacture. Zhur.prikl.khim. 34 no.9:1987-1995 S 16L (MIRA 14:9) (Distillation apparatus)  FANOV, V-LI MITKEVICHj N,D,j MTYUNNIKOVAt T.L; YEREMEVt V-5- 0--~ Effect of the conditions of mass crystanization process on the quality of ammonium chloride suspensions and crystals- Zhur.prikl. khim. 35 no.4:705-717 Ap 162. (MIRL 15:4) (Mmonium chloride) (Crystallization)  BESKOROVAYNYY, N.M.; ZUYEV, M.T.; YERE14EYEV V.S. interaction of austenitic chromium-nickel steel with liqu'i lithium. Met. i metalloved. chist. met. no. 4:122-229 16)o (MIRA 17:5)  BESKOROVAYNYY, N.M.;~- RrLIE~YEV?'j'.~.; ZUYEV, M.T.; IVANOV, V.K.; jy~ . y TOMASHPOLISKIYJ, Yu. ~. Corrosion resistance of.iron in lithium. Met. i metalloved. chist, met, noo 4:130-IL43 163# (MIRA 17:5)  SPONLOVICH, Georgly Goorglyevich, prof. PrJnijrall uchastiye: KUDAITSKIY, D.Icl.; ZEEVIL, F.I.; BAKH, M.K.; -tIOI0KC',,, V.P.; G,7F.TSaIOVA, X.N.; HAYES, F.L.; Z A KI ~'-PL V , P.M.; DRYNEK01 V.F., doktor tekhn. nauk, prof., retsenzent; ZAKHAROV, V.K.., prof.p retsenzent; MIROSIRIIKOV ' V.S., dots., retsenzent; BELOV, S.V., doktor sellkhoz. nauko red. [Use of aerial photognphic surveying and airplanes in forestry; aerial photography of forestu and forest aviation] Primenenic aerofotoollemki i aviatsii v lesnom khozinistva; aerofotos'ler,ka lesov i lesnaia aviato-iia. lzd.2., dop. i ispr. Moskva, Lesnaia promyshl., 1964. 485 p jMlaA 17:10) 1, Kafedra lonnoy taksatuJi i lououstroyatva 531orusnkogo tekhnologicheekogo!fnatituta (for Zakharov, Miroshnikov).  YMUMEYEV9 V. Th. "Determination of the Limits of Mitogen6tic Activity of the Ultra-Violet Part of the Spectrum,," Doke AN., 27., No. 8, 1940o  TIMOFZYEV~ P.P.j,_WWAM) V.V. Main terrigenous and mineral associations in the rocks of the Jurassic coaJ-bearing formations in the southwestern and central parts of the Angara-Chalym trough. Litl i pol. iskop no.2:106-126 iMMA l7t6) 1. Geologicheskiy institut AN SSSR,  ItA.-66 ( VT IJP(c) JD/G6 ALL NRt AP5028-713 SOURCE COM UR/0363/65/001/OU/186W/1072 vidakly. M. Teremeyev, V. AUTHORt Mil G.#, GTIshina_LS. P.; V. ORG: Giredmet TITLE: Distribution of impurities in silicon siUle crysta!9 in growing by the -Czochralski method j SOURCEt AN SSSR. Izvest.1ya. Reorganichaskiy materialy, v. 1, no. 11, 1965, 1864-1872 TOPIC TAGS: silicon single crystal, phosphorus, arsenic, antimony, aluminum, boron, C -single crystal growing, crystal impurity ABSTRACT: The study was carried out an silicon single crystals doped with various concehtrations of phosphorus, arsenic, antimony, aluminum, and boron and grown in the direction by the Czochralski method. The distribution of impurities in various cross sections of the crystals was investigated by selective anodic and chem- ical etching, and the single-probe method of resistivity measurement was used for quantitative determinations. Several systems of growth bands were observed In the ingots, and possible causes of the formation of periodic Inhomogeneitles are examin- ad. The affect of the nature and concentration of the doping Impurity and the growth conditions on the manifestation of the "face effect" In single crystals In discussed. UDCs 546.28t549oSS Card 1/2  L[ HW - ~ &;4 ---.-2/2    VLQ AVri(O,q'. Kroll, L. Ya; Ponomarov, N. M.; Rakovj V. V.; Yoremoyovo Ve Vo ORG.' Gireckot TITLE*. Datormination of the diffusion coefficients of arsenic vapor in argon and helium SOURCE: AN SSSR. Izvestiya. Neorganichaskiye.materialy, v. 39 no. 29 1967, 275-279 TOPIC TAGS: arsoniev gas diffusion# argon, helium ABSTMCT .6 The diffusion coefficients of arsenic vapor in argon and helium wero delor- minod in the 1.8-5.5 abs. atm. range by Stefans stationary method. Ba3ed on experi- -mental data, the diffusion coefficients reduced to standard conditions were calculated to be: in Ar3, DOABI~ = (o.nnoxOQ cm2/soct and in Hos DOA54 = (0.04t0.009) cv?-/soc. The absolute experimental error did not oxcood 554. In the invostiRatod range of tom- poraturos and prossuroal t6 diffusion coefficients of arsenic vapor wore inversely proportional to the total pressuro of the nixturs, at constant tomDorature; this be- havior confirms Loschmidt's law. It is shwm that a good approximation of the ton- porature, dependence of the diffusion coefficient at constant prossure is the Mmlel- lian m6dol of intermolecular interaction., which oxeressos the parabolicity of this dependence. Orige art* hasl 2 figurosi I table and' 3 formulas. 9UB COD;-",,t 0?/ SUBM DATE: 28Dec65/ ORIG REF1 002 Cord _I UDC: 5331.151546.19  Soma CODE: uR/o4l3/67/000/003/0018/06-18 INVENTOR: Abayev, B. I.; Hillyidakiy, M. G.; Yeremeyev, Y, V.; Mityukhinj N. F.; Petrov, Yu. A.; Ofitserov, K. D. ------ : None LE, A device for growing single crystals. Class 12, No. 190864 'ISOURCE: Izobreteniya, promyshlennyye obraztey, tovarnyye znaki, no. 3, 1967, 18 TOPIC TAGS: single crystal growing, quartz, electromagnet STRACT: This Author's Certificate introduces a device for growing single crystals ,decomposable compounds by pulling from a melt in a crucible. The unit contains a I artz chamber of uniform diameter with inspection window and a hollow quartz rod for tating and moving the seed. To rotate the crucible at a controllable rate and to ntrol. the rate of rotation and motion of the seed, the unit is equipped with statiozi- y electromagnets consisting of water-cooled copper tubesand rotatable pole pieces. quartz needle bearing is used for amooth rotation of the crucible containing the UDC: 542.65:548-55 1/2  sm F ^%-%- T"I , A137009052., 1. I. I I , I I 1'. 1  TXF3KMW, Ye.; HAKSIHOV, Av; RUBINSKIY, Yu. Zvprove theiraining of personnel engaged in the setting of work standards for the mining Indnst27. Bots.trud 4 no.1:99-101 Ja 159. (MIRA 12:2) (Mining engineering-Study and teaching) (Production standards)  TMMP Working dicuments of the chief ph7sician in the district hospital. Zdrav.Roo.Yeder. 3 n0-7:13-17 Jrl 159. (KM 13:1) 1. Is Turnarskogo bollnichno-poliklinichoskogo ob"yedineniya Chuvash- dkor ASSR. (KIDICAL RECORDS)  YERMunly IL Organisation and carr7ing out of meetings and conferences in the district. Zdrav.ltos.7*dor. 4 no.2t23-27 F 160. (MIRA 130) 1. Is Burnarekogo bollnichno-pollklinlebeftogo obeyedineniya, Chuyambakoy ASSR. (PUBLIC Muint RUJIAL) \14"  GUSEV, V.V.; KHEM.- Yu.A.; SAMOKHVALOV.. G.N.; KHOLODILIN., A.M. Mathematical model of a ship. Trudy IZI no.31:11-14 160. (MM 15:2) 1, Kafe4ra teorii korable Leningradakogo korablestroitellnogo instituta. (Mathematical models) (Stability of ships)  POPOV9 A.D., inzh.,* YEREE~M-V, Yu.A., inzh. Experimeatal automated cold storage warehouse built with vibro- cast panelB. Khol.tekh. 40 no-5:4~45 S-0 163. (MIn 16:11) 1. Giprokholod.  L.~Ildk~Oi4 S.A. ; SYPCHENKO, O.A.; YMMYEV, Yu.11.; YAKSANOVA. AM RUBINSKIY, S.I. Outdoor day naps during the cold season In the treatment of night sleep disorders. Vop.kur., fizioter. i lach.fit.kullt. 22 no.3: 17-21 MY-Je 157. (MIRA 11:1) 1. 1z Pvatigorokogo klinicheakogo otdoloniya (zav. - profs YeeYse Stavokeya) Ballnoologichaokogo institute no Knvkazakikh Minerall- nVkh Vodakh (dir. - doteent I.S.Sevoshchanko) I klinichookogo sonatoriya Pyatigorskogo kurorta (glavW vroch O.N.Smolenskaya) (INSOMNIA) (SLEEP)  ASSOROV, V*Vo; 7ERM(ETEVA* A-I- . Y.G. zhimankov, 1881-1949; 79-81 151. Wimenkov, obituary. Biul. XOIP Otd. geol. 26 no.Z: WRA U:5) Viktor Gavrilovich, 1881-1949)  RABINOVICH. 5.D.; YHREHUMA, A.,L. Cretaceous and Tertlary deposits m the @intern slope of the Urals nnd in the tranaLOral region. fr~* Oere-gool.inst.ne.24:187-2o6f56. (Ural Hountnin tpgion-Ooolog, StrAtigraphic) (mm 10:1)  ,-Y2AZMSY4VA, A.I. Now species of Yoraminifera from Cretaceous and Terti*ry sediments in the Aastern slope of the Urals, Trudy Oor,-geol. In'st. no. 28:9- 15 '57. (MIRA 11:10) (Ural Mountains--Yoraminifera. Fossil)  YEP&MMAp A.I.j BEIDUSDVAq N.A. Stratigraphy and faum of Foraminifera of Cretaceous and Paleogene sediments in northern Kazakhstan.. the trans-Ural regionp and the eastern slope of the Urals* Mat.po geol. i pol Iskop. Urals, no.9t 3-3-12 161* (MIFLA 15:3) (Ural Mountain region-ForaminiferalFoBsil) (Kazakhstan--Foraminifera,FoiisU)  I A. S. 'A Case of Spontaneous Rupture of the Stationary Aorta," Arkhiv Patol,P 119 No. 11 1949. Mbras Pathologico-Anatcmic Dept.., Ryazan' Oblast Hosp. im. N. A. Semashko, 1947.  GIFOOLID, A.I*;_ 2202mm&k Problem of megaduodenum. Vast. rent. i rado no.6:22-27 IF-D 154 J4 (MIU all) . Irentgenologichaskogo otdalenl7a, (zav. A.I.Gingolld) J. patologoanatomicheakogo otdolenlys, (zave X.LSoboleva) detskc7 klinicheekoy bollnitm7 imeni N.F.Pilatova (gl&vAY7 vrach M.N. xail~tina) I kliatki detako7 khirargii 11 Xoskovskogo meditain- skoto ifistituta imeni I.V.Stalina (way. kafedro7 prof. S.D.Ternovskiy) (DUCiMNUM, abnormalities megaduodenum) (ABNMALITINSO uegad~odenum?  SOBOIAVA. H-L; YMMYRYA, A.S. Pathogenesis of persistent fistulas appearing in the soft tissue in children following Injection of penicillint anatoxin, and other drugs. Arkhopst. 18 no~7:126-131 056., (MIRA 10:1) 1. 1z patologoanstomichaskogo otdoleniya (zav. N.I.Soboleva. naurhny7 rukovoditall - daystvitalinyy chlen AMN SSSR prof. M.A.Skvortsov) Detskoy klinichaskoy bolinitay iment Yilatova (glavnyy vrach M.N. Kslugina) (INJBCTIONS, complications, fistulae of soft tissue on site of inject. in child. (Bus)) (YISTUIA, etiology and pathogenesis, Inject. causing fistulas of soft tissue In child. (RUM  SOBOIXVA, H.I., YMUMMAt A.S. (Hoskya) Case of generalized smallpox vacciuntion Evith euwmr7 in Inglishle Arkhopat, 20 no,787844 158 (MIRA 11:9) 1. Ix prosektury (nnuohnyy rukovoditall - daystvitellnyy chlen- ANN SSSR prof. U*A. Skvortnov) Detakoy klinichaskoy bolinitey iment Filatova ( lavWy vrRah X.No XMIA181na). VAGOINIAt In Info & ohild. fetal generalized (Rue))  *A"R'.,~W SOBOL&VAt N.101 MMXMMVAg A.S. Noblem of Joetterer-4iwo disease@ Arkhopat, 22 no*3364-69 t6o. (UffTMM68IW3 DISEASS) (KMA 13112)  SOBOLEVA, N.I.; MUMMA, A.S.; VOIXOV,, M.V.,, dr. med.tauk Pathcmorphological characteristics of ontooblastoclastcmas in children. Ortop,ptravmA protew. ro.1002-18 161*' (KIRA 14:10) lo Iz patologoanatomicheakogo otdeleniya (zav. - N.I. Soboleva) Detskoy klinicbeskoy bollnitay im. N*F* Filatova (glavvvy vrach - L.A. 7orokhobov) i iz kliniki detakoy khirurgii 2-go Moskovskogo meditsinokogo institute. im. N.I. Pirogova (zar. kafedroy - chlen- kor. AMN SSSR prof. S.D. Toz-novskiy Edecaaaed]), (BONES-TUMORS)  YEREKEYEVA, A. S.; AKHKE7.'YBV, N. M. (MoBkva) Carcinoid of the bronchus in a child. Irkh. pat. no.4:68-70 162. . 1. Iz patologoamtomicheskogo .otdeleniya Nav. ff. I. Soboleva) bolinitay imeni Filatcnra (glavny7 vrach L. A. Vorokhobov) i otolaringologicheBko7 kliniki (zav - prof. I. I. Sboherbatov) pediatricheakogo fakullteta II Mos;ovskogo-meditsinakogo inatituta. (BRONCU-CANCER)  VLASOVA, A.N., kand.med.nauk; YERE24EYEVA, A.S.; LANDA, N.M. Erythromyelosis (Di Ouglielmols disease) in a IC-month-old girl, Pediatriia no.7:76-77 161. 1 (MIRA 14:9) 1, Iz kafedry gospitallnoy pediatrii (zav. - prof. K.F Popov), .kafedry propedevtiki detskikh bolezney (zav. - prof, V:A. Vlasov) II Moskovskogo meditsinakogo instituta imeni N.I. Pirogova, dizenteriynogo otdeleniya kzav* - zasluzhennyy vrach SSSR P.I. Bogomolova) i patologoanatanichookogo otdelenlya (zav. N.I. Sob-oleva) na. baze Detakoy bollnitsy imeni N.p. Filatova (glav- nyy vrach M.N. Kalugina). (LEUKEMIA)  50) SOV/69-21-3-1/25 AUTHORS: Bartenev, G.M. and,_X~~~ TITLE: The Structure and Structural-Mechanical Properties of Inorganic Glasses PERIODICAL: Kolloidnyy zhurnal, 1959, Vol XXI, Nr 3, pp 249-256 (USSR) ABSTRACT: The author reports on some experiments intended to de- termine the structuro-mochanical properties of inorganic glasses. According to the Zoviot scientist P.A. Rebin- der, diffractional methods which,prove so useful for the investigation of crystalline matter, are of little value for the study of disperse phases, high polymers, organic and inorganic glasses. The study of the struc- tuml-mechanical properties of inorganic glasseii, i.o. particularly of silicate glasaes,-is, therefore, of great importance for the.ascertainment of the struct- ure of these very compli6ated materials. The author's experiments have shown that at certain temperatures the Card 1/3 structural frame of inorganic glasses is little re-  I SOV169-21-3-112- The Structure and Structural -Yiechanical Properties of Inorganic Glasses .1 . sistent and easily disintegrates under light loads, but that it is partially restored after their removal. The main reason for the solidification of viscous glass, when cooled, is the process of vitrification. The ag- gregation process and the thermal history, he,'.,ever' play an important role in the formation of the glass structure, whiCh appears in the change of mechanical behavior of samples of the same glass sort. The author maintains that inorganic glasses (massive glasses and glas3 fibers) occupy a position intermediate between thixotropic colloidal systems lomd high polymers. This assumption is based on the behavior of inorganic glas- ses above the softening temperature and requires 1) the presence of a temperature region of deformation of the elastic typet differing from the high elastic deforma- tions observed beloW the softeftinG temperature, and 2) the presence of thixotropic properties. The structu- ration processes above the vitrification tempera- Card 2/3 ture lead to the formation of a network,  SOV/69-21-3-1/25 The Structure and Structural-Mlechanical Properties of Inorganic Glasses the elements of which are evidently chains. In addi- tion to the above-mentioned Soviet scientist the fol- lowing names, which are all covored by references, are mentioned in the article: V.V. Tarasov, G.M. Bartenev, A.I. Bovkunenko, A.F. Zak and Yu.P. Man1ko. The ar- ticle was delivered as a report at the Fourth All- Union Conference for Colloidal Chemistry, Tbilisi, 1958. There are 10 graphs, 1 table and 16 references, 13 of which are Soviet, 2 English and 1 French. ASSOCIATION: Gosudarstvennyy nauchno-issledovatellskiy institut stekla, Moskva (State Scientific Research Glass In- stitute, Moscow) SUBMITTED: 19 April, 1958 Card 3/3  1V 5 3' - i-- Sfi i:!" W-d *Juj,.4,.j 8; 1 -1 4 n; 9: 1 g, I U 2 - J . . 1A Ilia 3p v - -11,3 d a 0 A ,,a: 'I All. 1. z As I 1 :01 mu V41 U i, J. 1 A set -in PA A- j .04 A a.!'! 'd 40 I-A : Hj co, .0d S. -Ft JUVIAN Z .3 - s z5 Rl- -,3 - 41~ 1- 1, 1 , pelu- "A t a k, 3 V I 04 I Iv .3 4A  84505 I.S721 21D 1109, S/190/60/002/004/005/020 3004/BO56 AUTHORS: Bartenev, G. M., Yeremeyeva, A. S. TITLE: Mechanical Propertiesiv of Inorganic GlasseB Within the Range of Anomality, and Their Structure PERIODICAL: Vysokomolekulyarnyye soyedineniya, 1960, Vol. 2, 110. 4, pp. 500-513 TEXT: The authors investigated the behavior of glass rods in the temperature range 0 - 9000C. The samples were subjected to torsional or bending stress. A Table gives the mechanical characteristic values of the following kinps of glass: marblite, 'BB/ (VV, vertically dralm glass), T~P -5 (TF-5,'Prich in lead), K-3 LK-L.~borosilicate glass), 13-6 ass poor in alkali), I NTo-18, glass rich in zirconium), (13-Vt 91 4 -18 barium-1 thium glass, 3C-5V (ZS-5K, orosilicate glaus), 3r,-511a (ZB-5Na,N~borosilicate glass), I r116 (P-116Vphosphate glass), optical glasses of the topes ~)-l (F-1)\'~Lnd K-8 (K--8), and, for comparison, the organic glasses\YCVC,-30 (S-K5---370, ebonite, and plexiglas. As the authors Card 113  84505 Mechanical Properties of Inorganic Glasses 3/190/60/002/004/005/020 Within the Range of Anomality, and Their B004/BO56 Structure observed an arbitrary and spontaneous deformation in a previous work (Ref. 5), the samples were heated before being stressed, in order to bring about relaxation. Fig. I shows the data for the toroion (torsion angle T - f(toC)); Fig. 2 the data for the banding streas (ang in relative units as a function of temperature). Fig. .3 shows the kinetic deformation curves at various temperatures, and Fig. 4 the arbitrary deformation of glass during heating. From these experimental data the authors arrive at the following conclusions: The mechanical properties of inorganic-glasses in the, imperature range of the anomaly (between vitrification- and flow te.t..,.erature) are different for large and for small~streases. In the case ",.a low atress,-highly elastic deformations like inpolymers, Here: .^om, conclusions are drawn as.to,a chain- like - structure. As the plas-tic- ra-ng-e- -. depending an the-steric structure is very narrow, glass behaves like a highly viscous liquid under high stress (of more than I kg/cm2). The glass contains two kinds of residual stress: elastic stresses as a consequence of quenching, and "frozen" highly elastic stresses which manifest themselves by arbitrary deformation Card 2/3  84505 Mechanical Properties of Inorganic Glasses S/190/60/002/004/005/020 Within the Range of Anomality, and Their B004/BO56 Structure during heating. The thermal pretreatment influences the structure and the mechanical properties of glass within the range of the anomaly. In this range, the glasses exhibit also weak thixotropy. These reversible processes of structural re-formation have as yet not been explained. On the basio of their highly elastic and thioxotropic properties, the glasses are similar in their mechanical behavior with polymers, on the one hand, and thixotropic colloids, on the other, and therefore have a complex structure. According to their composition and pretreatment, both chain- like and colloidal structures with distinct microheterogeneity were observed. The authors mention papers by P. A. Rebinder (Refs. 1,2), P. P. Kobeko et al. (Ref. 4), Keler and Kozlovskaya, V. A. Kargin and T. 1. Sogolova (Ref. 6), and V. V. Tarasov (Ref. 8). There are 4 figures, I table, and 9 references: 7 Soviet, 1 British, and I French. ASSOCIATION: Gosudarstvennyy institut stekla, Moskva (State Institute of Glass, Moscow). SUBMITTED: December 24, 1959 Card 3/3  gill 2203 BOII/BO78 AUTHORSt Bartenev, G. M.p Yeremeyevap A. S. TITLEt Is Boric Anhydride a Polymer? PERIODICALI Vyso komolekulyarnyye soyedineniya, 1960, Vol. 2, No..12, pp. 1845 - 1849 TEXT% The mechanical properties of vitreous boric anhydride have been studied above and below the temperature of vitrification and have been found to be similar to those of organic polymers and dispersed systems. Softened vitreous B 203 is in a highly elastic state like organic poly- mers. The velocity of the irreversible flow is a function of stress. The rheologic curve of vitreous boric anhydride at 32200 is shown in Fig. 5. Above the yield point, Newtonian flow was observed. The 3heologic curve of boric anhydride resembles the rheologic curves of dispersed systems. Vitreous boric anhydride is a linear inorganic polymer with short chains. V. V. Tarasov is thanked for a discussion. There are 6 figures and'q references: 4 Soviet, 3 US, 1 British, and 1 German. 86328 811901601002101210151019 Card 1/2  86328 Is Boric Anhydride a Polymer? 8 19 60/002/012/015/019 B01 7YT3078 ASSOCIATIONt Gosudarstvennyy inatitut stekla Moskva (State Institute of Glass, Moscow) SUBMITTEDt May 25, 1960 Card 2/2  IZ67 3/190J61/003/005/010/014 I!F,.Z 12,0 B110/B220 AUTHORS: Bartenev, Go M., Yeremeyevap A. So TITLE., The rheological qualities of inorganic glasses above vitrification temperature and their structure PERIODICAL: Vysokomolekulyarnyye soyedineniya, v.3, no. 5, 1961, 740-747 TEXT: The viscosity, characteristic of the glass structure, is of particular technological interest in the anomalous temperature interval Just above the vitrification temperature. In the anomalous viscosity range (10 13- 10 a poises) the viscosity decreases down to equilibrium. Glass specimens of bar form having 30 mm long and 8 mm thick necks were tested by means of torsional stress above the vitrification temperature Tv (Table 1). The shearing stress T and the shearing deformation I depends on the distance r from the bar axis: T w Mr/n01 y a ar/l (2), where M - torque p R - neck radius of the specimen; a -twisting anglel I -length of nook. The velocity of the irreversible flow and the character of deformation depend on the stress. Fig. 1 shove the deformation-time curves for "1TpoKQ1r" Card 1/10  '-*5,67 S/190/917003/005/010/014 The rheologioal.. B11O/B220 (Prokat) glass at a stress of 0.1 kg/cm 2, which Is below the yield point 2 Tm 441 kg am The flow shove not much viscosityO but reversible deforma- tion prevails which is highly elastic in the beginning. The curve of Fig. 2 shows viscous Newtonian flow following -r -Idy/dt (4) for a stress above the yield point. Figs. 4 and 5 show rheological curves of tested glasses, consisting normally of 3 partsi 1) According to P. Rehbinder, flow occurs under small stresses at practically undestroyed structure with constant Newtonian viscosity. 2) 'With increasing stress, the restoration of structure does not compensate the destruction and, thus, the viscosity deareasee. 3) Under heavy stresses the steric structure is completely destroyed and the viscosity reaches the lowest constant valueilm which corresponds In order of magnitude to that of the pure dispersion medium (solvent). It remains constant for further inurease of stress, corresponding to the Newtonian flow. In this rectilinear part of the rheological curves which have the form of an S, similar to those of disperse systems, there occurred, in the case of further stress increase, destruction of structure and gradual transition of the total mass of the glass bar to viscous flow. For 'rm < 'To (go 0 yield point), the whole glass .Card 2/10  The rheological ... 22567 8/19bj6l/003/005/010/014 B11O/B220 bar is elastic, for i m> To, the glass bar is divided into 2 sections; 1) the external concentric section between the radii r and R is a highly viscous liquid, 2) the internal section with radius r deforms itself still as elastic body like the polymers. ~Thus, r -Rr 0/-tma If T m is a multiple of -ro,.the elastic section is negligible. At all points of the glass bar is: 7 -7 elaet. +7 'gisc. I T - -Telast. + 'r Viso.0The use of (2) and (4) results in: % -Up/nR4da/d t. In anomalous state, inorganic glasses are highly elastic! like polymers, however only for small stresses below the 2 yield point obtained thermomeohanically between O.i.and 0.5 k9/CM . The viscosities indicated in Table 2 coincided with the values found by M. V. Okhotin, based on the chemical composition of the glass. With regard to the great dependence of the rheological glass properties on temperature the following particularities were stated: 1) the viscosity ilm increases -quickly with decreasing temperature (for an increase of temperature from 60000 to 7100C -the viscosity of "Prokat" glass decreases from 2.40 10 11 to Card 3/10  S/1 /003/005/010/014 The rheological... B I I Off, 0 8 2.6-1o poises); 2) the higher~the temperature, the lower the yield point '(Fig. 6), The activation energy of the viscous flow was determined for the same glass (Fig, 7), whereby a linear dependence was found. For "Prokat" glass, it was obtained as being 1014cal/mole. For a similar type of glass M. V. Okhotin and Andryukhina, laboratoriya silikatnykh splavov Instituta atekla (Laboratory for S 1 I icate Melts of the Institute for Glass) found an activation energy'of 100.15Rcal/mole based on the chemical composi- tion. According to R. L. Myuller 'the actual values are 2 to 3 times less because of the incomplete rupture of the chemical binding forces. The effective viscosity is a function of the stress: I -T /Vmj for small stresses q _T6 .1013poises it is' con!stant in a certainmrange of stress. The thermomechanical 'curves of inorganic glasses are similar to those of LA polymers. In both cases, the moduli of elasticity in the highly elastic range are lower by some powers of ten than those in the gaseous state. Since inorganic glasses in anomalous state show properties of polymers and dispersed systems with steric lattice structure, the existence of a loose steric lattice in the glass is assumed. Probably, the chains are formed by weak (silicon-oxygen etc.) primary valence bonds, which explains Card 4/10  14 S/190/61 003/005/010/0 , The rheologioal.... B110/B220 the lop stability of the lattice. There are-8 figures, 2 tables, and 12 references: 9 Soviet-bloc and 3 non-Soviet-bloc. The reference to the English-language publication reads as follows: Ref. 10: ?.,Rehbinde~r , Faraday Society Discussion, 1954, No- 13, 151-i6o. ASSOCIATION: Gosudaistvennyy institut stekla (State Institute for Class) Gosudarstvennyy pedagogicheskiy institut im. V. 1. Lenina (state Pedagogical Inatituto imoni V. 1. Lonin) SUBMITTED:. September 1, 1960 Legend to Table 1:- 1 Type anct number of glass; 2) qoftening temperatu3re, 0 T 9 C; 3) denominations of the princibal-oxides; 4) not; 5) sheet of V industrial "Proka-9,11. no. I ; 6) electrovacuum glass 3C-5 (Z3-5) 11K11, no. 2; eloctrovacuum 91tt e 3C-5 ZS-5) "Ila", no. 3; optical glass T~-5 (TF-5)? R t4- temperature at which the a no. 4; optical g1 a ip -1 -1) ,no. 5- 1T O l highly elastic de rmation begins to develop (30C/min. !velocity). I Card 5/10.  2536(j A Y T'i 'e C"i -1 ~,'A 1  A a I t 0 J r t :jc- i n t "k UOVI Lc-,h ao d a Th Parts I , J TI Tr o t e t, . ' t 1 ~, A a a u t. om a ta 11 y Q c. u Tekhn i cl,,~ r t va t t s 0 i; ap pa ra u a-Ithor in t! . do,t - , Card  5 1-1-1 3/032/61/027/006/011/010, A method for the torsion tent ... B1241B203 teMperatures above vitrification point (Fig. 3) show that the lever indicating instrument is unsuitable for such purposes. Fig. 4 shows the results of.tests of nonloaded specimens at temperatures above vitrificati point; the reveal that on"heat'ing the glass specimen without a load in a carefully compensated device above vitrification point a spontaneous torsion of specimens occurs in positive and negative direction. This effect occurs in all glass types and cannot be observed with the device described in Ref. 3. This phenomenon is due to the presence of "frozen" elastic stresses whlose relaxation sets in at temperatures above vitrifi-- cation point. With the apparatus described, it is'possible to study ela and~highly elastic deformations, irreversible flowin plastics, inorgani 6--lasses, and various vitrifiers as dependent on various factors. There, are 4 figures, 1 table, and 6 Soviet-bloc references. ASSOCIATION: Gosudarstvennyy nauchno-issledovatellskiy institut stekla (State Scientific Research Institute of Glass) Card,3A  TARASOV, V. V.; BAFCMI G. M.; YEREMEYEVAI A. S.; RATOBYUKAYAp V. A. "On polymeric nature of vitreous arsenic trisulfide." report submitted for 4th All-Union Coaf on Structure of Glaosp Igningradj 16-21 mar 64.  YEREMEMA .,.A-. S.; BARTENEV., G. M. ''. I "Highly elastic properties of organic and inorganic glasses In connection with their structure." report submitted for 4th All-Union Conf on Structure of Glass, Leningrad, 16-p1 mar 64.  --~Qy: -A: A P 1 iti 9i- T 4 13E, '0"   L 12889-616 EWP(e)/EfiT(m)/EWP(b) W11 J'ACC--NR, AT6000486-- SOURCE CODE: UR/0000/65/000/000/0167/0171 AUTHOR: Tarasov, V. V.; Bartenev, G. M., Yeremeyeva, A. S.; Ritobyllskaya, V. A. ORG: None TITLE: Polymeric character of y1trc% ~karsenic trtqulfide SOURCE: Vsesoyuzp2Le soveshchanlye po stekloobraznomu sost~yanlyu. 4th, LenfnEprad, ,1964. Stekl raznoye sostoyanlye (Vitreous state); trudy soveshchaniya. Leningrad, lzd-vo Nauka, 1965, 167-171 TOPIC TAGS: arsenic compound, sulfide, glass property, thermomechanical property, polymer ~ABSTRACT, Specially heat- treated vitreous arsenic tr (sulfide was stud led by the resonance method, in which the value of the resonance frequency characterizes the elastic properties, and the width of the resonance peak shows the magnitude of the dissipative forces. The measurements were taken at 136.6 kc at room temperature. All the samples were characterized by an exceptionally high compressibility (av. 6. 2 x 10- 12 cm2/dyne), and the effect of the thermal past on the volume compressibility was Insignificant, This high com- pressibility is attributed to a pronounced heterodynamism, 'which to apparently due to the fact that the basic structure of vitreous As283consists of chain formations bound by re- latively weak forces, and the compression takes place primarily at the site of weak bonds, I Card 112  L 12889-66 ACC NRt AT6000486 The dependence of the Internal friction on the thermal past of the glass was determined, 0- thermomechanical curves for As 2 83were plotted, and the temperature dependence of the elongation and coefficient of thermal expanstIon was studied. The data show vitreous As2 53 to be a genuine polymeric material. Orig. art. has: 6 ftgures$ .SUB CODE: 11/~JBM DATE: 22May65/ ORIG REF: 002 2/2'~ Card  Y-PREMEYEVA S. (Moskva) I CmgOnjt&j Ift&ligrarit tumor of the leg. Arkh. pat. 26 rc.".76-F1 I U. (MIPA 1822) 1. PatologoanatmIcheskoye otdolen3ye N-%v. N-1. Sobolev!i) DO,- skoy klinicheskoy bollnitsy imemi. prof. N.F. FJI.atova (glRv---y7 v-rE*c:h L.A.. Vorokhobor).  AUTHORS: _Yeremeyeva,_G_.,and Berdyshev, A. SOV/126-6-5-26/43 TITLE: Collective Electron Model of Anti-Ferromagnetism of Transition Metals (Antiferromagneti= perekhodnykh metallov po modeli kollektivizirovannykh elektronov) PERIODICAL: Fizika Metallov i Metallovedeniye, 1958, V01.6, Nr 5, pp 929-930 (USSR) ABSTRACT: Lidiard (Ref 1) applied the collective electron model to explain antiferromagnetism. of transition metals. He assumed the d-band to be in the form of a parabola. In some cases the parabolic form is not a good approximation to the real band. The present authors assume a rectangular band suggested by Wohlfarth (Ref 2), i.e. they assume -j (G) - CON129 where N is the number of electrons and 6 is the Fermi energy. Magnetization of sub-lat~ices in the absence of an external field J now given by Eq.(2a). The authors ,expression yielded better agreement than Lid- iard's results (Ref'l) With the experim6ntal data of Shull Cardl/2 and Wilkinson (Ref 4) on the relative intensity of  SOV/126-6-5-26/43 Collective Electron Model of Anti-Ferromagnetism of Transition Metals the antiferromagnetic superlattice -peutron diffraction lines, which are proportional to El. Paramagnetic susceptibilities % and -k wbre also calculated. Heat capacity was fAnd to ha4 a discontinuity at the Neel temperature. This discontinuity was greater by two orders of magnitude than that obtained by Lidiard (Ref 1). The problem of this discontinuity cannot yet be settled by an appeal to experiment, since empirical results are contradictory (Refs 1,7). Comparison of the expressions obtained by the authors with those of Lidiard shows that the form of the d-band is*of little importance in the temperature dependence of antiferromagnetic order and in paramagnetic susceptibility but it gives different results for heat capacity. There are 8 English references. ASSOCIATION: Urallskiy gosudarstvennyy universitet imeni A.M.Gorlkogo (Ural State University imeni A. M. Gorlkiy) SUBMITTED: June 26, 1957 Card 2/2  MIROSHCHENKO, Stepan Makarovichi TUR9 Viktor Aleksandrovichj YEUKJKMA.G.p red.; ISBEDEV, A., tekbn, red, .[Procedure for cozputing and paying the turnover tax] Poriadok is- chioleniia i uplaty naloga a oborota. Moskva, flefinizdatt 1961. 13U P. (MIRA 1418) (Sales tax-Accountind I  VINOKUR, R.; YEREK9YEVAj 0. OThe otate budget of the U.S.S.R.0 IV A. M. Alsksandray. Reviewed by R. Vinokur,, G. Eremseva. Fin. SSSR 23 no.121 84-86 D 162. OMIRA 16: 3.) (Budget) (Alokeandrovp A. M.)  VINOXURP R.;. lq~j G.; MKHEMI F. Lenin's principles of control are put into operation. Fin.SSSR 37 no,015-25 Ap 163. (MIRA 1624) (Lenin# Vladim1r I1110h, 1870-1924) (Auditing and inspection)  MIM)LINY N.,, inzh.; VAKULENKO, T.,, inzh,; YEREMYEVA. G,,, inzh, . ''. The 6F4F triode-pentode. Radio no,9s54-55 S 163o (WRA 16:12)  YLW4-9X9VA G. V. Woulation of currents In the North Atlantle., Okeanologila 4 no-5013-914 164 (MIRA 18al)  Ir ACC NR. AT6016539 Cff) AUTHOR: Yeremeyeva. G. V. ORG: None SOURCE CODE: UR/2634/65/000/085/0045/0052 TITLE: The calculation of baroclinic layer flow in the North SOURCE: Moscow. Gosudaretvennyy okeanoRraficheskiy instit t. Trudy, no. 85, 1965. Teoriya i metody raschetov techeniy i neperiodicheskikh kolebaniy urovnya prilivov (Theory and methods of calculating currents and acyclic fluctuations of water level and tides), 45-52 TOPIC TAGS: ocean current, ocean dynamics, boundary layer theory ABSTRACT: Applying methods in boundary-layer theory, P. S. Lineykin (Izv. AN SSSR, ser. gqofiz., no. 6, 1962) studied ocean currents within the baroclinic flow and showed the dependence of the circulation of the ocean on the shape of the zero surface. The present author uses Lineykin's method, equations of mdtion, equations of continuity, and the nonlinear equation of turbulent mass diffusion (in cylindrical coordinates), and the chart of Defant, based on experimental observations (Wisnenschaftliche Ergebnisse der deutschen atlantis- cher Expedition. Meteor. Band VI. Zweiter teil, Berlin, 1941), to calculate Card .1/2..  L 35093-66 ACC NK: AT6016539 the deep sea.circulatLon of North Atlantic regions for the sumer months as a function'of the shape of the zero surface. Data on the tangential wind intensity were borrowed from K. Hidaka (Computation of the Wind Stress over the Oceans, Reprinted from Oceanographic works in Japan, vol. 4, no. 2. 1958). The gradient of sea water density used is from the paper by A. M. Muromtsev (Basic Traits of the Hydrology of the Atlantic Ocean, Gidrometeoizdat, M., 1963). The results, presented in the form of maps, are in good agreement with experimental 1 observations. Orig. art. has: 17 for-11as and 3 figures. SUB CODE: 08/ S.UEM DATE: 00/ ORIG REP: 005/ OTH REP: 002  XAjtDjgXP~A,,,'Pa1ina Fedorovnap- ILIVICH, Anna YakovIevnar TKACmfKO, Geora-~tiWavibbi *ZVKUN, A.G.,, Frof.,, red,; EHJZX'iDu'.LTe., red. [Principles of savings management]'Osnovy -sberegateltnogo dela. Moskva, Finansy, 1965. 107.r. (MIRA 18:5)  MEM, rEIVA Y r:-,- 11 I ~Y CalculAtion of the c-urrents of the baroclinic layer of thr-, North Atlantic. Trudy GOIN no-85:45-52 165. WIPA 19: 1)  YEfOMEVA, G,V, 1-1z, - W-aa"~. ~- " Calcul=04-~i-of drift currents In the North Atlantic. Tra.Tjr Golli no.75149-57 164. (MIRA 17Q0)  YEREMEMAs K. 14. YEREMEYEVAj K. M. - "Growth Changes in the Skin and Itair CoveringE of Fur-Bearing Animals.n Sub 29 Dec 152, lbscair Fur and Felt Inzt. (Dissertation for the Degree of Candidate in Biological Sciences). SOt Vechernay kva ,a Moo January- December 1952  USSR / Farm Animals. Wild Animals. q-4 Abs Jour : Ref Zhur - Blol., No 10, 1958, Io 45236 Author i-,Yeremeyeva, K. M. Inst Not-glvmr-- Title The Development of the Cutaneous Glands in Fur Animals. Orig Pub Tr. Moak. vat. akad., 1957, 16, 55-63 Abstract The sebaceous glands exist in silver-black foxes, blue Arctic foxes, and rabbits; the sweat glands are absent in rabbits. The incipient sebaceous glands in silver-black and in blue Arctic foxes appear first on the nape, on the 33rd day of the development of the foetus, when the incipient hair is already present, The newborn pups of foxes have fully devel- oped aebaccous glands which, however, have not yet reached the size of the glands of the adult animals. 7ho r size and activity of the glands is attained in the fall and in winter. This is connected with the processes of therno- regulation. In rabbits, the incipient sebaceous glands first Card 1/2  USSR / Farm Animala, Wild Animals. q_4 Abs Jour : Ref Zhur - Biol.) No 10, 1958, No 45236 Abstract : appear in the form of single Glandular colls on the 20th day of embryonic development. In the 20-day old r-abbit, the glands are fully developed. In foxes, the incipient sveat glands appear on the 37th - 38th day of the development of the foctus. The sweat glands in foxes and blue Arctic foxes have similar structure., but in the latter they are much less numerous, and less developed. The development of the sweat glands reaches its peak in summer (July-August); in winter, their number decreases. In furanimals, -the sweet glands are considerably less developed than in domestic animals. Card 2/2  YEMEYEVA, K.11~ I roforent Determining the strength of blast furnace burden rAterials at high temperatures (from "Blast Furnace and Steel Plantpl, no.5, 19601. BiuL TSI1C11M no.1:50-52 261. (MIRA 14:9) (United States-Blast furnaces)  Production of low-phosphorua foundry ;rcm [from "Iron and Coal Trades Review," no, 4795p 1960]. Diul. TSIIC194 no.2sO_-1,1) ,61. (MIRA 14:9) (Great Britain--Cast 'iron)  YEREMEYEVA, K.N. r ,- - ' * lirI-colling of blast furnace hearth bottoms [from "Journal of Iron and Stool Institute,," n0-4 M :54-55 ., 19601. BiuleTSHCH, Do,,4- 161. MU 14:10) (Great Britain.-Blast furnaces)  Collective Farms Affairs and the pecple of the "Bolshevik" Collective Farm. Krestlianka 31 No. 7. 1952 Monthly List of Russian Accessions. Library of Congress. September 1952. Unclas3ified.  . - -),-- 11 1 ~ ~ 1 7 /11, - -- - -- -- - -- - - ---- - - --- -- -- -- ---- - - -- /4- / Izz - -- - ' MAWS I H.; D AO H*L., red*; GORIKOYA, Z.D., takhn.rod. [A great force] Bol'shais eila. Hoskva, Goo.izd-vo a .allkhot. lit-rys 1957. 47 Pe (MM 11:3) (Agriculture)  LAGMIOV. L.L., kand.tekhn-nauk.; TEGOROVA, L,11., kand.tokhn.nauk.; FSKRINA, N-L, kand.tekhnonauk.,- YLROOR WIA, M.N., mladshI7 , - 4P7 W~v nauchr sotradnik. Studying acid preservation of fish and fish offal. Trudy VNIRO 35:115-130 158- (MIRA 11:11) le Laboratoriya novoy teltuologii Vi;esoyusnogo nauchno-isaledo7at ell - sko 0 Instituta morskago rybnogo khozyFqotva i okennografii. f7ishery products-Presorvation) (Acids)  YEGOROVA., L.N., kand.takhn.nadkj YERE KXEL,~~ mladshiy nauchnyy sotru" Various method of food meal preparation from fresh and acid preservation fish off.alo Trudy VNIIRU 45S134-138 162o (MIRA 16-5) (heds) (Fish moal)  YEREWMA M.Y. (Kaliningrad) Arithmetical preparation for the study of exponential functions, Mat.v Wcole no.603-34 N-D 162. (KMA 1611) ,(Functions, Exponential) (Mathematics.-Study and teaching)  Yerev,.yeva, IN. IIT~,p Effect of Stivilption of the Jrnln on tj-,,j Functional Activitv of Min Ukmininri :33R. Dnepropetrovsk State Medical inst. Kursk, IQSI~ (Dissertation for the degr'De of Candidate in Medical Science) SO: KnizImAyi latonis' 14-0. 27, 2 J111Y 1955  YERMILYEVAs XX5DUQ(Mt,N. M.p Cand Mod Sci -- (diss) "Ef feet of stimulation of the cerebrum upon JOtR functional activity of the reticuloendo- tholium." Rostov-oh-Don, 1957- 13 PP (Rostov-on-Don Stnte Med Inst), 200 copies (KL, 52-57, 111) - ill -  YEREMEYENA. N. M. Cand Tech Sci - (dies) "Mathods of 4*-+owwri=c or "YI-IU LMA- basie toohnologioal time and improv*L~~ the quality of L-V% )0(4 the boring, oounterboring,and unrolling of gray 4ha* iron." Mosl 1958 16 pp (Min of Higher Eduoatkon USSR. Mos Automeohnnioal Inst), 100 copies (KL, 13-58, 96) -52-  ~ovna,* GALET, M.T., kond.tekhn.3tauk, red.; r II VVA lei 0 VAA 4., 4U.. A". , ' Vre =da; SHIJUTOTA, G.V., takhn.rod. (Drills] Svorla. Pod red. M.T.GaleiA. Konkva, Goo.nauchno- tokhn.izd-vo mashinostroit.lit-ry, 1959. 103 P. (MIRA 12:10) (Twist drills)  PHASE I BOOK EXPLOITATION SOV/5598 Yeremeyevap N. M. Obrabotka otverstiy v detalyakh iz serogo chuguna; puti snizh- eniya osnovnogo tekhnologicheskogo vremeni I uluchsheniya kachestva otverstiy pri sverlenii, zenkerovanii I razver- tyvanii serogo chuguna (machining Holes in Gray Cast-Iron Parts; Ways to Reduce the Cycle Time and Improve the Quality of Drilled and Reamed Holes) Moscow, Mashgiz, 1961. 126 p. Errata slip inserted, 4,000 copies printed., Sponsoring Agency: Vaesoyuznyy nauchno-issledovatellskiy instru- mentalInyy institut VNII. Ed. of Publishing House: 1. 1. Lesnichenko; Tech. Ed.: L. P. Gordeyeva; Managing Ed. for Literature on Metalworking and Machine-Tool Making: V. V. Rzhavinakiy. PURPOSE : This book is intended for technical personnel in the metalworking Industry. CaNtnIA  Machining Holes in Gray Cast-Iron (Cont.) SOV/5598 COVERAGE: Xnformation is given concerning the machining of holes with hard-alloy-tipped drills and rough and finishing reamers. Tool wearp the built-up edge, and metal-sticking phenomena are discussed. The practicability of decreasing the cycle time for rou6- and finish-reaming operations'is considered. Investi- gated,are the surface accuracy and roughness of drilled, and rough- and finish-reamed holes as they depend on cutting, wear, and cooling parameters. Recommendations are made relative to the improvement of tool design; the selection of optimum tool geometry, cutting regimes, and type of hard alloy; the appli- cation of cooling; and criteria fbr dullness and other conditions for efficient tool utilization, Methods'for increasing labor productivity and decreasing the cost of machining holes in gray cast-iron parts are presented. No personalities are mentioned. There are 28 references, all Soviet. TABLE OF CONTENTS: Ch. I. Machining Holes in Gray Cast Iron Improving the design of drills, rough reamers, and finishing dard-,;~2/6  PHASE I BOOK EXPLOITATION SOV/5581 Moscow. Dom nauchno-tekhnicheskoy propagandy. Vy-wokoproizvoditellnyy rezhushchiy instrument (sbornik] (Highly Productive Cutting Tools; Collection of Articles) Moscow, Mashgiz, 1961. 3511 p. Errata slip inserted. 10,000 copies printed. Sponsoring Agency: Obshchestvo po rasprostraneniyu politicheskikh I nauchnykh znaniy RSFSR. Moskovskiy dom nauchno-tekhnicheskoy propagandy imen! F. E, Dzerzhinskogo, Ed. (Title page): 11. S. Degtyarenko, Candidate of Technical Sciences; Ed. of Publishing House: I. I. Leanichenko; Tech. Ed.: Z. 1. Chernova; Managing Ed. for Literature on Cold Treatment of Metals and MachIne-Tool Making: V. V. Rzhavlnskiy, Engineer. PURPOSE : Thin collection of articles is Intended for technical personnel of machine, Instrument, and tool plants. Card-::-l./--6-  Highly Productive Cutting Tools (Cont.) SOV/5581 COVERAGE: The collection ctontains information on the following: new brands of high-speed steels and hard alloys; designs of built-up tools and tools for the machining of holes; tools for machining heat-rzesisting and light-metal alloys and plastics; tools for unit-Irzad machinea and automatic production lines; and methods for the sharpening and maintenance of carbide- tipped tools. No personalities are mentioned. There are 56 references, mostly Soviet. References accompany some of the articles. TABLE OF CONTENTS: Foreword 1. NEW 'PIRANDS OF HIGH-SPEED STEELS AND HEAD ALLOYS 3 Geller, Yu. A. [Doctor of Technical Sciences, Professor]. Highly Productive Hlgh-Sp~-ed Steels 7 C a r d -__ ---/- 6  Highly Productive Cutting Tools (cont.) SOV/5581 Smirnov, F. F. (Candidate of Technical Sciences]. New Types of Carbide Alloys for Cutting Tools 22 II BUILT-UP TOOLS AND TOOLS FOR MACHINING HOLES Akimov, A. V. [Candidate of Technical Sciences]. Advanced Designs of Single-Point Tools 43 Morozov, F. 1. (From the Experience of the Zavod imeni Kalinina-- Plant imeni Kalinin). Application of Ceramij Materials 65 Yerameyeva, N. M. Geometry of Tools for the Machining of Holes 79 Fadyushin, I. L. Carbide-Tipped Boring Tools for Machining-1b2as in Frame-Type Parts go Erenkrantsp L. G. Tool Designs for Machining Precision Holes ill Markov, R. I. New Design of a Broach With Carbide Blades 128 Car-d--3/6  IFMMYEVA2 N.M.1 FEDYAYEVA, V.M. Device for grinding drills with a diameter up to I =. Stan. i instra 36 no,8:23-24 Ag 165, OIM' 18:9)