SCIENTIFIC ABSTRACT YELISEYEV, A. A. - YELISEYEV, A. P.

TZLISIM, A. A. "The Yirst Russian Ilectrical Engineer--V. V. Petrovw, Ilaktrichostvo, No. 8, 1948. Cand. Phvoico-Yathamtical Sal. Kbr.. Comm. on Hist. Acad. Soi.. -c1948-.  USSR/Engineering Laboratory, Org,uniza- Oct 49' tion Industrial Planning "Several Problems in Planning Plant Laboratories," A. A. Yeliceyev, A. 11. Chervyakov, Cen Sci Res Inst of Ferrous Metal, 3 3/4 pp "Zavod Lab" Vol XV, No 10 Outl~nes general measures for use in overcoming de- ficiencies'in plant laboratory planning. An appeal for standardization in organization is one of the 'main themes. Also suggests the Tech Contrnl. See be consulted in matters of production control. 152n6 4  TEMSMY, A.A.; MURZD(M, A.M.; 150i%HIN, A.M., chlen-korrespondent Akademii n4uk An outstanding Russian physicist of the 18th centur7. Two hundredth anni- veraary of the death oi G.W.Richmann. Izv,,AN SSSR Otd.tekh.nauk no.8:1166- 1174 Ag 153. NUA 6:8) 1. Akutdomiya tuakk SM (for Swwin). (Riclunann. Georg Wilhelm, 1711-1753)  c-L. i s r,-,,i 6 V) f) j9, LOKONOSOV, H.V.; VAVILOV, S.I., akademik, radaktor; KRAVETS, T.P., redak- tor; VINOGRADOV, V.V.t adad~mlk, radaktor;TOPCHIYSV, A.V., almdemik, radaktor; UMBUDAYLOV, B.G., rodaktor'; ANDUM, A.l., reda"cor'; BLOX, G.P., redaktor; TSLISEYEV, A.A., redaktor; MffAZ3V, G.A., re- daktor; CMAKLL. takhnichaskiy-rekaktor (Completa'collected works] Polnoe sobranis sochinenil. MosIma. lzd- vo AkLdemil nauk SSSRO Vol.4.[Works on physics, astronoaq, and in- strument construction, 1744-17651 Trudy po fizike, astronomii i pri- borostroaniiu 1744-1765 gg. 1955. 830 p. NIMA 8:6) 1. Onleno-korraspondent Akademii nauk SSSR (for Kr^vate, Barkbuditrov). '(PIVOics) (Astronomy) (Instr=ante)  AA. -1 IV AID P - 3465 Subject USSR/Electricity Card 1/1 Pub. 27 - 32/32 Authors Goloushkin, V. N., and A. A. Yeliseyev, Kands. of Phys. Math. Sci., Len Title Book review: Pavel Nikolayevich Yablochkov. Trudy. Dokumenty. Materialy. Works. Documents. Materials. Compiler Prof. L. D. Bellkind. Chief Editor Corr. Memb. Ac. Sc. USSR, M. A. Shatelen, 463 pp. Academy of Sciences, USSR. Periodical : Elektrichestvo, 10, 87-88, 0 1955 Abstract : The authors discuss the contents of the book, and give a highly favorable appraisal. Institution : None Submitted No date  RICHMANN. Georg Wilhelm*. V A.A., redAktor; ZUBOV, V.P., redaktor; MURZIN, A.M., redaktor; H, A.T.. redaktor; XLYAUS, TeX. redaktor izdatel'stva; SOMOROV, B.A.. tekhnicheskiy redaktor [Works on physics] Trudy po fizike. Moskva, Izd-vo Akademii nauk SSSR, 1956.'710 P- (KLEA 9:10) (Physics)  GOLOUSUKIN, T.N., kmiAldat fitiko-matomtichoaklkh nauk (Lenlikgral); YXLISBYIIV, A.A., lanCidat fiziko-cntematicheallcM muk (laningrad). The book "Histoz7 of t.echnologe by L.D. 3611kInd, I. IA, lonfedow ratav, lA,,A.,Shnblb9ig.-"%yle'We& by T.T,~-4614%hktni *k;A. Ilf GO'bT. Elck-trichentvo no.5:95~-96 MY '57. (MLRA 10:6) (Ko!otr$Ac~ powr) (Bei,)dna, L'Mr.) (Xonfederatoy, LIA.) (Shneiberg, ;!.A.)  L 4A, P1 3119 M: Cand.of phys. math. sciences V.N. GOLOUSHKIN and A,,A.YELISEYEV (Leningrad). 1,2LE: "The History of Technical Science" L.D. Bellkind, I-Ya, Konfedera- toy, Ya. A. Shneyberg. (L.D. Bellkind, I.Ya. Konfederatoy, Ya.A. Shneyberg. Istoriya tekhniki. Russian). PEIRIODICAL: Elektrichestvol 1957Y 1Tr 5p PP 95 - 96 (U.S.S.R.) Received: 6 / 1957 Reviewed: 7 / 1957 ABSTRACT: A textbook for universities. Chapter I - 3, a survey of the de- Yelopment of technical science from primitive to feudal times. Chapter 4, the beginning of heat energetics. Chapter 59 a short summary of the development of the science of electricity and magnetism from the early beginnings to the end of the eighteenth century. Chapter 6, the causes, oharacteristios and consequences of the Industrial Revolution in the last third of the eighteenth century. Chapter 7, the development of thermoenergetics after the beginning of the Industrial Revolution to the 1870's. Chap- ter 8 - 10, the'discoyery of the eleotric current and the dayelop- ment of eleotrd6-teohnical science up to the 167018. Chapter 11, the deTelopment,of machine oonstruction,,metallurgy, transporta- tion system,.and chemical technology in the first half of the nineteenth century. Chapter 12, the development of electrotechnics Card 112 in the 1870's and 1801s. Chapter 13, the development of the most  PA - 3119 "The History of Technical Science", L.D. Belikind, r.Ya.Konfedera- toyt Ya. A.'Shneyberg. important.branohas of the technical sciences in the second half of the nineteenth century. Chapter 14# the history of the ori- gins of internal combustion machnines, gas and water turbines. Chapter 15, the history of three phase current. Chapter 16, the origin of the sciences of radio and electronics. Chapter 17, the beginning of electrification. The second part of the textbooko which handlos tho twentioth oen- tury, is still in preparation. ASSOCIATroN:Not given PRESENTED BY: SUBMITTED: AVAILABLE: Library of Congress Card 2/2  YIELISHM, A.A.: GCLOUMIN, Y.N.; XAKENFTSKIY, H.O., ksnd.tekhn.naukg nauchn.vy red.; VOROBIYXV, G.S., red.izd-va; GURDZHITHVA. A.M., tekhn.red. (Development of electric engineering in the U.S.S.R.] Raxvitie slaktrotekhniki v SM. Leningrad, Gb-vo po rnsprostraneniiu polit. i nauchnananii RSFSH, Leningr.otd-nis, 1959. 45 (M& I3s4) (Electric enaineering)  YELUMIXV, Aleksay Alaksandrovich; SHNNTMG. To.A., red.; SOBOLWA, . .1 Te.H., takhn.rea-. --- (Origin of the science of electricity in Russia; studies of K.V.Lomonosov and G.V.Rikhman] Vosniknovenie nauki ob olektri- chastva v Rossii; issledovanlia H.V.LomonoBova i G.V.Riklmana. Moskva, Goo.onarg.izd-vo, 1960, 270 P. (Electricity) (MIRA 14:1)  3/078/60/005/009/036/040/XX BO17/BO58 AUTHORS: Kirakoeyan, A. K,, Yeliseyev, A. A. ;1 TITLEi The Interaction of Cadmium Sulfate With Ammonia in the Aqueous Medium PERIODICALs Zhurnal neorganicheskoy khimii, 1960, Vol- 5, No, 9, pp. 2095 - 2101 TEXTs The properties of basic cadmium sulfates, especially those con- taining ammonia, were atudied by thermal- and X-ray phase analysis. The composition of the basic cadmium sulfates studied is given in Table 1 and the thermograms of these compounds are graphically illustrated in Fig. !~ Two types of basic cadmium sulfates were isolatedt U80 4* n-Cd (OH)2'xH20 and CdSO 4' n Cd(OH)2's NHY x H20. With a change of the basicity, water- and ammonia content in the composition of these compounds, a change of their thermal stability and the parameters of the crystal lattices also occurs. The basic cadmium sulfates change their color from white to brown through thermal treatment at temperatures above 150 OC. The thermal decomposition Card 1/2  The Interaction of Cadmium Sulfate With S/078/60/005/009/036/040/XX Ammonia in the Aqueous Medium B017/BO58 of ammonia-containing basic cadmium sulfates differs from that of ammonia- free basic cadmium sulfates. The ammonia-containing basic cadmium sulfates lose the entire water at 4000 to 4500C. The X-ray phase analyses proved that all basic cadmium Bulfates consist of one phase. The roentgenograms of the basic cadmium sulfates are shown In Fig. 2 and those of the ammonia-containing basic cadmium sulfates in Fig. 3. The results of the X-ray phase analysis confirm the results of thermal studies, There are 3 figures, 1 table, and 6 references: 5 Soviet and 1 Swiss. SUBMITTEDi June 4, 1959 Card 2/2  3/020/60/135/003/022/Cjz$9 BO19/BO77 AUTHORS: Gliki, N. V,, Yeliseyev, A. A., and Marchenko, N. M. TITLE: The Forming of Ice Single Crystals by Freezing an Under- cooled Water Drop PERIODICAL: Doklady Akademii nauk SSSR, 1960, vol. 135, No, 3, PP~ 591-59A TEXT: The authors investigated the freezing of undercooled water drops containing different chemical compounds in suspension. They used polarized light and payed special attention to the morphology of the ice crystals. The drops were attached to a glass fiber and put into an undercooled chamber. It was found that there are two types ofoolidification. At con- siderable undercooling, the air dissolved in the drop cannot escape fast enough,and the crystal formed is non-transparent, A transparent crystal is formed at weaker undercooling. Many tents nhowed an increane of the probability for the grnwth of a single crystal at it certain tomporature with decreasing dimensions of the drop. An increase of the solidification temperature of drops with certain sizes had the same effect. The optical Card 1/2  The Forming of Ice Single Crystals by S/020/60/1315/003/022/039 Freezing an Undercooled Water Drop B019/BO77 axis of the crystals is usually not oriented. The optical axis shows a tendency to a horizontal position in larger drops (> 1 mm). Dur;ng the growth of ice single crystals, a change of the drop shape was noticed, and the geometrical axis of the single crystal always coincided with the op- tical axis, The ellipsoid form of the single crystals was very stable during vaporization. Conditions are discussed where these formo of the single crystal can be strengthened or weakened. The !nfluence of humidity on the crystal growth is also studied. Further testa about the morphology and the growth conditions are announced, A. V, Shubnikov is mentioned, There are 2 figures and 4 references: 2 Soviet, I BritIgh, and I US. ASSOCIATION: Institut kristallografli Akademii nauk SSSR (Institute of Crystallography, Academy of Sciences, USSR) PRESENTED: April 20, 1960, by A. V. Shubnikov, Academician SUBMITTED: April 11, 1960 Card 2/2 nma  YEL19~Y~~~~; SHIIETBERG, Yakov Abramovich; FILIPPOV, S.M., red.; SEPITKOV, P.A.$ tekim. red. [V-.V.Petrov; on the 20Cth anniversary of his birtb)V.V.Patrov; k 200-letiiu so dnia rozhdeniia. Kursk, Kurskoe knizbnoe.izd- (MIRA 15*8) vop 1961. 78 p. , I : (Petrov, Vasilii Vladimirovich,, 17611-1834)  h ~A'-eke LITINETSKIY, Izot Borlsovich; IC G 8 MA PLAKSM,, L.Yu.., tekh. red. (M.V.Lomonosov as the first Russian pbysicistj M.V.IM-..onosov pervyi russkii fizik. Moskyap Gos.izd-vo fiziko--matem. lit, ry, 1961. 289 p. (KM 15:2) (Lomonosov, MkbailVasillyevich, 1731-1765) (Phynica)"  S/576/61/000/000/020/020 E021/E120 AUTHORSt Kuznetsov, V.Gag YiLL~~__A.A., Shpak, Z.S., Palkina, K.K-, SGR610'rai M~A., and Dmitriyev, A.V. TITLE: Study of the phase diagram and the electrical conductivity of the phases of the Ni-S, Ni-Se and Co-S systems SOURCE: Soveshchaniye po poluprovodnikovym materialam, 4th. Voprosy metallurgii i fiziki poluprovodnikov; poluprovodnikoyyye soyedineniya i tverdyye splavy. Trudy soveshchaniya. Moscow, lzd.-Yo AN SSSR, 1961. Akademiya nauk SSSR. Institut metallurgii imeni A.A. Baykova, Fiziko-tekhnicheskiy institut. 159-173. TEXT; Information on the phase diagram and electrical conductivity of the phases of the systems Ni-S, Ni-Se and Co-S is important for the technology of extraction of nickel, cobalt, selenium and sulphur from their ores and also for the search for new semiconducting materials. The present Investigation was therefore carried out. Detailed X-ray analysiB, differential thermal analysis and measurements of density were carried out. Card 1/4  Study of tht~ phase diagram and the ... S/576/61/000/000/020/020 E021/E120 Electrical conductivity in the range 20 to 440 OC was measured, and in general showed a steady fall ae the temperature increased. The results showed that in solid solutions based on p-NiSe or P-CoS with a defect nickel arsenide structure and a content of 3elenium or sulphur greater than 51.6 atoM.4-. %, a superlattice is formed. This is explained by order.~.ng of dpfazta in the lattice in Ni or Co positions. The following structurea we-re found to exists Ni4S3 hexagonal w-ith parameters at 650c 04, .43 i 0.0 X, c = 12.02 ! O.OlkX and v/a 5 NiqS8 - hexagonal with a = 12.10 � O.IkX, 11.28 O.OlkX, c/a = 0.932 in a lattice of Dix NI S8 gro~.Ipa~' Ni6Se5 - hexagonal. with a -;~ 1,77 0-01-k-X, !-~86 t 0.02kX, C/a = 4.202~, Ni,21Se2o hexagonal with a 7.9.5 1 O.OlkX7 9.76 � O.OlkX, c/a 1.227,- 0 Ni3Se2O tetragonal with parameters at 65o OC of a - 7060 + O.OlkX, c ~ 6,22 t O.OlkX, C/a 0-.818. It was shown that NiS2 hag semiconducting propertiez. The phases P NiS5 P NiSe and 0 CoS with a ni:~kel--a-,-3,-~nide atructure and 0 CoS, P WSa with a ni--kel-ar3enide s-,zper!*t--4-7:e-. and also Card 2/ 4  Study of the phase diagram and the S/576/61/000/000/020/020 E021/EI20 a NiS with a millerite-type structure, behave below 300 OC as semi-metals, but pl CoS with 55.22 at.% S and pf NiSe with 52.3 at.% Se have a tendency to semiconducting type of conductivity. The phases a N'3S21 a Ni3Se2, CoqS8, NiSe2 and mixtures of a N13S2 with Ni, a NijSe2 with Ni and Ni6Se5j C09S8 with Co, have metallic-conductivity. The c/a ratio is close to the ideal nickel-arsenide structure in the case of A NiS (c/a = 1.555) but the tendency to semiconducting properties is greater for p* CoS (c/a = 1.534) and P1 NiSe (c/a = 1.463). This is a deviation from the prediction by W.B. Pearson (Ref.20: Canadian J. of Physics, 1957, v-35, 8, 886) that phases with nickel-arsenide structure would have semiconducting type of electrical conductivity. Detailed information is given on the limits of homogeneity and phase structure of Ni-S, Ni-Se and Co-S systems and also the inter- atomic distances in sulphides and selenides of nickel and cobalt selenide. -There are 2 figures, 2 tables and 32 references: 7 Soviet-bloc and 25 non-Soviet-bloc. Card 3/4  Study of the phase diagram and the S/576/61/000/000/020/020 E021/EI20 The four Most recent English language references read as follows: Ref. 7: T. Rosenqvist, J. iron Steel Inst., 1954, v-176, 37. Ref.16-. M. Hansen. Constitution of Binary Alloys, 1958, 2nd publication. Ref.20.- W.B. Pearson, Canadian J. of Physics, 1957, v.35, 8, 886. Ref.23: M.A. Peacock, Amer. Mineralog., 1947, v.32, 484. Card 4/4  KUZZETSOV, V.G.; YELISEYEV, A.A. X-ray examination for determining the boundaries of homogeneity and the nature of the P -NiS phase. Zhur.strukt.khim. 2 no-5; 578-584 S-0 161. (MIRA 14:13.) 1. Institut obshchey i noorganichaskoy khimii imeni N.S. Kurnakova AN SSSR. (Nickel,alloys) (Crystal lattices)  GLIKI, N.V.; YELISEYEV,_A.A.- MARCHENKO, N.M. Growth of spherical ice crystals. Kristallografiia 7 no,4:609- 612 JI-Ag 162. (MIRA 15:11) 1. Institut kristallografii AN SSSR. (Ice crystals)  GLIKIO N.V.;-YELISh-M., A.A. Effect of saturation and temperature on the kintei" of the development of initial forms of grovth in an ice sphere. Kristallograftia 7 no,5&802-804 S-0 162. (KQ* 15:12) 1. Institut kristallografli JUI SSSR. (Ice aryotala--Growth)  - - - -------- ---- GLIKI, N.V.; YELISEYEV, A.A.; MARCHENKO, N.M. Transformation of cloud drops into Ice cr.-Btals, Dokl. M 33&R 143 no.531087-1080, Ap '62. WRA 15W 1. Institut kristallografii AN SSSR. Predstavleno akademikom A.V.Shubnikovym. (Ice crystals)  LEBEDEV, Petr Nikolayevich, akademik; KRAVTS, T.P., red.(1866-1912); KAPTSOVY N.A., prof., red.; YELISEW _A.A., dots. 0 rf*; 13ERKGAUT, V.G., red. lzd- tekhn. tW.' [ilollected works) Sobranie sochinenli. Moskva, Izd-vo AN SSSR,. 1963. 434 pt (MM 16:9) 1. Chlen-korrespondgat AN SSSR-(for Krayte). (Lebedev, Petr Nikolaevich, 1866-1912) (Physics)  Study of sarne semiconducting compounds and phases based on boron. A. E. S. Medvedeva, A. A. Reshchikova, A. A. Yc~jsay Babitsynal Go 0. Mitkina, Ya. Kh. OrTn'berg-s- Ya. V. Shorina. Report presented at t1-9 3rd National Conference on Semiconductor Compounds, KisUnev, 16-21 Sept 1963  Seniconducring ccr.?ounds of lanthanides with selenium and tellurium. Ye. I. Yarembash, A. A. Yalis yt,~Ye- S. Vigileva, V. 1. Kalitin. Report presented at the 3rd National Conference on Semiconductor Cor.-)ovnds, Kishinev, 16-21 Sept 196.3  KIMKOSIANO A.K,; YEMSBYZV., A-As Basic zinc sulfates. aur.neorg.khim. 8 no.1:119-129 Ja 163. (HrAL 16:5) (Zinc sulfat,es)  EY;Qf q)/EWT(M)/BDS-PFFTC/ASD L M66-63, ACCESSIM NRt AP3001230 S/0078/631008/006/1542/1543 5 AUTHOR.-. Yarembash, Ye. .; VISileva, Ye. S.: Yellseyev, A. A.I*Afitonova, L. 1, 41 TITLE i Lanthan=_ j Ilurides SOURCEt Zhurnal neorganichaskoy khimii, v. 8, no. 6, 1963, 1542-1543 ~IOFIC TAGS; lanthanum telluride, lanthanum reaction product, lanthtu=-te3lurium phase systems specific resiativity, themal emf ABSTRACT- Conditions for the formation of lanthanum.tellurldes have been studied, together with ths phase composition of the products formed from the reaction of ~:La and Te. The tellurides were synthesized by heating a mixture of finely powdered La and Te in the-presence of a-very small-amount of Iodine and-also by the reaction- 0 f LaP with Te vapor. Several phases, among thera LaTe, La2Te3, and LaTe2, were 3 identified. X-ray analysis indicated the possible fottation of two additional phases whose properties and compositions are not known. Compound LaTe crystallizes' as an NaCl-type lattice with a 6.407 0.005 M, a value commensurate with data Card  L ACCESSIM, NR: AP3001230, in the literature. The specific resistivity and thermal emf of compacted samples -at room temperatur were found to be p - 1.5*105 ohm-cm and -40 to .50 tivIdeg for LaTe, p = 4#10 ohm-cm and V 1 - -20 to -30[Lv/deg for La Te~, ? and for P - 2.4*10- ohm*cra and a - +15 t he p o +20 Uv/dag for LaT02 . resence of a negative-temperature coefficient of-re.4i'stivity-vas establ-tshed- in all cases studied, and all compounds-with the exception of LaTc2-were of ii-type conducti- vity. Orig. art. has: I table. ASSOCIATION: none S ITrED: 2lJan63 UBM DATE ACQ:r 0lJul63 ENCL: 00 -SUB CODEI C11 NO REF SOV: 000 MHER: 005~ : Card 2/2  -T(m)/BDS--A~nC D--JD 11263-63 EWPf q.),/Ee; 1AS -_ACCES=11 NR: AP3003476 S/0OT8/63/0O8/0O7/l654/Y>6O AlMOR4 Slavnova, G. K.; yellAeyev, A. -A. TITLE: X-ray analysis of indium-aelenium.alloys tA SOURCE: Zhurnal neorganicheskoaimii, V, 8j no,7.# 19631 :L654-i66o TOPIC TAGS: Indium, selenium, indium-selenium System, x-ray diffraction analysis' powder method, phase diagr&ia., ln,,Se* InSe, a-In, ,Sea$ A-In Se., In,Se,,, Fbase boundary, ABSTRACT-.. An earlier investigation of the indium-seleniUM system (G. K. Sladkova~ et al. Zh. raeorgan. khimii, 8. 15.3 (1963)) has been continued with the use- of the 'x-ray diffraction powder method. Tha present st~lly was undertaken to determine the-phase composition and phase boundaries of the system and to supplement the e.' On the basis of x-ray analysis phase disgram,, shown in Vig. I of the Encloaur and intensit and sin2 data,, it was concluded that in the Se-ln~pe3 region only y the Se, a-ln2ge5, and O-ln2Se3 phases are present and that the Interaction of Se th with In2Se3_is eutectic in character. The latter conclusion is In agreement vi thermal-analysis dalve, previously reported. A new compound designated the X-phase- Inoe6_was famd to lie In the 54 to 55 at% Se range- X-ray analysis revee-led Card...,  T. 11263-63 ACMSION.M4 AP3003476 the presence of InSe. In 2Se, and In in the InSe-1%Se region. The presence of In indicates that these alloys are in a nonequilibrium state. In the In2Se-In region, where segregation occurs, In2Se was obtained by machanIcal separation from the In-rich eutectic. The results of the x-ray analysis suggest the dbsence~ both of marked solubility of In and Se in the compounds existing In the system and of solid-solution regions between the compounds. Orig, art, has: 2 figures and 2 tables. ASSOCIATION: none 'MuSiS3 ENCL; 01 SUB.MI=Dz inec62 D= ACq: SUB COM: CH NO M7 SOVi OOT OMER: 010 A 2/y) 16"W56)_-w_   MUM  ~k , -7, 7 1, -1; T~, -1 C, I , ~7, c- - - evv . A . A .- ~~ -u 7-71 F- V' f" : V 7~ -- -,, t~ 1- -, ~~ . V Ft ! 91 1 1=-;  711  TITLE I X-ray investig&tiom at Laacnffuuw M SOURCEI zhurnhl strukturnov khimii, vv St no. 4, 1964, 641-642 ITOPIC TA(;St rare earch cltka~lconmeaidc! lanthanuc-_ di te 1 ;r Ide crys-,,il, x ray diffrectior-, pattern  14 R L -,.I -77  i Lanthan ia t43 ULwides CIMCS Zhurna I ne orp:r.-i i ahsas kr~~7 idi ir-d 9, o. 6- 8-82  :h~ - ,1~ z  -n,tv-  O.Aq. Lm-s  ACCESSICS NR: 'AP4036962 -----iiOOi8/64/009/005/1032/103i-~ Yarembashp Ye. I.; V19LIM, 0-; Antonm AMHOR; Ye4PffgV_jk.A9,_'A Ye zacbatewao-Ae VO I TITLE: . The polymoryhism of lautbanum SOURO: Zhurnal neorganicheakoy khImlij, yo 9. no. 1964j, 1032-103T TOPIC TAM*. lanthonim.. yo.L~moryhism structure.. x ray analpis., microstructurej, differential thermal, analysis.. alpha lanthanum., bets 2Apthanumj, lattice contrac- tion, thormogram, enantiotropic transformation,, ma1t14!tezq)eraturej. ga= lanths. num., coefficient of expansion - 6 I'ABSMCTI.- The structure of 1~nthanm van investigated 1~ vamples (containing 0-7 snd 0.2% impirities) by x-ray., microstructural and differential-thenol analyses. Under ordinary conditions lanthanum consisto of the alpha- and beta-modifications 1 -with the alpha-form pre4ominating. Lattice parametera of these modifications at - La 3-755 0 00 c a 12.be4ft ,a- la a 5*291 0:00 Differential the=&I analpis curvea of I& (and of Is with quartz to date=4 the Card  11-Acammoo 'NR-. '''Ap4o36962 effects of impurities) vere constructed (fig. 1.). The transition frcei alpha to beta lanthanum occurs at about.26w.(with the top limit at 4=; above that only traces of alpha are retained); the transition from beta to gm-a is at 85W., wA melting is at 900C* The endo- and exothermic effects at 400, 560 and 745C were rXV explained. The anmal us contraction at 3250 is associated vith a shar p decrease in the beta-lattice spacing. An insignificant decrease In the.parameter of the alph-lanthanum lattice along the c axis van observed at 2W-330C rThe coefficient of lineal expansion of beta-lanthanum at 300-33W is approximately 1-400 x 3.01 degrees- . At temperatures above 55W_ lines appear on the Ia x-ray Vhich do not correspond to 'either of tne knova modifications or their oxides. The number of these lines Increases vith increase in temperature. This is in accord with the presence.of the "allding" effect at 550-710C on the In, thermogram.' After cooling., the molten metal recovers its original structure. At 850C beta- lanthanum, is enantiotropically transformed to gamma-lanthanum. Or1g. art. has: -4 figures end 4 tables. ASSOMMON: Institat obahchey i neorganicbeekoy khI-i4 Im, We S. nwa".9' Akademil, nauk MR (MuUtute of Genena and Inorganic Chadstq/Acadmw of. Y   INCLoDSM i. 01'. w, ACCESSION NRt AP4036A .i0i. curves: Fig. 10 DrA (beatJM9) a--lantAUWM; b--mixtUZW of;, lantbmun vith (3-5 Vt* U; Qu" 41 fir 4A 7 Wnw*f Cord4i4  ACC1;SS10J M AP4036966 S/0078/641009/005/lit8/1161 AUTHOR& Yeliseyov, A* As; Babitsy*nal he A*; Nedvedeva, Zo So TITLEi X-:ay diffraction ntnzlysis of the boron-arsenLe system SOURCEt Zhuru4l neerganicheskoy khimiL, v. 9. no. So 1964, 1158-1162 TOPIC TAGS: boron arsenic system, boron arsenide synthesis, boron 'arsenic phase diagram, boron arsenide property, boron, arscni:, boron arsenide ABSTRACT: Boron arsenide powders,'Containing 2.5, 5, 10, 20, 38 450 50l 53.5, 55, 600 750 90, and 97.5 at% As,wk-re synthatized fromi powdered amorphous 99.7083% pure boron and crystalline 99.9986% pure arsenic. The obtained boron arsenide powdqrs were annealed at 600C for 950 hr and slowly cooled to room temperature, or annealed at 800 or 1000C for 250 hr- and quenched in ice-cold water* The x-ray diffraction patterne'showed the existence of only, iCard 1/3  ACCESSION NRi AP4036966 two chemical compounds In the.system: boron arsenide Of"thd',.BAs .Composition and a lower boron arsenide whose composition, 83.9 at%B and 14.1 at% As. rnd density, p -3.5320*03 g/cM3 are very close to those of BGAs compound (P - 3.58 g/CM3) .Tito l'ines of DbAs fit equally welL irto an orthorhombic lattice with pAramotera a2 - 9.6896 kXP bo - 4.334ZkX, and co - 3.0628 kXpor a rhombohedral latt ce with parametm ao - 6.125 kX and co- 11.8679 kX. The solubility of B and As was found to be negligible in both compounds. The coefficient of linear I expansion of BAs in the 20-500C range was found to be 7010-6/dog Ce Orig. art. hast 1 figure and 6-tables. ASSOCIATIONs Institut obahchey I noorganicheakoy khimii i-m. N. Ss Kurnakova Akadomii nauk SSSR (Institute of Ganoral and Inorganic Chemistry, Academy of Sciences SSSR) SUBMITTEDt Wu163- DATE ACQ: 05Jun64 ENCLt 01 SUB COM MM NO REP SOVt 006 OiMt 005 :Card 2/3.  e ec L fix - - rol e low. see Atu :mod J9 '/a Jo !OF PLg. 1. Phase diagram of the D-As system -1 BCAs; 2 BrAs + As; 3 BAs + As. C&A  Acassiox NR: AP4036969 S/0078/64/009/005/1174/ 118 1 AVMOR: Wzhnaya, X. PS; S]Avnovao G. K.; Medvedevaj Z, S.; Yeliseyev,, A. At TITLE: The In-As-Se system SOURCE: Zhurnal neorganicheskoy khimii., v. 9, no*. 5* 1964, 3174-1181 TOPIC TAGS: indium arsenic selenium system, IrAs As sub 2 Be sub 3 system, thermal analysis., x ray analysis, microstructural, analysisp InAs sub 3 Be sub 3. thermogram.. solid solution) InAs~ phase diagrara., liquidua surface diagram of the-' ABSTRACT.; The nature reactions of the components of the ternary system In-As-Se along the InAs-Ar.2Se -sectiou was studied by thermal., x-ray and micro- structural analyses. The prekously unlmown teniary compound XnAs3Se p melting congruently at 800C (fig. 1) was found. Thermograms, for InAs, InAs -10, 500 vnd 70 =1% As-2Be and M2~e3 are given. Hicrostructural photographs and x-ray, duta for 'chese c&~~oitiona are shown. There was indicated the existence of a relativUy small area of.solid solutions based on InAs which contained up to about; 10 molo% I.Az2Se An orienting diagram of the liquidus surface of the ternary system In-Asl was constructed from the authors' and literature data (fig. 2).   ACCESSION NR: AP403690 ENCLOSME: 01 935 -700- 1 75 600- 1 1~~ 500- 1 J00 - ago ;00 !,70 1 to Z'q ja vp 50 JO 7a JO SO ASSf, Fig. 1. Phase diagr= of the InAs-As2Se.3 section (according to beating curves, annealed alloys) Card 3/4 F   I /ESD(t) JD, % -- . I f, MI L u A 1: 54 t r pr ope rc, the  ap um Pr deddyu!~Ium~ -len.."lum 67"tems. a A t 6 n- t is dMCA Via- urementz c-n Flect-,J-~cAj ind infrered absorption rac a ccndvct~, VIty n most r,!' lie iG~OL- i-a- r FL 1u -te-Ilui-ides-is---n.!~-ty-p!e,-,and in t -M -Se- -2) the therm,' vvr. all Jn: -the- yetals o LiTe2.' abd ~-Xd - Se. iiere iroi -dly 6-~y St ii ltn"~j OV -- ch einic'al-t rane-, .2 . . - - 0-- - lt-.-.i~ . ~ . anj , - - ..11 ~ 1. ~11-., h ry 5 t 6 ictria'al,'dalm are V-ted'icitloW, it graph g-17v--e, n -1 ne-an d-- niiu~ Sle-~t~-ymtal e' r a r -ha or polydrystal i T -Oz- ig. t 8: Z7~  AtCES'S'ION UR AP4044642 -r-r!zqnf,he9koy khtimil lm~ U~ i~ e i ~U- - '5al P.,TD FRF-SS 3131 ENCL: 00 F- ~P7----Va  r.~%-p r-7 mi-~ zT-vr~ jT-F Tr FT_7.7-~~_7r f V.,l A zi 10 1 M16A UT jT~j no ml T v JY D 4 Ail-I s I r  F-S np MOUW eb x doms-cafied UL V, G, Kuzn(!tsov, Ye. S. Vigileva, A- U,-shchi kova, arid f~4 Q'7 In-ed-by- D out--3600 C" --Us doerm 0 ovending. 6to '-- I am ;~4 2.00!, on- P tho 1-1 us et f. -A 91L ea (is, in at 1-aS _V(~tj C f, LU  b3i M n&;:~;_~n:~-'iwiiAmti,*Ar +iblllli~1144~W,~; 4 TATArVp~,~. 'AA.~At t r-t-: tiv zin -- r-the--tell iur6- tlich- portion-ou the a, e a c-ph"f,41agr 1 0 lur MEOW I'412Te5 at 85J" C and Nd2Tes Jnto Nd'l*e-, at 910* C. DItOluride (NdTe;.) is more thermany Otalble than Told nTe. or 1,,Tdlc-.. since It ra-elts Inconl-urucintly r;-nele crvatala of NdTen of nri.3matic or tivramidnl and nrictilar :Z  7 i,us.af-zepup, -FhE- polymorphisrn of -1~11-u-Hrles ani formatinn ri' vrla'li~ composition phases uvere  -Ile ~!;Y:' 50 co-no-", n--As tv UU 11 1- WrL n I c rl m 1 R Card 5/5  UP/03G3/65/0()1/"uzfv-,--- TITLL: STnthesis O'~ T)C. wo MIZA RIA Card I I ON-  q tjr.~tjt",ue of Cener-al and in-origanic Chemintr-v, Ac-aa--,, --F Card 2/1  Ar /,Zw-l v + 1,7"-1 in semi, tom, c i ing From en conta n 1"MM" z U;; fan- Th-ca dif f-om-ntia-l-tlR,-i,-lal -rnc :7 of Ma  11 ASSOC IATION., --Ins titt 7, -neorriniii-a-&E Anadelvruf nf FN r,irr  SAO. 65i eS6bRCE:'AM__EWR*' T'ZMtlya. -WeorggvAfchcskiyemaWrinjy,V'-, no 5, MG5, G,92.~97 A - -TOM tAdS- lant-h-Anum tellurfda.~~-do crystal 9trmwrff.7__,uv diff'rni-ii, ABSTRACT: The mrti"e reportann an x-ray atructural amdyefs of Ir,,T(3, sirii-tc. Ins, Ir ORMI MIFEW  L,5869a-45. Vfff.---aov ak P-w-rum-mirf tfw- Lftmol- ur"~ raw thA- am-UO7 um ,olff.r, OW -2/2  IE~~~._; YARL,KWSHj Ye.l.; KVZNETSOV, V.G.; AIVCNMIA~ L.T.; STOYAWSEVAJ Z*P. X-ray diffraction examination of lanthanum tellurideZ. AN SSSR. Neorgimat. 1 rio.7:10,217-1033 R 65- (1411"A 18:9) 1. InstitUL obshchey i neorganicheskoy khImIl. Iment Atli SSSR.  ---------------- VR AP5004594 G / _0 -1-IL-- A Telfipyev, A, t r o- t he tafir, L p9p4 di been prepated -d:t" d? f anq,?4q4te red Ln preparing pecfect s trigle 1 0 blimation- Tkd~-rowc t ton - va a-co ndu cted -in-- va c-,u-uow an element Ons pe-C-if i ei-&rwo _P"L_Q_d ic sys tem The effects of n r ;,-I r nmnc3unud vlt~ boron,L the tem- a n !i  hiahar AT, the number of nucleation lites increaqed sharply. p r e - 01 g .A C 5 e re j r I f i1 p~ a L  'i ACC NR, AP6029811 "03 /"~-idt2iO-O-8-/-l-36-71-1-3-7-0,- AUTHOR: Yeliseyev, A. A.; Yarembash, Ye. I. ORG: Institute of General and InoE&anic-Chemis= im. N. S. Kurnakov, Academy of ISciences SSSR (Institut obschey i neorganicheskoy khimii Akademii nauk SSSR) I'l I - t7 TITLE: Study of single crystals of the rere earth Polyselenide elements in the cerium subgroup of the general formula MSe2_X SOURCE: AN SSSR. Izvestiya. Neorganicheskiye materialyp v. 2, no. 8, 1966, 1367-1370 ~ IPIC TAGS: single crystal, rare earth element, sq.19nide, selenium compound, cerium, ray spectroscopy ABSTRACT: The structura of single crystals of 14Sez_x polyselenideaq whers M- is La, Ce, Pr, Nd, and Sm, was investigated by x-ray technique. The dimensions of the single cryltals varied " few hundredths of a millimeter to 1.5 mm. The x-ray diagrams were takdn using RKOP%nd KrOR-44camer Dwith Cu- and Mo-irradiation sources. All single crystals st0e?were fo~n 'to bel g to the tetragonal syngony, D4. class, and two groups-. with ala -;!~j2 (for compounds of general formula MS62_x at x < 0.2) and ola 1 (for compounds with general formula M4Se7 Or M7Sej2-Mez _X at x > 0.3). The Me2 _X UDC: 546.651231:546.55 Card 1/2  L 06581-67 ACC NRa AP6029811 with P4/nmm syusttry and two formula units in an elementary cell was found to be iso- structural with MT62-tYPe compounds of the rare earth metals of the cerium subgroup. Origb art. has: 1 figure, 2 tables. SUB CPDE: 20/ SUBM DATEi OlNov65/ ORIG REFs 007/ OTH FIEF: 006 Card 2/2  L 06483-67 lip EW1, im &fiP(t)/ET1 '/JG WC-C _NRs -AP60218, SOURCE CODES W0_363_[W6oi1d661VqVi1d�~d AUTHOR2 Yarembash.. Ye, I.; Yeliseyev, A. A.; Kaliting V, Ie; Antonovaq Le Is ORGt General Inorganic lnstitute'W and Chemistry im. N. S. Kurnakov, Acadorq of Sciences, SSSR (Institut obshchey I noorganichoi-koy khimii Akademii nauk SSSR) TITLEt X-ray diffraction o.,AdXq-,isof prasoodymium selenides IL .1~ ' 4 7 SOURCEs AN SSSR. Izvastiya, bellorganicheskiyo matorialyp v. 2p no, 6. 1966p 984-990 TOPIC TAGS I prasoodymium compoundp so2onide , x V0.1 %~kj ~y ABSTRACTt The object of the work was to study the phase composition, crystal strue- turo, and regions of homogeneity of the products obtained from a direct reaction be- tween prasood~nnium and selenium. X-ray diffraction analysis of the prasoodymium sele- nidos obtained showod the existence of the following individual phasest PrSoy Prr5069 Pl~_e04s Pr4S07,bv PrSol 5,,tand Pr~507+ . The phases Pr5506, PrO07t Alid Pr3ge7:t,, 0 in t e Pr-So system were I If d or do first time. Pr3o 50 at. ~VSO ha3 a faie-centered cubic NaCl-type lattice, a n 5.941 1. Pr 5S06 (54-5 at. % So) crystal- liVs in a low-symmetricall probably monoclinic systom;u, Pr ISol, (whore 0 = x = 0-33) haq a body-contered cubic lattice with a Th 3pj~-typa St tJ;:f its region of homogeno- ity extends from 57.2 to 60.0 at. % So; a = 8.881 A for Pr S04 and a = 8.895 A for Pr2501, X-ray structural analyses of Pr4SO7 and PrSel.9 s ngle crystals were carried out for the first time, and their unit coll parameters and space groups were deter- Card OCS _546_._6.%'23!_;.539_-g61_  L C6463-67 mined. The (CupSb)-type structure is ssible for PrSo Pr So t (0 = x 0.2) 4 7- la = 5 0 1.006; Z 4 2; has a totrAgonal lattice and a = 8,44 0.03 A) a = 6.4140.0 space group P4./ mbm; the structure ii apparently closo to that of PrSej The region of homogeneity extends from 63,0 to 64.2 at. % Ea PrSo crys*tffizes in the tetragonal system with a = 4.17 t 0-005 At a = 8,40 1 0-005'A?_7o-/& = 2.014; Z - 2;j space group F4 / ram; region of homogoneity from 65.5 to 64.3 at % so Pr So (0 = X - 065) has a tetragonal lattice ,rith an unknown structure; regi;n oPhoZ~oono- ity from 69.2 to 71 .5 at. % So. Praseodymium triselonide PrS was not observed. Authors thank Dr. of ChomioAl Saiences Prof, 11# P, LU naya M Dr. of Chemical Sci- ences V. G. Kuznoteov for their steady interest and assistances Orig. art. hass i figure and 2 tab2es. SUB CODES 07/ sm DATEs 22Nov65/ ORIG REFS 013/ OM MWI 009 Card 2/2 014~,  ACC N~' A116032946 SMW, CE, CODE.: AU T1 i 0 R: Muchenko, K. A. Luzhnaya, .11. P. ; Yarciil)w;h, Ye. 1. Yeliseye"r, A. A. f ORG: rnstitute of Ceneral and Inorgnnic Chemistry in. N. S, Kurnakov Acadc'-'q Or i j i Sciences SSSR.(Inutitut obshchey i neorganicheskay khimii Akademit naule SSSR) TITLE: Phase diagram and phase properties of the Nd-Te system SOURM A-1 SSSR. Izvestiya. Neorganicheskiye miterialy, v. 2, no. 10, 1966, 1747-1756 ' cl TOPIC-TAGS: neodymium compound, telluride, semiconductor single crystal, pol rystal,' single crystal structure, pha5e diagram ABSTRACT: The phase composition and physical properties of Nd-Te alloys have been atudied over the entire range of compositions. The stated purpose of the study was to refine the previously established phase diagram of the Nd-Te System [Ye. I. Yarembash, A. A. Yeliseyev, K. A. Zinchenko, Zh. neorgan. materialy, v. 1, no. 1, 1965, 60 and N. Kh. Abrikosov, V. Sh. Zargaryan. Zh. neorgan. materialy, v. 1, no. 9. 1965, 14G21 and to determine the phase-composition dependence of electrophysical properties of the polycrystalline Alloys and of certain single crystals. The complete, phase diagram of the Nd-Te System, which was plotted on the basis of new ex?erlmentaI data, was basically similar to that previously established by the authors. The existence of seven individual phases, isostructural with the corresponding La phases, Cord 1/2 UDC: 541.123.2  ACC NR, AP6032946 was confiirmcd. New crystallochemical x-ray data were determined for Ndje and NdTc- phases. A polymorphic transition was detected by x-ray in the 11,412TC3 samples in contrast with the M Te 3 compounds of the ceria. group elements which precede Nd in the: Periodic Table. Meiting points of certian phases differ significantly with Che earlier Soviet daza. Flectrical resistivity of the phases in the Nd-Te Systen. con- tinjously increased with an increase in thc Te content of the samples. Semiconductor property and n-type conductivity were confirmed in all neodynium tellurides. Carrier concentration varied from 1021 cm-3 for NdTe to 1018.cm-3 for NdTe 3' A defective lattice in ',,22"e3 and Nd4Te7 was confirmed by the resistivity, thermal conductivity, and most of all, by the coefficient of thermal emf data. Single crystals of Nd3-Le4, Nd4Te7, NdTe2, and NdTe3 were grown to obtain purified samplej.for determining semi- conductor characteristics. OrIg. art. has: 4 figures and 5 tables. SUB CODE.//40/ SUBM DATE. 09Dec65/ ORIG REF; 007/ OTH REF; 005/ rd 2/2  ACC IN& Ap5O22.248 SOURCE CODES UR/0363/65/001/007/102711038 AUMOR: YeIiseXev,,.A-r_A.; Yarembash, Ye. I.; KMnetsov, V. Go; Al".tOnOV4. Lo I.; StoyantsjVZ-'Z. F. ORGs Institute of General and Inorganic Chemistry Im. No So 1WrnakovAcadeiwj of Sciences SSS,R (Ins t skoy khlmii Akadem-H -nauk SSSR) TITLE: X ray phase analysis of',lathanum tellurides SOURCE: AN SSSR. Izvestlya.~ Noorganichoskiye materialyt v. f, no. 7, 1965, 1027-1038 TOPIC TAGS: rare earth element# lathanum compoundy tellurideo phase diagramp crystal chemistry, crystal-lattice parameter ABSTRACT., Crystallophemical properties of lanthanum tellurides have been studied by x-ray phase analysis and differential thermal analysis of the polycrystalline sample3 which were synthesized by a technique previously described by the authors ff-h. noorgan khimil, 9, 876,(19649* The complete phase diagram of the La-Te System was established for the first time on the basis of the now data. Romo- gonelty limits of the six identified phases were dotermined-O jOne of the six phases# La2Te5# was detected for the first time. 7he phase proviou identified as La4Te7 was found to be LATOI,7+Xo Crystallographic characteristicAof all phases were given. The exidtence R the 7+X and MjTo5 phases,, where H Is a rare earth element from Ce to So. was presume on the grounds of cryttallochemical amlogy .,Card 1/2 UM 546o6541241048.19  -2TA--- .A-CC-?JR-. AP-0-22 between the raro-earth tellurides of other types, Orls, arto has$ tables &M 5 Vaurese ,SUB COM 07 SM DAM ORIC RUI 006 Orm UIPI Oll Ccwd 2Z2  SOURCE COM ACC M AP7001419 UR/0413/66/000/021/01 INVENTORt Yelioeyov, A. At ORGi none TITLLt A device for measuring the radial heat influx in the atmosphere. Class 42, No. 188074 SOURCE: Izobreteniya, proo7ohlennyya obraztsy, tovarnyye znaki, no# 21, 1966, 133 TOPIO TAGS: atmospherep heat absorption, radiative heating, radiation measurement, sodium compoundl chlorine compound I(LkftcS~~mer4a T""Q!~jo~n ABSTRACT: This Author Certificate presents a device for measuring the radial heat influx in the atmosphere. The device contains a radiation receiver and an apparatus for measuring the temperature difference between the sensitive element ani the ambient air. To allow for the selective nature of the atmospheric absorption of long wave radiationep the sensitive element is made of a material, such as rock saltp which absorbs practically no radiation with a wavelength below 12 mk but which completely absorbs radiation with a wavelength in the range of 12-40 Wt. SUB. CODE 041 BOX DATE, 24Aug64. Card UDC: 5510508.25  !ACC NRi AP700 21408 AUTHOR: Yeliseyev, A. A.; Kuznetsov, V. G.; Yarembash, Ye. I.; Vigileva, Ye. S,; 1Antonova, Z:Ln_cT_enk-6, K. A. ORG: Institute of General and Inorganic Chemistry im. N. S. Kurnakov, Academy of Sciences,SSSR (Institut obshchey i neorganicheskoy khimii Akademii nauk SSSR) TITLE: New phase in the system of tellurides of the rare earth metals of ceria subgroup SOURCE: AN SSSR. Izvestiya. Neorganichaskiye materialy, v. 2, no. 12, 1966, TOPIC TAG -S: compound semiconductor, rare earth metals telluride, single crystal growing, f5i~B~ crystal structure, crystal electric conductivity ABSTRACT: The existence of the M4Te7'x phase within the homogeneity limits between 61 and 64 at%.Te was confirmed by chemical, x-ray spectrochemical, and x-ray phase analysis of poly- and single-crystalline M,,Te 71 where M - La, Pr, or Nd. Previously, the M4Te7,x phase was detected by different SovAet authors but was absent in the La-Te and La-Nd phase diagrams which were published in the 1965 Western studies. The M4Te7 single crystals, 1 x 1 x 1 mm maximum size, were grown from polycrystalline~ YA.Te by the r-hemical transport reaction with iodine at a 950-BOOG temperature gradient. Simultaneously, the MTe2 single crystals were formed. The -shape of the Card 1-54-162.2  ACC NR: AP7002408 La.Te7 and LaTe2 single crystals was identical, while that of the Nd4Te7 and N'dTe2 was different. Lattice sy=etry type and constants, spice symmetry group, number of molecules in the unit cell, and x-ray density were determined and tabulated for* LatIT471 PrLTa7, and Nd4T07. Lattice constants of Ce4Tc7 were extrapolated from .their plats versus ionic radii of the M3+ ions. La Te7 was found to crystallize in a tetragonal not rhombic system, which was previously assigned to La4Te7 by the authors. The lattice constants of La TC7 were found to be as follows: a - b - 9.01ltO.005 1, c - 9.172�0.00~ 1. The most likely space symmetry group of La.Te7 was the centric P4/mbm group. Other M4Te7tx tellurides of'the caria subgroup crystallize in the same system and have the same space symmetry group as La4Te" Structural similarity and differences were noted between M4Te7 and Kre2. Electrical conductivity and thermal emf of the M4Te7 phase was of the semiconductor type. The existence of the Z44Te7 (or M7Tej2) phase was presumed for Cc and Sm be!~,ause of the crystallochamical analogy between tellurides of the ceria subgroup. Origs art# has: 3 tables and 2 figures. - SUI~'CODE: 07/ SUBM DATE: 24Feb66/ ORIG REP: 008/ OTH REP: 004/ 2/2  YELISEfEV, A.A. Early experimental studies on electrostatics in Russia. Int. i motod. eat. nauk no-3t2O6-213 165- MHA 18112)  Simplifying the calculation of the liqueur and vodka productio-. Spirt.prom. 26 no.2:35 16o. (MIRA 13:6) (Liquor induBtry)  TILIBZMI All. Simplifying the permit oyvtom at alcohol, and liqueur and Yo4ka plante. Spirt. prom. 25 no-7:30-31 159. (MIRA 13:2) (Liquor industry)  MOKHOROV, Stepan Ivenovich, doktor ekonom.nauk; MISSM, A.1.0 red,; BRTJLIKOVSUTA, R.G., tekhn.red. (Machinery induatryl Xashinoetroonia. Gorlkii, Gorikovskoe kn12hnoo !zd-vo, 1959, 38 p. (MIRA 13:3) (Machinery industry)  ~ "P BON,~Glv, A.Yfl., T, Consolldat~t,d norms for m6neuverIng opzratit-M,-~. Zrlhijl~ di,-r. t-n!nn, 417 no.1i'ii-73 Ja 165. OcRA ~~8 Nachall-ilk c*,dela tskhnl~~heskogo nnr,.%~t'rovan~ya truda, 2arabotnoy pialy i takhnik. be-,,opaeriostl YAirlivt5r--.a c;,L~tv ~~oobahcheniya (for Dontsov~~. 2. Sta--ah,Jy inzh. .ct tla ekogo ncrml-rovaniya truda iJpravleniya trudn-, zarabotnoy pla"j- t,~khniki bosopasnost-l Mln~ster3l,',ta putey lic~bBI;,AAcirlyi-x (f~r  AUTHOR: YeliseyeY, A. I. SOV/20-121-2-39/53 TiTLE: The Carboniferous Stratigraphy of the Southern Part of the Chernyshey Ridge (Stratigrafiya karbona yuzhnoy chasti gryady ChernysheTa) PERIODICAL: Doklady Akademii nauk SSSR, 1958, Vol. 121, Nr 2, PP. 339 342 (USSR) ABSTRACT: The carboniferous sediments of the abOTe mentioned ridge are little inrestigated and are described only roughly (Refs 1-4)- The author invqstigated these deposits in detail and tried their detailed classification (this work was super-rised by A. A. Chernoy, Komi-Branch,AS USSRI D. M. Rauzer-Chernouso-ra and Ye. A. Reytlinger were consultantal the fauna was de- termined by Z. P. Mikhayloya /foraminifers/ together with the two last mentioned scientists, as well as by 0. A. Lipina and A..V. Durkinal the brachiopodes were determined by N. V. Kalashnikoy y partly by V. N. Kre8toynikoy, Ye. A. Ivanova and T. G. SarycheTa; the corals by To A. Dobrolyuboya; the bryozoans by I. P. Morozoya). The elaborated stratigraphic scheme differs somehow from the standardized scheme with Card 1/3 respect to the direction of the DeTonian-Carboniferous boundary.  SOV/20-121-2-39/53 The Carboniferous Stratigraphy of the Southern Part of the Chernyahey Ridge The Namurian stage is not separated. All three carboniferous sections: the Lower Carboniferous (550 - 1100 m), Middle Carboniferous (150 - 220 m) and Upper Carboniferous (110 - 20 mm) are marked. They are,as a wholes represented by carbonate facles, the character of which in the meridional direction rc_-nins maintained over great distances, which changes, however, in the longitudinal direction. Based on this fact the author divided all cross sections into 2 main typeo: a.-The western (syninskiy) and b.- the eastern (Yangyrskiy). In the Lower Carboniferous the Tournaisian stage is subdivided into 2 sub- stages, -the second of which is again subdivided into 2 horizons. Three substages, belong to the Visean, the first of which has 2, the second and the third have 3 horizons. In the Middle Carboniferous 2 stages, 3 substages and 7 horizons are separated. The Upper Carboniferous is divided Into 2 stageso There are 1 figure and 10 references, 10 of which are Soviet. ASSOCIATION: Kom! filial Akademii nauk SSSR (Komi Branch AS USSR) Card 2/3  SOV/20-121-2-39/53 The Carboniferous Stratigraphy of the Southern Part of the Chernyshey Ridge PRESENTED: March 29, 1958, by N. S. Shatakiyj Member, Academy of Sciences, USSR SUBMITTED: March 2, 1958 Card 3/3  3 (5) 'AUTHOR: Yeliseyev, A. I. SOV/20-126-2-35/64 TITLE: On the Problem of the Origin of Limestone Breccias of the Carboniferous of the Chernyshev Ridge (K voproau o proiskhozhdonii izvestnyakovykh brokchiy karbona. gryady Chernysheva) PERIODICAL: Doklady Akademii nauk SSSR, 1959, Vol 126, Nr 2, PP 351-354 (USSR) ABSTRACT: In the carboniferous sediments of the western slope of the Urals there emerge interesting formationst limestone breccias. They also a pear in the Pechora Urals and in other regions (Ref 19192T A clear theory regarding the ago and origin of these breccias has, however, been hitherto lacking. There were 3 hypotheses offered: a. the subaqueous landslide hypothesis (Refs 2, 3), b. the tectonic (Ref 4), and c. the Karst hypothesis (V. A. Yevetrakhin). Neither the cement nor the slivers of these breccias allow them to be distinguished at first glance from the rocks in'which they are contained. From the cited description of the brecoias in question, it is obvious that neither hypothesis- a. nor a. can explain their Card 1/2 character. The analysis of the facts shows quite clearly, that  On the Problem of the Origin of Limestone Breooiae SOY,/20-126-2-35/64 of the Carboniferouz of the Chernyshev Ridge the carboniferous breccias of the Chernyshev Ridge are sedimentary in origin. According to publication3 the carboniferous brecciae are also in other regions of the Pechora Urals sedimentary in origin. Certainlyp the concrete process of sedimentation of the breocias may have been somehow different of that described here. The breccias of every single district must be studied as they yield important data 6n the geological history of the waters. These breccias are confined to teotonioally restless areas of the sea bottom and to waters with considerable oscillatory movement. There are 8 references, 7 of which are Soviet. ASSOCIATION: Komi filial Akademii nauk SSSR (Komi Branch of the Academy of Sciences, USSR) PRESENTEDs January 30, 1959, by N. M. Strakhov, Academician SUBMITTED: November 28, 1958 Card 2/2 T  GOLOVASTIKOV, Aleksandr Hikbaylovich; YELISMV, A.I., red.; 7AKHAROV, K.A., tekha.red. ----- -- (Oka Valley (Vyksa-]Culebaki) industrial region; study of the economic geography] Priokskii (Vykaunsko-Kulebakskii) Industri- allnyi raion; ekonomiko-geografichookii ocherk. Gorikii, Gor'- kovskoe knizhrLoe izd-vo, 1960. 143 p. (HIRA 14:1) (Gorkiy Province-Sconomio geography) P  YELISZM, A..,.I..- Siliceous, formations in Carboniferous carbonate rocks in the Chernyshev Ridge. Dokl. AN SUR 134 no.3:670-673 S 160. I ... (MIRA 13:9) 1. Institut geologii Komi filials, Akademii nauk 8WR. Predstavleno akad. N.M. Strakhov7m. (Chernyshev Ridge--Silica)  -MUZ91-A-1- Boundary of the Lower and Middle Carboniferous in the Chernyshey Ridge. Trudy Inst.geol.Komi fil. AN SSSR noi3:51-54 162. (min 16:9) (Chernysher Ridge-Geology, Stratigraphic)  YELISEY~EV ~1, IUIMYLOVA Z.P* Recent data on the upper Carboniferous of the Chernyshev Ridge. Dok.I.AN SSSR 245 no.3:631-631+ 11 162. (14MA 15:7) 1, Institut geologii Komi filiala AN SSSR. Predstalveno akademikom A.L.Yanshinym. (Chernyshev Ridge--Geology, Stratigraphic)  YELISSYEV, A. I a Disserti-tion defended in Geological Institlite for the academic de7ree of Candidate of Geolopo-Yineralopical Sciencest "Stratigraphy and Litholo". of Coal-Bearing Deposits of the Chernyshev Ridge." Vestnik Akad Ilauk No. h, 1963, rP. 119-1)s5  J~L.ISEXEVj_A~eksendr Ivenovich CHEMOV, A.A., doktor gool.-min. nauk., prof.'[deceasedi,, oty. red.; KIRIKOVA, G.L., red. izd-va; ZENDELI, M.Ye., tekhn. red. [Stratigraphy and lithology of Carboniferous sodimenta in the CherrWahev Range] Stratigrafiia i litologiia kAmenno- ugoltnykh otlozhenii griady Chernysheva. 14oskva,, lzd-vo AN SSSR~ 1963. 171 p. (MIRA 17:3)  i_.r cz '15 170-  YELISEYEVp A. F. G. N. Favlov. Osnavy anatomil i fiziologii sel'skokhozyaystvennykh zhivotnykh (Principles of Anatome and Physiology of Farm Animals). Moscow-Leningrad. Sellkhozgiz. 1950. 56 pages with Illustrations. Also in the Latvian language. U-5235