YEGOROV, L.B.; ZHURAVLEVI G.V.; IGHATENKO) A.Ye.; LI SyUN-44IN; FZTgOMj M.G.; r_HULT.U4, Do agnetism of ~L-mesonic atoms. Zhur. investigating the param ..2091-399 F 161. (MIRA 14:7) okep. i toore fiz. 1*0 no 1. -Ob"yedinennyY institut yadernykh iseledovaniyo (mesons)  IGNATENKOP A.Ye.j KUMOV, A-'-; ~UpAVLEV, G.V. p jiGOROV, I Sna_,,O; MTRASHKU, M.G* weak interaction in the Irqestigating the spin dependence O'f 41 n6.3:684- + p -*), n 4-Y . Zhur.ekspqj, teor,fiz- (Km 14210) process 691 s 161. 3nyy institut dernykh isoledovanLY- v" 1, Ob"yedinei (Mesons) (Nuclear reactions) (protons)  S/056/62/043/003/022/063 B102/B104 AUTHORS: Yegorov, L.'B., Ignatenko, A. Ye.f KuptBovt A. V., ras u, TITLE: Search for it decay anomalies in paramagnetic metals PERIODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fiziki, v- 43, no. 3(9), 1962, 873-876 TEXT: The observation of nontrivial effects in jx decays caused in mesic atoms by unpaired electrons would be of freat use for inveBtigating the magAetic properties of atoms and of hydrides of transition metals. The authors measured the relative L, decay probabilities at differ6nt numbers of unpaired electrons in mesic atoms of the systems Pd-H and Ti-H. Under id6ntical erperimental conditions the following yield ratios were obtained: Y (TIHI.,) / Y (Ti) = 1,00 � 0,02, Y (PdH,.O) / Y (PdHo.,) = 1.02 � 0,02, Y (PdHo.#) / Y (Pd) = 0,99 � 0,02, Y (PdH,.q) / Y (PdHo,,) = 1.01 � 0,02. Card 1  gearch ~for ~Z" decay anomalies... 5/05 62/043/003/022/06'3 B102YB104 The equality of the results stre 'ngthens the supposition that no effects caused by unpaired electrons are responsible for the incroase of the )k-- decay probability in mesic atoms of transition metals of the iron group (Phys. Rev., 113, 661, 1959; 119, 365, 1960). It indicates also a shift of the X-ray fre uency emitted in the 2p-1s transitions of the mesic atoms of these metals ?C. Scott et al. Chicago, Preprint EMS-61-69). There is I figure. ASSOCIATION:' Ob"yedinennyy institut yadernykh issledovaniy (Joint Institute of Nuclear Research) SUBLUT,TED: April 23, 1962 Figure[ Block diagram of.apparatus. Legends 1-5 Scintillation counterst 6 - target, 7 - magnetizing coil, 8 - cop'per filter, 9 - aluminum filter, 10 - anticoincidence circuit, 11 - coincidence circuit, 12, 13 - am5lifiers, 14, 15 - shaper, 16 - delay line (0. Vitsec), 17-delay (;,, 1. 1 Vsec 18 - triEger, f9, 20 - transmission, 21, 22 _"'discrimijiators,.23.y 24, 25 - counting devices. Card 2/6  YEGCROV; L.B.; IGNMNXO, A.Ye.; KUPTSOV, A.V.; FETRASHKU, M.G. Artomaly in A:-Pxkeson decay in mewic atoms of transition metals of the iron poup. Zhu~. eksp. i teor. fiz. 43 no.4:1149-2.153 0 162. (MIRA 15:11) 1. Ob"yedinennyy institut yedernykh iaBledovaniy. (Mesons-Decay) (Transition metals) (Iron group)  YEGOROV L.B..; IGNATRNKO, A.Ye.; KUPISOV, A.V.; PETRASHKU, X.G. Search for anomalies of meson decay in paramagnetic metals. - MRA 15:10) Zhur. eksp. i teor. fiz 43 no.3:873-876 162. 1. Obuyedinennyy institut yadernykh isaledovaniy. (Meson&--Decay) . (Paramagnetism) Sw --I- ~-  ------- -- - -- U122 $/056/62/043/004/005/06! B102/BldO AUTHORS t 'fgZgrnv,_,k. J3. Ighatenko,. A. Ye. , I~uptsov; A. V. , Petrashku, 14. G. TITLE: Tbe nnomaly prablont in tbe/A. mooon ifecay in mesic Iatomr. of trannition metals of the iron group PERIODICALt Zhurnal eksperiment6llnoy i teoreticheskoy fiziki, V. 43, no- 400), 1962, 1149 - 1153 TE,AT: U s i n (f, scintillation counters with a 128-channol puloo-height ana- lyvQr, the ratio betwoen the decay probability of mesons in mesic atoms and of free 1A iiiesons -Was measured. for mesic Fe, r'n' Ni and Cu to verify p4blished experimental results and predictions. The Fe nnd Zn tarEets were in the form of oandlwichc:3 con-cistinc, of ten 15-15 c~2 plaico, s6parat- ea by Al sheets 0.7 mm thick. The Ni nnd Cu targets viere 15-15 cm2 plates, 5e',/cn2 thick. From the time distributions of the jA decay electrons, 5~1. zti n i/Z'i was determined, rihere n i is the number of pulses'in time t For Fc+A1 6 0-40510-009 oc and for Zn+Al,-3 - 0.463+o.ooe /11~i ec.' Then 'eard 1/3-  6/056/62/043/004/005/061 The' anomaly problow 3102/iiijo wi th, S (Fe + AI) = njS (Fe) + n.S (AI), S (Zn + AI) - nI S (Zn). + n; S (AI). and (5 I(Fe)*= 0,201�0,004. S (Zn) 0, 161�0,004, (M) 0,707Z6,'O*- 6 i Av,(Fe) LIL2A(Fe) k1k2l n, X(zn) (6) - vins calculated. is thwp decay probabili ty ratio, k 1,2 nre correction factors. Ap (re) Ap Zi~ 6,T41 Ap (M) Ap (Cu) 0,98�0.05. ... as obtained; '.7it -hin the error limits the' values tire equal - which indicfttcs the absence of anomalies such as were obtserved e. g. in Phys. Rev *Lett. 1, 102, 1958; Phys. Rev. 113, 6061, 1959; PhYs. Rev-'117, 1560, lc'60~ and that the inetrument effect mentioned by Huff (ANIN. Physics, 16, 266, 1961) and Chilton (?hys. Rev. Lett. 7, 31, 1961) cannot be the cause of the anomalies observed by those writers. There are 4 figures. Card 2/3  3/056j62/043/004/005/061 The anomalv, problem 131021BIBO ASSOCIAT'fG,ts Ob"yodinonnyy inatitut,yndernykh isaledovaniy (Joint-Inatitut of Nuclenr Itcaearch) 8U81MITTED April 23, 1962' C'nrd 3/3  t 1 .1 12GOROV) L.B. IGNATEM, A.E., KUPTGOV) AN, PETRASUKU, M. < ------- "Search for Anomalies in Mu-Wson Decay in Yesonic Atoms of the FE Group TTansition Yetals" report presented at the Intl. Conference on High Energy Physics, Geneva, 4-il July 1962 Joint Institute for Nuclear Research Laboratoryoof Nuclear Problems  'UOM . L. IGNASMI, A. 1. and EDMOV, A. V. _PTO Inyestigation of )k Meson Capture by Protons from the States of Byperflne Structure in Woonic Atom of Phosphorus. report present*& at the Intl, Conference on Nigh Inergy Physics, Geneva., 4_11. July 1962. Joint Insto Nuclear Research,, Iab of Nuclear Problem : '~ ;! , ~" -~:'~ - . , ~ -7 _77  I JEGOROV3 Ijj4-IGIIATENKO, A.Ye.j- KUPTSOV, A.V.; PETRASHKU, M.G.; SARMSEVA, V.R.., tekhn. red. [Search for anomalies inAf,---meson decay in paramagnetic metals] Poiski anamalii pri, raspade 4J,7-rezonov v paran:agnitnykh metallakh. Dubna, Obnedinennyi in-t iadernykh isal., 1962. 5 P. (MIRA 15:6) (Mesona-Decay) (Magnetic materials)  YEGOROV; L.B.; IGNATENKO, A.Ye.; KUPTSOV, A.V.; PETRASHhU, M.G.; A) V.R., tekhn. red. [Anomaly in A,'~-meson decay in mesic atoms of transition metals of the iron group] K voprosu ob anoiralii pri raspade /J~L--mezonov v mezoatomakh perekhodriykh metallov gruppy zhe- leza. Dubna, Ob"edinennyi in-t iadernykh issledovanii, 1962. 9 p. (MIRA 15:6) (1-lesons-Decay) (Transition metals) (Iron group)  ," YEGOROV, L.G., inzh. - . Lxp rove the ore.2nization of mawmilling. Rech. transp. 17 no. 6:36- 37 Jo '58. (MMA 11-7) (Sawmills)  YEGOROV,L.I. Organize socialist competition for continued growth of labor productivity and higher quality in highway maintenance work. Avt.dor-17 n0-3:4-5 N-D'54. (KLRA.8:10) 1. Predstnvitall Tat profsoyuza rabochikh nvtomobillnogo tran sports. i shosseynkh dorog. (Roads--Maintenance and repair)  YEGOROV,.Ieonti.r.lvanovich, SHMSOVI I.B., redaktor; D4ITRIISVA# P-V-, [Drivern who maiie improvements in the automobile transportation system] Shofery-novatory avtomobillnogo transport&. Moskva, Izd-vo OZnanie," 1955, 21 Pe (Vaeas ob-vo po rasproatrananiiu polite i nauchn. xnanii, sere 4# nos 40). NWA 8:3) 1. Predsedatell Tel profsoyusa rabochikh avtomobillnogo trans- porta i shosseynykh dorog (for Yegorov). (Automobile drivers)(Transportation, Automotive (Road))  YXGOROV, L.I. .1 - Thermal conditions of light Sierozems of the northwestern Part of the Golodnaya Steppe. Trudy' Pochv. inst. 29:181-194 148. (Goloduaya Steppe-Sieroxem solle) (KM 10:8) (Soil temperature)  I YEGOROV, L. 1. Water pbrmeability of soils and parent materials of the north- western part of the Golodnaya Steppe. T~ru4 Pochv. inst. 29: 195-200 148. (MLRA 10:8) (Golodnaya Steppe--Soil moisture)  TJSSR/Soil Science - Diysical and Chemical 11roperties of Soils. J. Abs Jour : Hof Zhur - Biol., No 15, 1958, 67894 Author : Yegorov, L.I. Inst Title Aqueous-1-bysical Properties of Several Soils and Subsoils of the Part of the Shirvan Steppe Near the Kura River. Orig Pub i~ochvovcdeniye, 1957, Ito 2) 90-104. Abstract The aqueous-physical properties of soils were studied in two rc(;Lons of the Shirvan steppe (AzerbSSR), tile coastal n1luvial-dolta plain and the Kura alluvial plain. In the former there are meadow, litfit-Lp-ey oolonoto and solonchak soils as well no solonchako with ground water at n OopLh of 2-8 motors. These soils are formed on layered deposits with a heavy nechanical composition and consist fron to 901% of particles of physical clay. The madow soils are fresh to a depth of 12-15 cm., and below that salination reaches 2.03%- On the areas under cultivation the salts Card 1/3 14 .0o,  USSR/Soil Science - Illysical and ChmJcal rTopcrties of Soils. J. Abs Jour Ref Zhur - Biol., No 15, 1958, 678,04 have been washed out to a depth of lvl.5 meters, The vo- lumetric weight of these Soils was 164-1.40 uarcis/=3., and in compressed horizons 1.45-1.48 grams/cO. Soil po- rosity varies from 48-52~p' and in corrpresued horizons talls to 44-450. The outside field misture capacity (FI4C) is 28-29% in the meadow soil. In cultivated soils the cort- pact horizons under the tilled stratum have an FM as high as 45%. These soils can be washed by usinf; a collec- tor-drainage network not at a minimum depth of 3 rietorn. To improve the physical properties of those soils It Is necessary to plant acclimatizing grass for 2-3 years , to q,pply mineral and organic fertilizers, as well as aps-LL3.. and plcni it deeply at reGular intervals. On the Kura I'lain the nost comon soils are: meadow soils on a laye- red argillaceous base, imadow soils transforminC; into steppe soils, and dark meadow (chalInyye) soils in the' aepressions. The soils are saline; the dark meadow soils Card 2/3  USSR/Soil Science - Physical and Chemical Properties of Soils. J. Abs Jour Ref Zhur - Biol., Ho 15, 1958, 67894 have more huraus in their profile, a heavier mechanical compisition, and heightened filtering ability. Calcula- tion of optimal irrir,,ation norns for these soils must be based upon the half-reserves of productive moisture in tlicm when moisture corresponds to the FMC. -- S.A. Ilikitin Card 3/3 - 15 -  .-YEGOROY, L. I., Cand Agr Sci -- (dies) "Wator-physical properties of the ~i~incipal soils at and grounds of the Shirvan Steppe~of the 44 Kure,-Arake-~In connection with their irrigation.* Hoe, 1958. so; 1 15 pp (Acad Sci USSR* 1=6 Inst im V. V. Dolcuchayev), 150 copies (KL, 15-58, 1170  YEGOROV, L.1.~ PUSTOVOYTOV, N.D. "Moisture conditions of deep Chernozems in the Central Rusmfiam Upland" by A.F.Bollshakov. Pochvovedenie no.5:134-135 My '62. (MIRA 15:6) (Central black earth region-Soil moiuture) (Bollshakov, A,F.)  BOROVSKIKII, Yu.I.; MAYZENBERG, Yu.I.; YEGOROV, L.K. Investigating voltage drops in the starter circuit of a motor ve- hicle. Avt.prom. 27 no.12:22-24 D '61. (MIRA 15:1) 1. Nauchno-issledovatel'skiy eksperimentallnyy institut avtotrak- tornogo elektrooborudovaniya i priborov. (Motor vehicles--Starting devices)  lyi~~2 ~9w-,- ~kand.yurid.nauk Legal regulation of pilotage in the U.S.S.R. Inform.sbor. TSNIIMF no.34:53-W 158. 041RA 14:3) (Pilots and pilotage)  WUM YEGOROV, L.M.,Aand. yuridicheskikh nauk Errors in navigation and management unde- foreign law. Inform. abor. TSNIIMF no.110 Mor. pravo Iprak. no.23sl7-23 163. (MM 18:9)  YEGOROVv L.Mop_kandoyuridenauk; RYU14INAl L.A,, From the practice of the-Maritive Arbitration Commission. Inform. sbor.TSNIIW no,.34:?2--158.. . (141RA 14:3) (Arbitration and a ward) (Freight and freightage--Claims)  -0-4 w 0*010000040,0100 0 00 0 00 a ~Vi6l 0 k tl 1111i fit 11111,01143% 11 0 " JA a )s 0 a it a It 0 u m a As If is it a 41 41 if 41 al$!* a It r 4 Ar a it V a CC 0 it .4-4 f a It j I P 0 1 1-1 fit 1" $4. -vok, 00 Investigation of the Induc fill* Pot lod th tht fitot fk~11111'1 (11 gol"- , . FGueov., Physik. Z. Svicitimmiam 1, kit 141t"t-'), "1' 4 14 11 #00 44 WAN_ ,4 vtmiltAtions %asstartcd to ckt. how the caurw td a reaction 1112Y IM' COM1111ted b)' C11,1134- Illit tile induction 1wriod. Tile inductioli period varies iisvrmly %ith tile tellip. arld re.,fillro. pse - Y/ r - Const. (wlwre P, T. r, if avid -I are. re,tt,. tile pre,mov. tcuip., !doction period and corritt.) Is the tinpitical relation expre4,ing thc%c rrs"ItA. -, i- ~ CtlarActrristic of tile typr Q( g&--& ill tile elpic"Ive Inixt, milli IndclN.1111rill Off the sin Of tilt! CMItAiftCf atilt I?lJtCtigl Of tilt w~sfls. as well as the jcrcrntAxC COMPfl. of the 94W0-11% move, 00 luilt T varies jilverwly with the diam. of th- Container, T111% VJUAtioll is WV116CAI with tital throtrilrally sh-rind Ily Kovallikii (I)rmtlill% Atmtraf!O. so -00 so u see 4 '40 4:2 -!fALLU As.-IL& WGCAL LITERAtM CLASIMPKAYMM Idnama -1 V It It It it It It M Kill A I Of 7 All a 3 of, **U :05 140, ;4 7W a 000 0 0 0 0 6 qt~q 000 IS  0*0 0 0 *of 00 0 0 0 0 0 Oct ID W 0 W I f 4 1111tiNfIN III "AjPnjj# n 1, X 0 i At )1 31 U R h 30 11 a 1* 41 A I IL L J_X. ? " Y I A 1. -1 0 4; M u4t I 1 4 4 1 1 A 1,9"t"t-s - ..,. 'I- '#".I #1 41 o a A - ~'f 4 1 1110 1-0 Ale ! I/ b,N, Y in 6tillfittion of &G mow Of hod" of 4ASOM ftixturfe. 1. Indscoon 4) P -1 IV. I & R ) 3 61-74(1(W): d. C. A. 23, WN: 23~ T.Wi. 0 M ii6 I MO. 24.14456 I.-C114 and 0 m n the ratio 1:2 were exploded by admitting * v 0 h *-M t e ga% into a quarts tube heated to72 . The Induction perkwis ofespkolon were nteguaired its relation to the total presauto and to the temp. The induction pr6A 00 decrmwi with Increaft Of temp. of Inertate of pressure. U. 71to r*jW of Memo- i l f h .00 t on w t metWWO-oMen adstures. M.ll,NituxAxvAwDA.I.8aaxiNov, Aid kP 00 754Q.-The Ctfr-O mixt. 2 was found to explode on Introduction Into tubes heated * ': -0 to (M"79 only within 3 different pressure regions. Outside of thew premare limiti. 4K0 no explosion takes place. A complete biblioemphy ii given. The equation P~sf r =00 const was used. F. If. RArHKAxx .3 e %alp i boo i .90 I %a I'll aCtALLURGICAL LITIRATWE Ct&IIWKATIC* 4 tool L 1 0.1 Q.( .1113 ~r G" 13- It, I ir Gi .3 is a U R iv 00 �LAV A -I X 3 0 !OW it IV n, ft X a it V K It tt It at NO A I 0 0 0 0 0 * 0 0 0 0 0 0 0 01 0 0 0 6 0 a 0 0 0 0 o 6 0  YEGOROV, A-mhaped rig with a 200-ton-loM capacitY. 10ft-khOz- 34 no.10: 15-16 0 '56. (XLRA 9:11) (Oil well drilling--Xquipment and supplies)  YEGOROV, L.N.; GOLOVKO, V.N. Hoisting A-sbaped derricks. Neft. khoz. 39 no.9:12-18 S '61. (YIRA 15:1) (Cranes, derricks, etc.)  YEGOROV, Lo He - Device for making the derrick man8a work easier in the drilling of deep wells. Mash, i. neft. obor. no.2:31-33 163. (MIRA 17:8) 1. Gosudarstvvenny7 nauchno-issledovateltakiy i proyekt"Iyy inatitut neftyanogo mashinostroyeniya.  YEGOROVp LoN. New derricks for deep drilling. Mash. i neft. obor. no.9:3-6 163. (MIRA 17:2) 1. Gosudaretvannyy nauchno-isaledovatellskiy i proyektnyy institut neftyanago mashinostroyeniya.  IVANOV, Vitaliy Fedorovich; TICGOROV, L.P., rodaktor; OZIMIN, G.M., tekhatcheskiy [Accounting and technical record keeping in cartographic and geodetic work] Uchet i tekhnicheakaia otchetnost? kart~jrafo- gnodazicheakogo proizvodstva. Hoskva. izd-vo goodezichaskoi 'it-1-i, 1955. 119 p. [Microfilm) (14LRA 8-9) . (Accounting) (surveying)  RO 6-1-16/16 AUTHOR: None Given TITLEs Chronicles (Khronika) PERIODICALt Geodeziya i Kartografiya, 1956, Nr 1, pp. 79 - 00 (USSR) ABSTRACTt A conference of the directors of the cartographical printing- -offices and of the scientific divisions for map-composition took place in the Central Office for Geodesy and Cartography th at the Ministq of the Interior of the USSR from December 16 to December 20 h , 1957. This conference was devoted to the problems concerning the state of the cartgraphical printing- -offices GUGK and to the measures required to fulfil the plan for 1958- The representatives of the military-topographi- cal office, the TsN1IGA i K and the MIIGA i K attended this conference. The conference was opened by the director of the GUGK (Central Office fo4Geodesy and Cartography), A. ff. Bara- nov. Lectures were hold bys 1) The head of the division GUGK - G. V. Artamonov oni "On the performance of the plan by the Card 1/2 cartographic printing-offices GUGK within 11 months of the 7  Chronicles 6-1-16116 year 1957. 2) A. B. Kazakov, Engineer-in-chief of the plan- ning-diviBion GUGK "On the project of the plan for 1958". 3) The chief of the division for work and wages GUGK L. P. Y-110n standardizing and tariffs for cartgraphical ,tapro I Y works". 4) P. H. Novozhilova, Engineer-in-chief of the di- vision GUGK "On Measures for improving the organization of poduction in the cartographical, factories and in the NRK- Cbast' GUGK"- 5) S. I. Shurov, editor of the division GUGK: "On the editorial- and composition works". The military-histo- rical maps of the third volume of the sea-atlas are already printed in the printing-offic of Minsk. The maps for the great Soviet encyclopedia are already completed. There comprise 2500 maps altogether. The lay-out of the building of the print- ing-office in Novosibirsk was changed. The printing-offices in Omsk and Tbilissi (Tiflis) worked unrhythmically. The car- tographic industry has no scientific research station. The young experts are insufficiently promoted. AVAILABLEt Library of Congress Card 2/2  YEGOROY, L.1?.._red.; SHAMROVA, T.A. , red.izd-va; ROKANOVA, V.7., ~,--A-'te`k'h'n. red. (Job description manual for workers employed in geological prospecting, topographia-geodetic, and research departmental Tarifno-kvalifikatsionnyi spravochnik rabochikh; geologo- razvodochnye, topogrefo-goodezicheakie i izyakatellskie raboty. Koskva, Izd-vo geode%.Iit-ryg 1959v 49 p. (miRA 13:4) 1. Russia (1923- U.S.S.R.) Glavnoye upravleniye goodezii i kartografii. (Prospecting-Job descriptions)  ONUFRIYEV, Timofey Grigorlyevich, dots.; SHATNEV, Boris Nikolayevich, dots.; IVANIKO., Timofey Yakovlevich, inzh.; GEROLISKAYA, Lyudmila Sergeyevna, dots.; SARYCHEVA, Nina Petrama, dots.; KC-5117AYEV, Sergey Petrovich, inzh.[deceased); YEGO L(ff,",dots., retsenzent; ZA'YCHEIROYI.R.Idots.,retsenzent; ffALYIIITSKIY,V.A.,inzh.,retsenzent; CilEitKASIIIN,N.A.,inzh.,reteenzent; DYIIER,1.1.,inzh.,retsOnzent; PAUL, V.P.,inzh.,red.; IIEKLEPAYEVA, Z.A.,inzh.,red.; MEDVEDEVA, I.I.A., tekhn. red. (Buildings in railroad transportation] Zdaniia na zheleznodorozh- nom transporte. tloskva, Transzholdorizdat, 1962. 408 P. (MIRA 15:6) (Railroads--Buildings and structures)  YEGOROV~ L.P. Shook workers nf communist labor in the polygraphic enterprises of the Main Admiristration for Geodesy and Cartography. Good i kart. no.1023-8 0 164. WRA 1891)  YEGOROV, L.P. Preliminary results of the transfer of worlers of the topographc- geodetic and cartographic service to the shortened workday and new wage conditions. Geod. i kart. no.7:5-9 JI 161, (MIRA 14:7) (Surveying) (Cartography) (wages)  YXMROV, L.S.; STRINA, N.P. First find of carbonatite bodies in sedimentar7 carbonate rocks. Inform. biul. NIIGA no-Z:31-34 158. (MI;U 12: 10) (Maymacha VA1197--Carbonates (Geoloa))  ANIKMVA, L,I.;,_YEGORO,V. L.S.; SMIRNOV, L.P.; TSYVIYAN, L.K. Preliminary reBults of the field work of the Yla~mechp- Eyp-editicn, 1959. Inform,biul.11110A no.16:42-45 159. (!-~RAI 15-:31) (*Aymocha Valley-Goology)  YEGOROV. L.S.;GOLIDBURT, T.L.;SHIKHORINA, K.M. Form and mechanism of the formation of the Gulya intrusion. Trudy NIIGA 107:3-12 '59 (MIRA 13:3) (Kotuy Valley--Geology, Structural) (Maymecha Valley-Geology, Structural)  -YEGOROV, L.S. Type of carbonate deposits and their association with ultrabasic- alkali rocks. Izv.AH SSSR.Ser.geol. 25 no.1:108-111 A '60. (MIRA 13:8) (Rocks, Carbonate)  YEGOROV, L.S. ------- :.- Nepbelinization and iron-magnesian-calciuo Metauonatism ix. intrusions of alkali and ultrabasic rocks. Trudy NIIGA 114:102- 118 160. OAIRA 13: 11) (Siberian Platform--Petrology)  Y!~O~qv_,',L,.S.; SURINA, N.P. Carbonatites in the Changit intrusion region of the northern Siberian Platform. Trudy NIIGA no.125.'160-178 161. _(KRA 16:7) (Maymecha, Valley--Carbonatite) (Kotuy Valley-Carbonatite)  .YEGOROV) L. S, Origin of carbonatites. Izv.AH SSSR. Ser.geol. 29 no. 1: 63-74 ja 164. (MIRA 17-5) 1. Nauchno-isgledovateltakiy institut gdologii Arktiki, Leningrad. -  YEGOROV, L.S. Mechanism of the formation of carbonatites. Trudy Len. ob-va est. 74 no. 1:23-26 163. (MIRA 17:9)  YMOROV) L.S. 1-1 -- Origin of phogonitc-olivinc ard rock:i related tG then in concdex 21 k, alkali-ultrabasic massifs. Geol. rud. mestorozh. 6 '1o-4:33-44 Jl- Ag 16/,. 0-mlu 17: 10) 1. Ilauelmo-issledovatellskiy institut geologil Arktiki, Laainggrad.  i YICGOROY~ _) t, _ _J.,teekhovoy vrach, 'dhen the figureq are disclosed. Okhr. truda i sots. otrakh. no.3:48-52 S '58. (MIRA 12:1) l.Sobinakays pryadillno-tkats1myu fabrikEL "Kommunisticheakiy avan- ard." Pobinka (Vladimir Province--Textile workers--Diseases and hygiene) ?  It YEGOROV, M. - I Crane operator Tereshchanko is on duty. Kor.flot 17 no.11:26-27 N 157. (KIRA 10:12) l.Starshi7 tekhnolog Zhdanovskogo porta Chernomorskogo parokhodetva. (Tereshchanko Vasilii Ivaeovich) (longmhoremen~  YEGOROV M. Tranushipping large;..diameter pipes in thn Zhdanov Harbor. Yor. flot,20 no-1:27-28 Ja 160. (MIRA 13:5) 1. Starshiy tekhuolog Zhdanovskogo porta. (Zhdanov--Cargo hanhing)  o WC, * /,,'/ DZMIYANKO, M.; YHGOROV, M. New duplicating method of accounting for goods and materials with the aid of billing machines. Bukhg.uchet 14 no.7:48-53 JI '57. (91RA 10:7) 1. Nachallnik mashinoschetnoy stantaii Gosudaretvennogo universal'- nogo magazina, Moskva (for Demlyanko). (Retail trade--Accounting) (Machine accounting)  USSRAadio - Recorders, Magnetic May. 50 "Magnetic Tape Recorders, " M. ',-'egorov,. 2 pp "Radio" No 5 Describes tvo semiportable magnetic tape re- corders, MZ-1 and MEZ-2 (in serial produc-, ti:on) and statiohary recorder, NDS-1, for stenography, developed'at experimental plant of Committee for Radio Info, Council of Min- isters. MEZ-1 operates on dynamic microphone. 4=-2 records and reproduces voice~or music; t4ape length 1,000 meters (time-22 min). NDS-1 can be remotely controlled by operator 20 IMN& 15nlOO USSR/Radio Recorders Magnetic, May 50. (Contd) meters from cabinet. Operates on microphone, radio (1.5-5 v output)y automatic or central telephone lines. Portable MEZ-3 in design stage. 'i1w 159T100  USSR/R~~djo - Rccordors, Magruatic Nov 51 "New Sov let Magnetic Recorders," M. Yegorov "Radio'- No 11, pp 61, 62 Description of the MEZ-6 stationary hilgh-quality magnetic recorder and the MDS-2 magnetic recorder (for recording telephone conversations, reports, dispatchers, orders, etc.), both produced by the FxPt1 Plant of the Committee for Radio Information' Council of Ministers USSR. The lst unit was de- signed by V. G. Kdrol,kov, M. V. Tsukasov, Ye. G. Yefimov, and V. 1. Pereverzev and the 2d by V. L. !MSR/Radio - Re*corders, Magnetic (Contd) Nov 51 Braginskiy and M. 1. Demidova. The 3 electric motors used in the MEZ-6 were developed by the All-Union Sci Res Inst of Sound Recording (D. P. Vasilevskiy and V. R. Rybin). 208P76  NRs AP6014736 SOURCIE, COM'. UR/0229/65/000/011/0003/00-0 AUTHOR: Yegorov , M. (Deputy liTinister) ORG: Ministry of shipbuilding indtistry of SSSR (l.rinisterstvo sudosYr-FaMe-Pnoy promyshlennosty s-oyuza--- T TITLE: Aspirations of Soviet shipbuilding industry SOURCE: Sudostroyeniye, no. 11, 1965, 3-6 TOPIC TAGS: shipbuilding angineeringp marine engineering ABSTRACT: A general review of progress made by the Soviet shipbuilding industry'in the postwar period is Presented and plans for the future are discussed. Modern tankers of "Sofiya" series are cited as an example. They can transport five times more oil at a speed of 17 knots than old 10000-ton, 12-knot tankers constructed at the end of the war. The series construction of 16-ton, 18-knot steam turbine ships of "Leninskiy Komsomol" type was completed in 1964. Diesel ships of "Bezhizall type designed for transportation of dry-goods are also built in series. Large ships were built for fisheries such as trawlers of 11~..`ayakovskyll refrigerator type, fish cannery ships of "Andrey ZakharoN series or big whale ships "Sovetskaya Ukrainall and "Sovetskaya Rossiyi Card 1/2  'Phe building of railway ferry-boats for crossing, Caspian Sea is also mentioned, as well as the construction of hydrofoil boats "Raketall, 111,'eteorll, Sputnik", "Cheyka", "Belorus' 11 , "Burevestnik" and "Strela". Th, icebreaker "Lenin" is cited as the first merchant marine craft in the world using nuclear propulsion. At present, many new series of 7000, 12000 and 16000 ton dry-goods cargo ships and of 15000,20000, 50000 ton oil tankers are in the state of research and development as well as special craft designed for the fishing industry. In connection with newdevelopments a systematic research is carried out in order to im- prove the performance of engines and various equipment. Special atten- tion is given to the development of automatic equipment and to the use of new synthetic and plastic materials. Computing machines are used fo calculations and new methods of ~roduotion are introduced in shipyards. Further studies and application of hydroplanes and hydrofoildl s stress ed. A more distant goal is the application of nuefe-ar energy to the ship propulsion. It is anticipated that in the future nuclear energy will be widely used for propulsion of large seagoing ships. SUB CODE: 13/ SMM DATE: None d  IMODSKIY, H.S.; YUG ROV starahly elaktromakhanik Cable-finder arTlifier. Avtom., telem, i Sviaz' 3 no.4:44-45 Ap '59. (MIR& 12:5) I.Zameatitell nachallnika Leningrad-BaltiVskoy distantsil signalizatoit i avyazi Oktyabrlakoy dorogi (for f)rodukiy). kTrnnnIstor hmpliflors) (Slootrie cables)  MARINCHENKO, P.) inzhenen-polkovnik; VIGANT, V., inzhener-podpolkovnik; YEGOROV, M, G. podpolkovnik teldmicheskoy aluzyby; KOGHKIW, P. .9 -IMIYe-ner-mayor Mechaniving the cleaning of revervoira and oil tankern. Tyl i. smtb. Sov. Voor. 311 ?1 fio.~:92-94 S 161. (MIRA 14:12) . (Tank *easels---Cleaning)  ROZHKOVI Igor' Vladimirovich; MARINCHENKO, Petr Kharitonovich; Georglyevich,- CHMHUXOV., Taygenly w 'kd9dibT6V*,` 7't "V.- Inzh. -polkovnik zapasa., Sergeyevichj red.; SOKOLOVA, G.F., tekhn. red. (Protection from corrosion and the cleaning of tanks and containers In fuel storehouses) Zashchita ot korrozii I zachistka rezervuaroy I tar7 na skladakh I bazakh goriu- chego. Moskva, Voenizdat, 1963. 117 p. (MIRA 16:6) (Petroleum products--Storage) (Corrosion and anticorrosives)  AKSENOV, Ya.V.; YEGOROV, M.G.; KOCHKIN, P.I. ~,~ - -:~, Newly designed steam heaters for trinks. Mash. i neft. obor. no.7:11- 12 163. (MIRA 171l)  YZ7- 6 6 "e~ AUTHOR: Yegorov, M.A. 133-1-24/24 TITLE: Conference on the Co-ordination of Scientific-Research Works in the Iron and Steel Industry for 1958 (Soveshchaniye po koordinatsii nauchno-issledovatellskikh rabot na 1958 g. v chernoy metallurgii) PERIODICAL: Stall, 1958, No.1, pp. 94 - 95 (USSR). ABSTRACT: The conference took place in the Central Scientific Research Institute of the Iron and Steel Industry in Moscow on October 21 - 261 1957. 200 representatives of works, scientific-research organisations, design institutes, universities and other organisations participated in the conference. The most important scientific-research tasks were explained by Academician I.P. Bardin. The conference was divided into 4 sections. The section on ore preparation and pig iron produ- ction chose the following problems, work on which should begin in 1958: Ore beneficiation. Production of ore concentrates containing above 60016 of iron and less than 8-1(r/o silica on the operating ore beneficiation factories YuGOK Olenogorsk ind KMA; the development and choice of rationai schemes for beneficiation of brown ironstones from Lisakovskoy and ores from Orsko- Cardl/8 Khalilovskiy deposits and oxidised iron quartzites from Krivoy  133-1-24/24 Conference on the Co-ordination of Scientific-Research Works in the Iron and Steel Industry for 1958. Rog. The design of high output economical aggregates for magnetising roasting of iron ores. The development of the technology of production of rich concentrates for smelting ferro-manganese from ores of III and IV quality and slurries from Chiaturd- and Nikopol' 7orks; from carbonate ores from Folunochnoye and Usinskoye deposits and from oxidised ores of the Atasuyskaya-roup of deposits. Complex automation of benef iciation works. Agglomeration of Ores. The production of high-quality fluxed sinters of a basi-cliTy' not lower than 1.2. Intensification of sint ering of fluxed fine concentrates on the YuGOK and KMAruda sinter plants. The development of the technology of pelletising of fine iron concentrates and the design and construction of experimental equipment. The development of a rational method of calcining limestone and its feeding to sinter strands. Blast Furnaces. Smelting of basic and foundry iron using oxygen-enriche2l blast. Operation of blast furnaces on assorted burden. Blowing into blast furnaces of natural and coke oven gas. Work on automation of the blast furnace process. Design and scientific research work on the development of charging (;ard2/gpparatus, suitable for hightop pressure operation.  13~-1-24/24 Conference on the Co-ordination of Scientific-Research Works in the Iron and Steel Industry for 1958. Utilisation of Complex Iron Ores: The development of a rational technology of prodU-c-tir-oin of metal on OKbhff(. Work connected with a wide utilisation of Kerchl iron ores. Direct Production of Iron: An industrial tust of the production 71-sponge iron in rotaTy'-kilns. The steel-making and ferro-alloy section. Omen -hearth Production. Intensification of the pro,3ess by a wider application of oRygen, improvement in methods uf utilis- ation of oxygen and further improvement in the durability of furnaces. Improvement in the charge preparation by preliminary treatment of liquid pig, agglomeration of ore and lime,ete. Increase in the capacity of open-hearth furnaces and improvements in their design. The use of natural gas for firing open-hearth furnaces and improvements in their thermal efficiency. Complex automation of the open-hearth process. Converter Smelting. Further improvement on mastering of the oxygen-converter process for treatment of basic pig irons. Development of the technology of converter treatment of phos- phorus-containing pig iron with the application of oxygen. The Card3/8 use of bottom blowing with oxygen-steam and oxygen-carbon dioxide  133-1-24/24 Conference on the Co-ordination of Scientific-research Works in the Iron and Steel Industry for 1958. mixtures, etc. Automation of the smelting process. Improvement in the durability of lining. Development and improvement of methods of purification of waste gases from dust. Blectro-amelting. Intensification of the smelting process in electric arc aces. The use of electro-magnetic stirring of steel. Automation of the smelting process. Improvement of Ingot Quality and the Use of Vacuo. A decrease in the non-uniformity of ingots. Increase in the proportion of good mctal by decreasing head crops. The use of vacuo during smelting and teeming of steel. Increase in the throughput of ingot casting pits by using large ingots and top teeming. Continuous Castin~ of Steel. Improvement in the design of equipment and technology of continuous casting and mastering of this technique, on the Novo-Lipetskiy and Stalinskiy Works where the appropriate equipment is at present under construction. Automation of all stages of the process. Ferro-alloy Production. The production of ferro-chromium with a carbon content below 0.03%. The production of ferro- manganese and manganese from poor ores in order to widen the supply of raw materials and the formation of manganese metall- Card4Xgical works in the east of the USSR. Development of new  133-1-24/24 Conference on the Co-ordination of Scientific-research Works in the Iron and Steel Industry for 1958. methods of production of metallic chromium and rare metals for the production of heat-resistant and precision alloys. In the Field of Physico-chemical Investigations. Thermo- dynamic and kinetic studies of reactions p(rtinent to steel- making process. Preparation of design data on continuous pro- duction of steel. Rolling and Tube Rolling Section -recommended: Theoretical and experimental investigations of rolling including the estab- lishment of general lavis of continuous rolling, transverse- screwlike rolling and some problems of the theory of some new processes of rolling tub-es. The development of technological processes of rolling economical profiles (wide flange beams, thin-walled Drofiles, etc., in particular from low alloy steels), as well as pressing processes and mastering of production of cold bent profiles. The development of the technology of production of insoluble emulsions and lubricants for cold- rolling: development of the technology of production of polished sheets from stainless steel; improvement in the accuracy of rolling, etc. Development in the technology of production of tin sheets; continuous hot tinning of strip (up Card5/8 to 1 000 mm wide) with two and one side coating; rapid  Conference on the Co-ordinatioa of Scientific-research Works in the Iron and Steel Industry for 1958. electrolytic tinning; rapid processes of lacquer coating, and hot zinc coating. The development of the technolo of rolling very thin strip (2 - 5 10, thin-walled tubes (25 ItFand drawing of thin wire (20-30 11) from precision alloys. The development and mastering of rolling of some new types of tubes from alloy, high alloy steels and alloys on a non-iron base, thin-walled tubes, large-dimension tubes, soldered tubes, tubes with various coatin B. etc. DeveloDment of the new production methods for tubes Messing, centrifugal casting, semi-continuous casting of cast iron tubes, welding of tubes: argon atomic hydrogen, induction, high frequency, etc.). Development of some new types of rolling equipment for tubes - new continuous mills for hot and cold rolling and drawing of tubes. Automation of rolling mills including the complex automation of blooming mills and reversing plate mills, automation of continuous thin sheet and merchant hot rolling mills, automation of cold rolling mills and tube rolling mills. Development of more efficient heating furnaces, mastering of non-oxidising heating preparation of furnaces for heating with natural gas, development of preventive methods against the oxidation of metal and other problems. Card6/8  13-3-1-24/24 (jonforance on tho Co-ordination of Scientific-research Works in the Iron and Steel Indus-try for 1958. Metallography and Heat Treatment Section reconunended the investigation of the following problems: studies of crystall- isation and phase transformation processes. The development of the bases for the theory of strength and heat-resistance of steels and alloys. The development, industrial tosting and mastering of the technology of production of new types of low- alloy steels of increased strength, new structural and tool steels and alloys. The development of the technology of pro- duction of some new types of electro-technical steels (trans- former and dynamo) and precision alloys. The development, industrial testing and mastering of the technology of production of some new types of stainless and acid-resistant steels (with a lower nickel content). The development and introduction into industrial practice of progressive methods of thermal treatment (including thermal treatment of rails, wheels, sheets, profile and quality metal from carbon and low-alloy steels. In the final plenary session, the deputy chairman of Gosplan SSSR, V.B. Khlebnikov, agreed with the choice of subjects, stressing the particular importance of some of the problems. A committee was chosen to draw a plan of scientific-research work based on Card?/Sthe above recommendations.  -Conference on the Co-ordination of Iron and Steel Industry for 1958. ASSOCIATION: TsNIIChM AVAILABLE: Library of Congress Card 8/8 133-1-24/24 Scientific-research Works in the  Yi.1,GC MV, 1% A... Prof., i , . ~ , - - I~ - I I... Carotid Canal - Cancer Surgical thera-py of cancer in the region of the carotid canal Khirurgiia no. 2, 1952. 2 9. Monthly List of Russian Accessions, Library of Congress, August -190. Unclassified.  YEGOROV, Prof. M. A. 14br., Lab. for the Problem of Organizers In the Animal Organism im.N. V. Rasonov ___M -1939-- "On the Factors of Artificial Osteogenesis,N Dok. AN. 24. No. 6, 1939;  USSR/Soil Science - Mineral Fertilizers. J, Abs Jour Ref Zhur - Biol., N,-D 15, 1958, 67955 Author Yegorov, MsA) Inst All-Union ordena Lenin 41ca0cmy of Agricultural Solaices imeni V.I. Lenin. Title : The Effect of Phosphate Fertilizer on Lined Turf-Iloftol Soila and on Turg-Podzol 13oila -which do Not Require Lining Orig Pub : Dokl. USIOiNIL, 1957, No 9, 37-39- Abstract : The effectiveness of phospIlato fertilizer was tested in Estonia from 1952-1956 in field experiments on acid soil (pH in KC1 extract 3.5, content of assimilable POO, by Kirsanov's method 3.7 rlr,./100 G. of soil after ifain-r,, and soil which did not require liming (pH 5.6 and P20 5 8.4 mg.), oil an NK base (in the corn variant 15 tolls of manure were added to the NK). The doses.--wcre 20 Card 1/2  USSSR/Soil Science - ?-Iineral Fertilizers. J. Abs JOur Ref Zhiw - Biol-, 1-1.0 15, 1958, 67955 kg./hectare of N and 60 kS./hectore of K20. Li the 60 kg./ hectare of P20 dose. Po was added mixed with acid peat or Manure in a 1:9 proportion. The liming was done on the basis of 1/3 of hydrolytic aciditys The experiments du- mnstrated that the effectiveness of PO on lined coil ac- pends upon what fertilizer accompanies it -- whether acid peat or Lmnure. The yields were almst the same in the PO and the P. variants. On ircakly acid soil when biolo(;i- cally active, weakly acia) lowland peat was applied toGe- ther with P0 , it increased the effectiveness of Po very considerably. The inercase in winter rye yield was 6 centnors per hectare, and the increase in hay harvest in subsequent grass cuttinC; was ~Dvcr 10 centners/hectare. -- A.M. Shchepetillnikava Card 2/2 - 44 -  IV. D, GALANTIONOV. LV.; YJGCROVO.-M.P.,~; GRINEVSKIT, I.A., irmhener. redaktor; KkTSEYEVSXkYg -1 T'e"'.k.',-"t'ekhnicheskiy redaktor (Uperience erecting contact system poles and maintenance buildings In railroad electrification] Opyt soorazhaniia opor kontaktnoi sati i takhnicheakikh zdanit. pri elaktrifikataii zheleznykh dorog. Moskva, Goa. transp. zhel.-dor. izd-vo, 1953. 112 p. (MLRA 7:10) (Railroads-Buildings and structures) (Railroads-Jlectrification)  j-E2ww*wkIW., inzh. BMW-- Characteristics of the design of machinery plants abroad. Opyt, zarub. stroi. no-03-30 162. (MIRA 16--7) Machinery industry) actories-Design and construction) 4  YEGOROV, M.D.. inzh. - Roofing rvofs, walls and flooro of Industrial buildingse C.Pyt zarub. stroi. no.8:3-30 t63. (MIU .161g) A  YEGOROV M P Cand.,Ped Sci -- (diss) practic4 work ;L I anginetring and technological aspezte vf-tk-m cotton,~-~~ and its role in the solution of i m0u--J, polytechnical Mos, 1955- 12 pp 21 cm. (Acad Fed Sci RSPSR. Sci Res Inst of Methods of Teaching) 100 copies. (KL, 22-57, 107). -38-  YFAOROV. M.P. -NON"10k, Industrial training in a cotton mill. Politekh.otuch. no.7:29-16 I J1 '57. (MIR.4 10:7) 1. Srednyaya ,3hkola go. 1 g.Shui lvnnovskoy oblneti. Crextile factorlea) (Technical education)  KOSHELYUK, Ye.G.,- ITEDUZHKO, N.Ya., dorozhnyy master (stantsiya ZAchepilovka, Sthlinskoy dorogi); YEGOHOV, M.I., dorozhnyy master (stantsiya Xakhovka, Stalins-Gco-7--&o-r~gtl; GUZYAA A.M., inzh.; KORMII, P.T., putevoy obIchodchik (Villnyus); GRISHANKOV, V.G., putevoy obkhodchik (Villnyup); KnsHUEvA, M.N., dezhurnaya po perevezdu (Vill nyus);"BAL&KIIII, B-'U.; - PASECIUTIK, A.I.; CHERDAITTSEV, A. Ye., dorozhny7 master (stantsiya Verkh-lie7vinak, Sverdlovskoy dorogi); STROCHKOV, A.A., inzh. Letters to t4e editor. Put' i pv;t.khoz. 4 no.2:4o-42 F l6o. (MIRA 13:5) 1. Mekhanik puteizmaritellnoy tele2hki, stantsiya Kovell, Llvovokoy dorogi (f,or Koshelyuk). 2. Zamestitell nachallnika distantaii puti, etantuiya Galich, Severnoy dorogi (for Balakin). 3~ Inzhener ilistantsii, stantsiya Sambor, Llvovskoy dorogi (for Pasechnik). (Railroads)  YICGOROV. M.L.; MEGRLYIV, I.I. r Tool stpr"s. Stan. i instr. 25 no.12:29-30 D 154. (PIRA 8:1) (Tools) -  YHGOROV, H.M.; KRASILIHIKOV. X.G.; SYSOYEV, Ye.A. Water wetting heats of various silica gels with reference to their degree of hydration. Dokl.AN SSSR 108 no.1:103-106 My '56. (MLHA 9:8) .1. Moskovskiy gosudarstvennyy universitat imeni X.Y. Lomonosova. Predstavleno akademikom M.M. Dubininym. (Silica) (Heat of wetting)  2001:0-3-~5/60 AUTHORSt Yegorq M. IL, Ye -orova, T. S. , Kiselev, V. F., _MsTPn!~_o_v,K_. G.0 .1. 1 TITLEs The Adsorption of Water Vapors on Silica Gels Hydrated to Varied Degrees (Ad3orbtsiya parov vody na silikagelyakh razlichmu stepeni gidratataii) PERIODICALt Doklady Akademii Nauk SSSH,1957,Vol_114,I?r 3,PP,579-582(USSR) ABSTRACTs As7is known, the adsorption of water vapors on silica Gels is characteristic by some specific properties. Some previously published scientific papers have investigated in detail the irreversible adsorption of water vapors which is connected with an additional hydration of the silica-gel surface in the process of adsorption. Other investigations reached the con- clusion that the isotherm of the adsorption of water vapors, depending on the degree of the dehydration of the silica-gel surface and of porous Classes, is transformed from a convex into a concave line, the latter corresponding to a hydro- phobic surface. There exist different divergences in computing the specific surfaces of silica gels from the isothermal lines. Card 1/4 None of the authors of the above-mentioned scientific papers  20--U4-3-33/60 The Adsorption of Water Vapors on Silica Gels Hydrated to Varied Degrees conducted the chemical analysis of the surfaces of the silica gels and of porous glasses. This task was now performed by the authors of the paper under review. Figure 11r 1 of the paper under review represents the isotherms of the water vapors on the initial silica gels and also the curves of distribution - as computed from the desorption branches - of the pore volume with respect to their effective diameter taking into account the thickness of the adsorbed film. Figure lir 2 contains the initial segments of the primary vapor adsorption on all samples of silica gels, computed for 1 m2 of the surface. It can be seen from figure Nr 2kthat the isotherms of the three initial samples, worked at 300 degrees centigrade, are placed in such a way that p/ps being the sam , the adsorption decreases with a decrease in the degree of hyd;ation of the surface, and this corresponding to the observed reduction in heat of the water moistening of the samesamples. The state attained at the watter adsorption at the thermally dehydrated-eurfaces are not equilibrated, as far as in this case the process of hydration of the surface can take place. However, in the mono- molecular range at small P/P this process is vvy slow. There- fore it is possible to consiaer the isotherms of the figure Ca.rd 2/4 Nr 2A of the silica gal samples K-2, annealed at high tempera-  j 20-114-3-35/60 The Adsorption of Water VQjors on Silica Gels Hydrated to Varied D,~6z jj tures, as eq~lvalept from the point of view of adsorption. For this pur-.po3e, however, one has to neglect the slight modification of the surface hydration during the process of establishing the adsorption equilibrium. If these isotherms are compared with the previous ones, it can be seen that, de- penaing on the surface hydration, they change their form and become concave. It is furthermore observed that in this con- text the capacity of adsorption of the silica gel decreases. Quite a number of assumptions - as found in relevant scienti- fic literature - on the mechanism of adsorption of vater va- pors on silica gel and on the hydration of its surface, are in contradiction to each other; these assumptions are based on adsorption data and also on the investigation of the infra- red spectra of the surface layer. In order to clarify these questions, additional research is necessary, namely study of adsorption linked with spectroscopic investigations. There are 2 figures, 1 table, and 20 references, 14 of which are Slavio. Card 3/4  2o-m-3-35/6o The Adsorption of Water Vapors on Silica Gels Hydrated to Varied Daertju ASSOCIATIONs Moscow State University imeni H. V. Lomonosov (liloskovskiy gosudarstvennyy universitet im. 11. V. Lomono3ova) PRESENTED: December 14, 1956, by M. hl. Dubinin, Member of the Academy SUBMITTED% December 10, 1956 Card 4/4  68031 2 *10 SOV1155-58-6-33136 AUTHORSs Lyubimov, Yu.A , Yegorov, 1.1sMe TITLE: Infrared Absorption ~_pectral_li__'~rfater Molecules Adsorbed on a Microporous Glass PERIODICALs Nauchnyye doklady vysshey shkoly; Fiziko-matematicheskiye nauki, 195891fr 6,pp 208-211 (USSR) ABSTRACT: A comparison of the papers Z-Hef 1 7 and Z-Ref 2-7 shows that the conceptions concerning the ads;rption of water molecules on microporous glass or silica gel are very different. In order to clear this quIstion the authors consider the ab- sorption spectra of water adsorbed on the surface of micro- porous glassi where simultaneously the adsorption isotherm is measured. These experiments lead among others to the follow- ing results t Before the adsorption of water vapor a soak?d glass shows a very intensive absorption band ~> I- 7340 cm- under increasing adsorption of water i> 1 becomes slowly smaller (to about 7300 cm-1), simdtaneously there arise the bands V 2 - 7240 am-' (corresponds to the adsorbed water) and Card 1/2  68031 31 Infrared Absorption Spectra of Water Molecules SO'1/155-~8-6-33/36 Adsorbed on a 1-i-croporous Glass 9 3 = 7130 am-i (corresponds to the capillary-condensed rater). From this it is concluded that the character of the surface is particularly heterogeneous. The irreversible character of the adsorption kirreversible hycteresis) is proved. There are 2 fiauresq and 5 Soviet references. ASSOCIATION: Moskovskiy gosudarstvennyy uriversitet imeni M.V. Lomonosova (Moscow State University imeni 11.V. Lomonosov) SUBMITTED: October 21, 1958 Card 2/2  AUTHORSt YMorovLU., YegorovbL,T.S-,Kiselev,V.F., SOV/55-58-1-27/33 Tfid Krasillnikov,K.C. TITLEt Influence of the Nature of the Silica Gel Surface on the Adsorption of the Methyl Alcohol Vapors (Vliyaniye prirody poverkh- noati silikagelya na adsorbtsiyu parov metilovogo spirta) PERIODICALt Vestnik Moskovskogo unive~sitetaf Seriya fiziko-matematicheskikh i yestestvennykh nauk, 1958 ~Nr 1, pp 203-2o7 (usn) 'A ABSTRAM The paper is written under the leading of Professor B.V.Illin and contains the results of a detailed measuring of methyl alcohol vapors which in the monomolecular range have been adsorbed at the surface of the silica gel. Before the -zxperiment, the surface of the silica gel was submitted to tho influence of saturated water vapor up to 48 hours. The results are collected in a table and two figures. There are 15 Soviet references. ASSOCIATIONiKafedra obahchey fiziki dlya khimicheakogo fakullteta (Chair of General Physics of the Department ~Pf Chemistry) SUBMITTEDs May 3, 1957 OPA-0 Card 1/1  5W A UT, ~ 011 S TITLE: Ye.,~,,orov, M. Kras f I I nillov, F. r, SW/76-32- 1 ev" The Influence of thc flature of Silica Gel and Quartz Surfaces on Adsorption Properties (Vliyaniye prirody poverkh, nooti silikajelya i kvartga nit ikh adsorlbtsionnyye svoystva) I. InveotiCationo of the Hydration of t'lic Silicon Dioii~le SLlr4',,.tCe (I. Ioaledov:..niyi~. gidra- t, t 3 4 i poVt,, 0 t i kremnozema) PERIODICAL: Zhurnal fiziches'A'oy khimii, 1950, Vol 32, Nr lo, pp 2448 - 2454 (USSR) ABSTRACT: Of late the presence of hydroxyl Groups on silicon dioxide surfaces was found in invest4~a tio:~s (Refs The present paper deals in detail with investi,.-ation2 of the degree of hydration in dependence on the nnnealin,~ in 7 different Si,02 samples. The silica Gel KM was carefully purified; silica jel K-2 was obtained by a distillation of SiCl according to a method mentioned (Ref 3), and after sloring under water it was termed q1lica gel K-3. "White root" and Ground quartz (sample Card 1/4 Bg'-l)' were used as non-porous sampleo. The determinations  The Influence of t*-.,e Nature of Silica Gel and Q:~~artz 3~--'V ---42- Surfaces on Adsorption Properties. I. Invecti-r-tiona of t~;e of the Silicon Dioxide Surface of the specific surfaces of the samples were carried out according to the BET method by meano of nitrq;en vrtpora. All silica .-o1 aample~i ujed belori; to the Lypo of coarsely porous adoorborto (Rof 16). DiziZra-lis of thie function of the water content verpus the annealing temperature of the silica Gels YSIC-1, KSK-2, K-2 a-d X-3 are given using data by Shapiro and Weiss(veys) (Ref 14) as well as by Bastick (Bastik)(Ref3 4,17). The standard temperature for troatin,3 the samples was chosen to be 3000. Tile resulLo show th~-,t the content- of the water of constitution as rclatc-d to the sirface unit is different for various silica Ut,13. In the ca3e where the samples were treated exactly tile same but a different specific surface wao present no rjurfaceo with the same deGree of hydr.tLion could' be olitainod, which proves the incorrectness of the d:,.ta -.ientioned in reference 21. On storinU the samples in water it was found that, the amount of water of constitution On tho Card 2/4 surface increased sharply. Howe-ier, tho-3o samples trc;ated  The Influence of the Nature of S-J-11ca Gel and Quartz SCV/7~-52- 1. ~-3131/z5 '3:irfaceB on Adsorption Properties. !; Investi6t%tiOris Of t-e Hydra~ion of the Silicon Dioxide Surface at 3000 after storing always had smaller amounts than those without any temperature treatment. The Process of dehydration and secondary hydration was irreversible under the conditions prosent. The de~;ren of h,,rdr"tion depends on the crystal chemical properties of the surface structure and is determined by the valence number of the surface atoms that are loosely bound. The surface hydration of all samples investigated treated under the same conditions was differe-,it and amounted to a maximum of 4,78gM/m2. A paper by Eiler (Iler) (Ref 4) is mentioned; the authors thank B.V.Illin. There are 3 figures, 1 table, and 23 referenceo, 12 of which are Soviet. ASSOCIATION: Moskovskiy gosudarstvennyy univenitet im.M.V.Lomonosova (Lioscow State University imeni M.V.Lomono--ov) Card 3/4  The'Infl-erce of the Nature of Silica Gel and Quartz Surfaces on Adsorption Propextlie;. I. Investi0-:,tions of the Hydration of the Silicon Dioxide Surface SUBMITTED: June 5, 1957 Card 4/14  C0.rj/76-_'2-1 1 -2r: "-72 5W AUTHORS: yeeor--iv~ ~lf S. , Kra:i.f 1 fr., ikov, 1., iselev, V. F. TITLE: The Effect, of the Nat-ilre of the Silica Gel and Quartz Surfp.c.~_ on Its Adso_~ption Prcperti~-s (Vliyaniye prirody poverkhnos"i silikagelya 4 kvar'sa na ikh adsorbtsionryye svoys'v,'.I) U Arlqo.-Ption of Stpir., Yethyl Alcohol F-ind llitrnEpn on Silica Gel of Different DeE:rees of Tyr1ration (II. Adsorbtsiya parcv vody, metilovogo spirts. i azota;-na silikagelyakh raz]-ichnoy stepeni gidratatsii) PERIODICAL: Zhurnal fizicheskoy khimil,.1958, Vol 32, Nr 11, pLp 2624-2633 (USSR) ABSTRACT: Silica gel samples and non-porous "white soot" described in the previous paper were used. The measurements of the adsorp- tion were carried out acaording to the gravimetric mlethod. It was found (Figl) that with samples treated at 3000C the ad- sorption (at constant p/p. ) decreases with a decrease of the degree of hydration of the surface. The different adsorbability Card 1/3 of the investigated silica gels is not due to their structure  SOV/76-32-11-25/32 The Effect of the Nature of the Sil~ca Gel and quartz Surface on Its Adsorption Properties. II. Adsorption.of Steam, Methyl Alcohol and Nitrogen on Silica Gel of Different Degrees of Hydration but to the-chemi-~&I-nature'of-the',surface (their degree of hydration). It is assumed.that the hydroxyl groups 'with water molecules can form hydrogen compounds on the Burfaoe (Ref 12), and-thus act ds,a'dsorption centers. Contradicting data giVEn by other authors on the adsorption centers mentioned above ~(Ref8 15,16) are explained by a different technique of in- vestigation. As the-hydration of the surface of the investi- gated samples is*different the.adsorption properties of the surface with respect to the molecules capable of forming hydrogew compounds with hydroxyl groups are also different. Measurements carried out of the surface of hydrated XSK-1 samples occupied by water molecules showed that within the range of P/p from 0.1 to 0.3 the valu i w.changes from 39 to 22.5 1&7'and tRus is considerably higher than that given in publications (1,0.6-and 14.8 V) (Refs 20-22). ~s the adsorp- tion properties.are functions of several facterrs (crys+al- lography of the sample, chemical composition etc.) they can- not be called "absolute" properties ( flabsolutell isothermal Card 2/3 lines). The authors thank M. M. Dubinin and B. V. Illin.  SW176-32-11-251132 The Effect of -the Nature of the Silica Gel and Quartz Surface on Its Adsorption Properties. II. Adsorption of Steam, Methyl Alcohol and Nitrogen on Silica Gel of Different Degrees of Hydration There are a figures and 29 references, 22 of which are Soviet. ASSOCIATION: Moskovskiy gosudarstvennyy universitet im. M, V. Lomonosova (Moscow State University imeni M. V. Lomonosov) SU13MITTED: June 5, 1957 Card 3/3  AUTHORS: -Yerorov. M. Usele'/' V. TI TLE: The Ad3orption Properti er o Depenience Upor Comir,os.1 tlori katriykh zatorov 1 '.ki'. PERIODICAL: Doklady Alkado-a-mil nau'r- pp. 326 - ";n9 (ussRl C 11 ivro-!jj e C,-It ai r a A Mv-1 1913~~, Vol_ 1,20, 11,- 2, ABSTRACT: In some rrevicus narers (Refs 1-4) it v.. vis shown that thc- properties Tier un.4 t of surfdcr- wi th rippe--t to an~d aicohol. moleculen arf- to a coni`derab76~ i*.ztent deP;'-T;d'!rt delgree of lvdration of the olir!'a,~t~. 'A IC bu- ji' jrltc-r-~-t t~ exterd ouch -4nvestigationo to a, number of allumo-!-_4 vo~ryi ngIcomposit-Jon. in. the fi.rst staj-,-.(! of these stud4er, t-- uuttt-~ invpsti,i7ated the ad9orption of otea-i ani ~:,f methy'll. all!--,hol and t~e hp--,-.t neceFsary to wet the svnth-~tle u1-uM.:)-S-:icate v):7, r.-, I The catalysts had % contc-.nt of c.-italyst ~0- --r-i ,f of Iii2 03* The measuremen"s o4 a~t:-.crntlon w~-re c,:rri~-d ---a: ~r. Card 1/3 a caiorimetc:--. with conctant heat excharg.-a. A diagran~ thio  Thp Adsorption 'Proo-~rlles of Ca f -3 end 'I n- i x Dc, r; ""~ 1. C'~- U pc; - Cr :7,F n n funot ijn rf th~, h;?at ni: b., ..:It L-1. content of czvf~ta'~ for .111 alirn- in--- Thv.~,c ciii-vun oxbi ',,,It ~i-xLrm %-AA ch tr#,~alm.wk! j7.1.' the L 2%)0- 'u:` contfin-, of cryste" r, ; f 3 n f ~- v,~s t i r. ar t i c-~; ' a r r. !:amp len vi i th a hl t~h Al 1)"), CO n te r. Th;- ht!a t v ~~ f t t fi* - r `,,v abou t the double betwer-n zil. i cagel and all-v,..-.~ - rt C%2 ". I t even 2 con t~---n ?~e same Samples werc. allso uoed for the f t he rma 1 1 i rte s o r th r- a el n, o rp an a f L- t rl ~t:- a n d v The d e s c rri t i o n he rma I r. (: s o are conside-r.,blo, bo,;Iow the -lisorption -;scthcrr-n1 h 0 W v V ell, d i a no Sho A- :311ch rt 'oul-oM ~-,.V. 74,1, C,~ o S 3 1 1 ca ', e!7. nj r.1 1 ar tci tha t a f 1 1 more inhomoeencous. Investir-t-or, of the n 2 i; o t ii i i rm cannot be lim-ited to the local ad~.ovb,~d centera, and t1eir toocEraphy and th~.Ar concentvatie;n 'U.- Card 2/3 into account. In conclusion the authors uyprcs,.~. Ueir Lrrst-,*1,,;.-,v  The Af I t 4 on 1-r: Per "i es of kl unn-S' I 1~ Icqt C, S 0 V/ 2 o - 12 c - 2 - 2 8 //63 C a t a I r. a. r. e i r c e. r- n vT P., r, C r- r i,,: ~ s i t J. o r, to B. I in for the h,~-'r, rendiored by h Lm, in thi s Y.-cork and to for hi.-,~ unhbr.*;~d interest and for his furniShIng the Theri~ ire table, and 16 references, 15 of whI.-,,Y. are Sxviet. *Lkulltet Mrrkc-vskr_sgo gowidarstvennogo uriversiteta Loum no so x7a fDept. of Physics of the I'lloscow State University F FT e~ i., T" Janua_-y ';5, 11958, by 1.11.11,'.ZrAinin, Meribei, Academy of Sciences, UBM, 1 TTE D: Janua~-y 6, 1958 1. Almainum silicate eatalysts--Adsorptive properties 2. Almninum silicate catalysts--Physical properties Card 3/3  5W SOV/153-2-3-9/29 AUTHORS: Yegorov, M. M., Kiselevy V. F.- Krasillnikov, K. G.; --- S1m&_n-&_v-,-TuT.--1 -.- TITLE: The Influence of the Phase Composition of the Adsorbents in the System A120 3 - H20 on Their Surface Properties PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Khimiya, i khimicheskaya tekhnologiya, 19599 Vol 2, Nr 3v PP 360-365 (USSR) ABSTRACT: Cherenkov aluminum oxide from the laboratory of K. V. Topchiyeva khimicheskiy fakulttet MGU (Chemical Department of Moscow State University) was used for the investigation. The dehydration at different temperatures was investigated (Fig 1). Phase investi. gations were carried out by X-ray methods with cameras of the type RDK-57 and with X-ray tubes of the type BSV. The samples were tempered at different temperatures and the wetting heat was determined (Table). The results are - referred to 1 g oxide - represented in diagrams (Fig 2). A second representation is given with respect to the surface unit (Fig 3). A dependence between the structural water and the wetting heat per surface unit was found (Fig 4). The phase change and the change of the Card 1/2 degree of wetting of the surface causes a sharp change of the  The Influence of the Phase Composition of the SOY/153-2-3..9/29 Adsorbents in the System Al 203 H20 on Their Surface Properties surface properties~ The atAthors thank K. V. Topchiyeva and B. V. Illin for their assistance in the investigations. There are 4 figures, 1 table, and 10 references, 7 of which are Soviet. ASSOCIATION: Moskovskiy gosudarstvennyy universitet imeni M. V. Lomonosova Kafedra fiziki (Moscow State University imeni 11. V. Lomonosov Chair of Physics) SUBMITTED: April 24, 1958 Card 2/2